KR20190089483A - Treatment of nuclear waste exclusively for ocean won Pressurized water double structure nuclear reactor equipment - Google Patents

Abstract

The present invention relates to nuclear waste treatment pressurized water-typed double structure nuclear reactor facilities for ocean nuclear plants having a double structure block tank dust collector and, more specifically, to nuclear waste treatment pressurized water-typed double structure nuclear reactor facilities for ocean nuclear plants comprising: a double structure nuclear waste storage tank connecting each of parts of nuclear waste treatment provided in double structure block tank double nuclear reactor facilities of a double structure egg shape or double nuclear reactor facilities of a double pipe structure capsule shape for the nuclear waste treatment at ocean nuclear plants; and double structure block tank double structure nuclear reactor facilities forming the nuclear waste treatment having space rockets, satellites, and ships included in a nuclear waste treatment adjusting device for continuous nuclear plant operation. Therefore, nuclear waste treatment adjustment connecting a nuclear water power plant and an ocean nuclear water power plant is formed with double structure block tank dust collectors to control nuclear fuel radiation leakage which is connected to several pumps, double structure pipes, valves, and generators.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nuclear reactor,

More particularly, the present invention relates to a double structure nuclear reactor facility for marine nuclear waste treatment, and more particularly, to a dual structure nuclear reactor facility for nuclear waste disposal in a marine nuclear power plant, A double structure nuclear waste storage tank which connects the individual parts of the nuclear waste treatment provided in the dual structure reactor facility and the river mouth which forms the tunnel of the cooling water and the loess mixture of the nuclear fuel explosion prevention control article and the sink located in the ocean It has a construction crane equipped with a construction crane, and has a submergence rescue line to enter small marine nuclear power plants, medium-sized marine nuclear power plants and floating marine nuclear power plants. The deck deck of the floating structure barge, floating structure barge, is composed of construction machine cranes, Tank pressurized water type double structure reactor facility The deck deck of the floating deck detox includes the space rocket, the satellite and the ships, and the double deck deck of the floating structure type nuclear reactor facility connection structure is carried out by the sink prevention residence line and the nuclear waste disposal treatment device for the continuous operation of the nuclear power plant. The present invention relates to a dual structure nuclear reactor pressure vessel type nuclear waste disposal facility for an ocean source, which constitutes a nuclear waste disposal having a dual structure reactor facility which is a structural block tank.

Generally, the installation of conventional nuclear power plants' nuclear reactors installed due to the location of the inland riverside of the global village and coastal coastal areas is weak due to natural disasters and the nuclear power generation operation is stopped or nuclear reactors are exploded. Thus, once manufacturing companies of such conventional nuclear power plant reactors, to meet the reliability of electric power consumers, it is necessary to use the containment vessel included in the fourth wall of the recently developed reactor, 5 Reactor included in the wall A large number of through holes are formed at an angle of 45 ° at the upper part of the building,

A plurality of safety valves are connected to the block piping while forming a double piping line in the plurality of through holes after machining the reactor building with the computer cutter, the construction machine crane and the conveyor in the drilling machine and the rotary machine of the cutting machine, So that the nuclear waste treatment storage block tanks and the radiation-type connection structure are formed in 9 double structure block tanks of double the diameter of the reactor building on the outer wall surface of the nuclear reactor building. As has been constructed, the conventional reactor plant of a nuclear power plant is exposed to the designing process of the reactor plant which is very serious and dangerous for safety and economical efficiency.

The best nuclear power to restore the credibility of power consumers Global nuclear power plant with economical and safety Nuclear reactors Nuclear reactors at nuclear power plants Operation of nuclear reactors Nuclear waste processing Nuclear reactors for shielding equipment Radiation leakage control Double structure block tank Nuclear reactors suitable for nuclear reactor Nuclear waste As a result of research and development on the safety and economical solution to the necessity of installation of the shielding device, the design and experiment of the solution have been continued, and as a result, a large number of nuclear reactors of the global nuclear power plants, nuclear reactors Double Structure Block by Tank Control of Nuclear Radiation Leakage Dual Structure Block Tank in Dust Collector Double Structure Block Tank with Dust Collector, Design Process of Pressurized Water Double Reactor Facility Much effort to find Was the cry.

However, as the needs of those skilled in the art have become more diverse, and since there is a serious risk level for nuclear safety and economics as a reason for separating and coupling the block tank for nuclear waste treatment storage to 9 double structure block tanks, The double-structure reactor facility for the treatment of nuclear waste for marine resources is composed of a double structure block tank that controls leakage of nuclear radiation from nuclear hydroelectric power plants in order to relieve the consumers' The existing containment vessel contained in the fourth wall of the dual structure reactor facility and the nuclear reactor building contained in the fifth wall. The machine cutter and the construction machine for the rotary lathing machine for the drilling machine and the cutting machine with a plurality of through holes at a constant angle of 45 ° With crane and conveyors, one pressurized water double atom Configuring the plurality of through-holes in the plant and processed only after it is connected to the pipe line blocks of the double pipe structure of the nuclear waste disposal, and

In the pressurized water type double structure reactor installation, a plurality of safety valve connecting structures are provided with a rubber packing of a gasket in a bolt and a nut in a block pipe line of a double pipe structure, and a connecting structure of the flange is provided with a hand tool hammer and a wrench, On the circumference surface, a pressurized water type double structure reactor facility is constituted,

A double structure block tank having a diameter twice the size of the reactor building constituting the pressurized water type double structure reactor facility is welded to a plurality of through holes while welding a double tube structure block piping line to a plurality of through holes In the double pipe structure piping line of a plurality of safety valve connection structures, a pressurized water type double structure reactor facility is constituted,

The nuclear reactor of the Marine Nuclear Power Plant, which is equipped with a radiation-type connection structure and has a double structure barge, is equipped with nuclear reactor waste disposal shielding devices of nuclear power plants, The double structure block tank that distributes the structural reactor facilities includes a double-structure pressurized water reactor facility consisting of a construction machine that provides a floating nuclear plant base for offshore nuclear power plants and a marine tunnel traffic device that is formed by replacing marine vessels. And marine nuclear power plants equipped with double-structure reactor facilities for the treatment of marine nuclear wastes from the upper sea barge hull for the operation of floating nuclear power plants of medium and large sized marine nuclear power plants,

In the marine nuclear power plant floating structure, which is a double structure barge, the ship block tanks are provided with a hull position shifting control device for the hull position shifting in the ocean for the installation operation in which the umbrella can be easily pushed and unfolded. It constitutes a double structure nuclear reactor pressure vessel type double structure reactor facility equipped with a dual structure block tank dust collector constituting safe nuclear reactor facility operation to release mooring and mooring by putting a key and a throttle control device.

A plurality of nuclear reactor facilities for nuclear power generation of the prior art level provided with nuclear energy constituted inside the pressurized water type double structure reactor facility main body for the ocean nuclear waste treatment for ocean resource will be described as follows.

The conventional nuclear reactors for nuclear power generation of the prior art are formed by boiling water reactor and pressurized water reactor facilities. Power reactors are mainly used for light water reactors, Reactor facilities and multi-purpose high temperature gas reactor facilities and new type conversion reactor facilities are used. Boiler water reactor, pressurized water reactor, gas cooling furnace reactor, multi-purpose hot gas reactor and new conversion furnace reactor And the six types of reactor facilities are referred to as a plurality of nuclear reactor facilities for nuclear power generation of the prior art level. The six types of nuclear reactor facilities of the above-mentioned six types of nuclear reactor facilities among the plurality of nuclear reactor facilities for nuclear power generation, A pressurized water type dual structure reactor facility is constructed.

In addition to the limited reserves of uranium as a raw material of nuclear energy composing the pressurized water double-structure reactor facility for nuclear waste disposal, there is nuclear energy as an energy source that causes pollution less than fossil fuel. Therefore, As a new power source, it is in the spotlight, but there is no problem with this nuclear energy, so a more serious problem is the disposal method of nuclear waste.

Environmental pollution caused by nuclear waste can fatally destroy our only earth.

So, we have come up with a way to get energy without pollution, and today we want to get the answer from the sun and the sea.

There are many ways to get energy from the ocean. Tidal power to obtain energy by tidal and tidal movements, Wave power to obtain energy by using the power of waves, and Sea water temperature to obtain energy by using the temperature difference of seawater. Using these methods, we are able to provide an unlimited amount of pollution-free energy at sea.

A double structure block tank for the insertion into the dual structure block tank dust collector of the nuclear radiation leakage control. A plurality of nuclear reactor facilities included in the reactor facilities other than the pressurized water reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power station provided in the dust collector,

The boiler water reactor (802) and the pressurized water reactor (803) are formed. The power reactor is mainly used for the light water reactor. The other is the gas cooling furnace reactor (804) and the multi- The reactor 805 and the new conversion furnace reactor 806 are used in the boiler water reactor reactor installation 802 and the pressurized water reactor installation 803 and the gas cooling furnace reactor installation 804 and the multi- And the new conversion type, the reactor facility (806) and the high-speed proliferation furnace reactor facility (838) were combined to collect all six types of reactor facilities, and the six types of reactor facilities were installed in a plurality of reactor facilities for nuclear power generation Quot;

Each of the nuclear reactor hydroelectric power plants having a double structure block tank has a construction machine and a double structure block tank dust collector inside the nuclear nuclear hydroelectric power plant, It is equipped with double-structured barge line, a pressurized water reactor system consisting of a nuclear-powered nuclear reactor plant equipped with a radiation-type connection structure, and a nuclear waste disposal screening system. Inside the dual structure block tank,

Inside the double structure block tank, a double structure block tank cleaner 794 composed of a pressurized water type double structure reactor facility, a double structure outer block tank 599 outside the double structure inner block tank 596, The first auxiliary steel pipe 600 for the block tank and the second auxiliary steel pipe 601 for the block tank and the vertical barriers 605 and the horizontal barriers 609 and steel beams 149, The second auxiliary steel plate 601 for a block tank, the vertical partition 605, the horizontal partition 609, the steel beam 149, the snap hole 602 and the partition wall manhole 610, A nuclear reactor for dual-structure nuclear reactors,

The construction of a marine nuclear power plant with the construction equipment of the marine nuclear power plant constituting the pressurized water reactor type nuclear waste disposal facility for the marine resource, and the marine nuclear power plant connected to the marine tunnel transportation equipment formed by replacing the marine vessel It is equipped with readers, small marine nuclear power plant, medium-sized marine nuclear power plant, and large-scale marine nuclear power plant, each of which is equipped with marine facilities to operate the nuclear power plant in the upper barge hull of the sea surface. It consists of the components of the marine nuclear power plant that make up the facility,

Double-structured nuclear reactor for the marine nuclear power plant consisting of the components of the above-mentioned marine nuclear power plant Double-structure nuclear reactor of the pressurized water reactor Double-structure barge line at the upper part of the holding tank constituting the inside of the main body The guide rail located at the upper part of the hull deck (SDU) And the cranes of 5,000 tons capacity are installed on the upper deck of the deck deck and the transportation chain cranes are placed on the guide rails and the double and triple sliding hatch covers are opened in the opening,

The cranes are semicircular parts. The stopper plate is disassembled by a pressurized water type double structure. A block tank is formed in the nuclear reactor facility. Displacement of the movement control device is attached to the portable lug. Construction machine The crane of the crane is equipped with the wire rope and the shackle and the crane boom hook on the boom. It is tied to a portable lug formed in the pressurized water double structure reactor facility,

In the double structure barge hull at the upper part of the holding tank, there are several openings at the upper part of the deck deck constituting the pressurized water type double structure reactor facility, so that the crane operation is provided, A construction machine crane that includes a double structure reactor installation inside a barge hull and a pressurized water double structure reactor installation to be located inside a double structure barge hull is installed in a marine nuclear power plant and a crane operation is provided to construct a pressurized water double structure reactor installation ;

In the pressurized water type double structure reactor facility,

Nuclear safety engineering that shields and blocks nuclear radioactive contaminants from outside the reactor by providing nuclear waste storage to the dual structure block tank dust collector with crane operation and transfer to nuclear fuel explosion control goods. Type dual-structure reactor equipped with a double-structure block tank dust collector to prevent leakage of nuclear fuel radiation outside the dual structure block tank dust collector and to prevent leakage of nuclear fuel radiation due to prevention of reactor explosion,

Sequentially, it is necessary to control the treatment of nuclear waste inside the dual structure block tank dust collector to prevent nuclear explosion,

Secondly, it is composed of double structure block tank, which is composed of connecting structure of alternative marine vessel traffic facility. Nuclear waste treatment for marine resources with dust collector Double structure reactor of pressurized water type Double structure block built up inside body Double tank Structural block piping to control the treatment of nuclear waste,

In the dual tubular block piping system constituting the nuclear waste treatment connecting with the double structure block tank dust collector,

Temperature pressure sensing sensor Nuclear waste disposal of land and ocean nuclear power plants providing safety valve and water pump connection structures effectively improving nuclear operation Nuclear waste treatment of marine nuclear power plant with dual structure block tank dust collector A marine nuclear hydroelectric power plant with a water nuclear reactor is equipped with a safety pressure sensor and water supply pumps that provide a connection to a double pipe structure pipe with water potential energy, Use a nuclear waste disposal unit to prepare the loess mixture to convert the potential energy of water into kinetic energy.

In order to construct dual-structure nuclear reactors equipped with double structure block tank dust collectors for processing nuclear waste, nuclear waste treatment for marine resources and pressurized water reactor, Nuclear power plants operating on land and offshore to improve efficiency Nuclear radioactivity leakage control of nuclear reactors of nuclear waste treatment shields Dual structure block tanks The dust collectors are usually double pipe structure piping with potential energy of water. It is equipped with a temperature and pressure sensor, safety valve, and water pumps to generate a cooling water and soap bubbles. It is usually used as a dual structure egg type and double structure capsule type. Structure block Nuclear waste treatment pressurized water source for marine resource with tank dust collector In view of the fact that a marine nuclear power plant equipped with a dual structure reactor facility is constructed, a reactor facility in which a nuclear fuel explosion occurs in the past is provided with a double structure nuclear power plant having a dual structure block tank dust collector, Marine Nuclear Hydroelectric Power Plants are manufactured with a significant difference from conventional pressurized water reactor installations.

Hereinafter, Figs. 1 to 3 will be described with reference to the drawings.

As shown in Figs. 1 to 3,

FIGS. 1 to 3 are schematic views showing the construction of a pressurized water double-structure reactor facility for the nuclear waste disposal of a marine nuclear power plant constituted inside the main body 1 of the pressurized water reactor type nuclear reactor waste water treatment plant according to the present invention, A shared landfill 945 and a shared surface landfill 946 area of a provided marine nuclear power plant according to an embodiment of the present invention.

As shown in FIG. 1 to FIG. 3, it is constructed as a double-structure nuclear reactor facility main body (1) having a dual structure block tank dust collector inside a new Korean federal state (989) The area of the shared landfill 945 and the shared surface landfill 946 constituting the nuclear power generation facility unit 811 is,

China has land area of 239,085 ㎢ and sea area of 188,377 ㎢, total area is 427,462 ㎢,

Russia has a land area of 3,566 ㎢ and a sea area of 54,137 ㎢ with a total area of 57,703 ㎢,

Japan has land area of 32,229 ㎢ and marine area of 143,061 ㎢, total area is 175,360 ㎢,

North Korea has land area of 120,000 ㎢ and sea of 132,704 ㎢, total area is 252,704 ㎢,

South Korea has a land area of 100,000 ㎢ and a sea area of 283,205 ㎢ with a total area of 383,205 ㎢,

The total land area is 494,550 ㎢ and the sea area is 801,484 ㎢. The total area is 1,296,434 ㎢. Within the radius of 600 km from the center of the peninsula (1000) (811) constituted by the interior of the main body (1) of the pressurized water type dual nuclear reactor waste treatment tank for marine resources contained in the nuclear power generation facility unit (811) constituting the inside of the pressurized water type double structure reactor facility main body The land and sea surrounding the Korean peninsula with shared landfills (945) and shared surface landfills (946) are composed of complex boundaries.

In addition, from the standpoint of the producer, the nuclear power plant 811 constituted inside the main body 1 of the pressurized water type nuclear waste disposal type pressurized water reactor for marine resources having the double structure block tank dust collector while preventing the territorial dispute and the armed conflict in advance, In addition,

As shown in FIGS. 1 to 3, the embedding processing apparatus constituted inside the common and shared water surface embedding processing regulating unit includes a shared water surface embedding processing unit constituted by the distribution dispensing apparatus of the construction machine and the inside of the shared water surface embedding processing apparatus To establish a peaceful coexistence between the Northeast Asian neo-Confucian states that guarantees full halt of hostilities and all-out acts on the Korean Peninsula surrounded by Russian territory in China and Japan in Northeast Asia, part of the Pacific region formed in Huxi, Area North Latitude 38 degrees 20 minutes 00 seconds, Tokyo 127 degrees 17 minutes 00 seconds, Kangwon-do, Cheolwon-gun, Gangwon-do, Gangsan-ri,

As shown in FIGS. 1 to 3, a double structural nuclear reactor having a double structure block tank dust collector is equipped with a pressurized water double reactor nuclear reactor facility 1, In the inside, the installed facilities of the conventional nuclear power plant installed according to the installation location of the inland river in the global village and the seashore of the coast lacks nuclear safety from natural disasters and the operation of nuclear power generation is stopped or several nuclear reactors are exploded. The companies that once manufactured these reactors are required to meet the reliability of electric power consumers by using the recently developed common and shared water surface treatment devices of construction machines With a dual structure block tank dust collector Nuclear waste disposal for marine resources (2) Pressurized water type double structure reactor facility (1) Provide input of pressurized water type double structure reactor facility for nuclear waste processing inside.

In the marine nuclear waste treatment and pressurized water type dual structure reactor facility constituted at the marine nuclear hydroelectric power plant,

As shown in FIGS. 1 to 3, a nuclear reactor waste water treatment type double structure reactor facility 1 having a dual structure block tank dust collector, And the fifth wall Drilling machine and cutter with a constant 45 ° angle at the upper part of the building Drilling machine and cutting machine Turning machine, computer cutting machine and construction machine After machining with crane and conveyor, A plurality of safety valves are provided on the block piping line with bolts, nuts and gaskets to connect the flanges of the double structure block tank and to the circumference of the outer wall of the reactor building, and the diameter of the reactor building 2 The block tank for the treatment of nuclear wastes and the double piping line of the double tubular structure in the doubly structured block tank of double size have a radiation type connection structure. And configured.

On the other hand, in a marine nuclear power plant having a dual structure block tank dust collector,

As shown in FIGS. 1 to 3, a common water surface filling apparatus for a marine nuclear waste-treated pressurized water type double structure reactor facility 1 is provided. As the nuclear reactor safety and economical efficiency of nuclear power plant is very safe, nuclear power plant nuclear waste treatment,

Nuclear power plant with multiple nuclear reactors installed in the world's nuclear power plant with the best nuclear safety and economical efficiency to restore reliability of electric power consumers by providing distribution and input devices of construction machines mounted on marine transportation alternative ships. The need for proper installation of the reactor structure has been emphasized. As a result of researches on designing and testing solutions for the safety and economics, a number of hydroelectric power plants and several Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Nuclear reactors Construction machine with dual structure block tank Double-structure block tank for dual-structure nuclear reactor with marine resources for marine resources equipped with nuclear power plants Double-structure nuclear reactor facility for nuclear waste disposal for marine nuclear power plants with dust collector includes reactor nuclear reactor facility for nuclear waste disposal And land-based dispute settlement methods, it is necessary to put a lot of mine explosives buried in the military area into a common place for safe removal and a construction machine equipped with a shared water surface landfill .

As shown in Figs. 1 to 3, in the distribution input apparatus for the reactor facility of the nuclear power plant constituted inside the main body 1 of the pressurized water type double structure reactor facility for processing the marine nuclear waste,

A double structure block tank having a diameter twice the diameter of the reactor building constituting the outer wall of the reactor building is provided with a hollow space for a nuclear waste disposal storage block tank while a double pipe structure block pipe line is provided at a plurality of through holes And the block piping line is provided as a radiation-type connection structure, and the marine power plant's flotation plant is equipped with a plurality of nuclear reactors for nuclear power plant operation. Controlled double structure Block tank Marine power plant Floating planting Nuclear power plant and connection structure Anti-sinking flood prevention plant Construction machine that provided installation foundation and shipboard table which is the traffic equipment facility replacing marine vessel is provided with the same barge ship hull, The same barge hull holding block tanks as the table legs Positioning movement control system that includes the operation of pushing and unfolding the umbrella of the barge hull holding block tank at sea level easily by anyone.

As shown in FIGS. 1 to 3, a barge ship hull at the upper part of the sea surface can be easily and comfortably put on and unfolded by anyone. The barge hull position shifting device and the throttle adjusting device, And sea surface transportation of landfill processing equipment Nuclear waste treatment for marine resources equipped with double structure block tank dust collector for further operation of nuclear power plant of construction machine installed in alternative vessel Pressurized water type double structure reactor facility Main body (1) Inside The dual structure nuclear reactor waste water treatment type dual structure nuclear reactor facility equipped with double structure block tank dust collector for ocean source shall be prepared first.

As shown in FIGS. 1 to 3, a double structure block tank (dual tank structure), which is an alternative to the marine transportation, is constructed inside the main body (1) of the pressurized water double- Dedicated Nuclear Waste Treatment Pressurized water type double structure reactor facilities are used to provide weather forecasts prepared by the Korea Meteorological Administration (KMA) in a timely manner.

As shown in FIG. 1 to FIG. 3, the nuclear waste treatment for marine resources, the pressurized water type double structure reactor facility 1, the large-sized forest fires occurring in the inside of the main body 1 and the sea, yellow dust, heavy snow, And a number of natural disasters such as tsunamis, landslides, and nuclear radioactive contamination, are equipped with marine nuclear power plants equipped with pressurized water reactor type nuclear reactor facilities for ocean nuclear waste treatment,

Marine nuclear waste disposal treatment Pressurized water type double structure reactor facility (1) It is equipped with landfill disposal facilities to overcome flood damage from the above disaster while preventing a lot of artificial territorial disputes and armed war which are made up inside. To ensure the peaceful coexistence of hostilities and all disabilities in Korea surrounded by Russian territory in China and Japan in Northeast Asia as part of the Pacific region. Nuclear waste disposal for marine resources for preparation of the new federal state of peaceful coexistence with agreements and treaties of each country for coexistence of peaceful coexistence Pressurized water type double structure reactor facility (1) Provide equipments for dispensing equipment for construction equipment for removing double pipe structure mine as same as reactor facilities.

As shown in FIG. 1 to FIG. 3, a territorial dispute is made to be a new concept of a new unified nation formed by the new Korean land use map constructed in the main body (1) of the pressurized water double- In order to remove the mine explosives safely at the same time while switching to the disposal methods, a double pipe structure mine removal construction equipment dispensing device is sequentially injected to form a stratified structure. At the same time, A double structure of construction machine for land mine removal, a flood control device included in a common and shared water surface landfill processing apparatus having a plurality of construction machines having block tanks, and a nuclear waste for marine resources connected to a marine tunnel transportation device A double tube containing a marine nuclear power plant equipped with a pressurized water type double structure reactor facility It is possible to inject a collection and input device of a construction machine for removing double mine mine that constitutes a construction equipment for the removal of mine landmines, so that the collected amount of the mine can be injected into a marine nuclear power plant so that one land and one marine can be connected, In addition to being able to regulate the landfill treatment at the SDU of the deck of the marine nuclear power plant according to the preference of the landfill collection of the landfill treatment system, It will be equipped with pressurized water double structure reactor facilities to prevent territorial disputes and armed wars.

As shown in FIG. 1 to FIG. 3, the position of the upper part of the deck (SDU) of the dock of the marine nuclear hydroelectric power plant constituting the inside of the pressurized water double structure reactor facility 1 of the nuclear waste treatment for marine resources, For the development of a shared surface landfill,

In the bottom of the sea surface of the shared reclaimed landfill, the fisheries industry is organized in parallel with the development of the steel industry in parallel with the agricultural,

It is equipped with marine tunnel transportation equipment of marine traffic alternate vessel which controls world economic logistics distribution in Northeast Asia, and it prepares for establishment of new Korea federal state which improves production efficiency before and after common land surface treatment process Provide a distribution and input device for construction equipment for removing land mines equipped with a double pipe structure consisting of a main body (1) of a pressurized water double structure reactor facility for ocean nuclear waste treatment.

As shown in FIG. 1 to FIG. 3, a double structure block tank tank dust collector constructed in the main body (1) of a pressurized water type nuclear reactor waste processing vessel for marine resources, Nuclear reactor explosion prevention control equipment of construction machinery mounted on a marine traffic substitute ship for common land and shared water surface treatment equipment for nuclear reactor facilities is provided to arrange nuclear waste storage to block and shield nuclear pollutants from outside the nuclear reactor The use of the shielding concept of the in-depth defense concept of Nuclear Safety Engineering, while preventing the leakage of nuclear fuel radiation and preventing the explosion of the nuclear fuel from outside the single dual structure block tank dust collector, Inside of a dual structure block tank for safe removal of a large number of mine explosives It controls the processing of nuclear waste and landmine explosives into the dual structure block tank of common and shared water surface treatment equipment by providing the connection structure of construction machine to be connected to the marine traffic tunnel device while controlling mine explosive treatment, Double structure block tank with a dust collector Dual treatment of a nuclear waste for a marine source Double structure of a marine nuclear power plant with a pressurized water double structure reactor facility Block tank An egg or capsule type double structure block tank In view of the fact that nuclear waste disposal of a marine nuclear power plant equipped with a dust collector is carried out, the conventional nuclear waste disposal is a dual structural nuclear reactor with a double structure block tank dust collector for preparation of a new federal state, Equipment body (1) Nuclear waste disposal for marine resources consisting of internal pressure type double structure By constructing a marine nuclear hydroelectric power plant with reactor facilities, a pressurized water double structure reactor facility is manufactured with a remarkable difference from conventional technologies.

As shown in FIG. 1 to FIG. 3, a dual structure reactor pressurized water type pressurized water pressurized water reactor nuclear waste treatment for marine resources having a double structure block tank dust collector according to an embodiment of the present invention is constructed inside the reactor main body 1 The nuclear power generation nuclear waste processing unit 811a included in the nuclear hydropower generation facility unit 811 and the power generation and production unit 811b, the traffic transportation unit 811c of the construction machine, and the power transmission unit 811d A nuclear power plant safety control and management production front part 811e, an electronic control adjusting device construction machine control part 811f, a screw control part 811g, a disaster prevention prevention control part 811h, Groundwater and deep sea water capacity supply control unit 811j which constitute control of groundwater and deep sea water capacity supply control, common and shared water surface landfill control unit, space power generation And a satellite control unit 811k for preventing radioactive contamination of nuclear energy and a double tube structure block for nuclear waste disposal of a nuclear power plant constituting an electronic sensor valve screw control unit and a combination with a facility control unit of a floating- The piping line control side 238 is composed of connection structures of a marine nuclear power plant having a double structure reactor assembly main body 1 equipped with a double structure block tank dust collector for controlling nuclear waste, have.

1 to 3 are flow charts of the present invention, showing a double structure block tank dust collector constituted inside the main body 1 of the pressurized water reactor type nuclear reactor processing water source dedicated to the marine source, Dual structure of deep-sea peace-keeping concept inside Northeast Asia formed before and after common and shared water surface treatment process of marine nuclear hydroelectric power plant equipped with water type dual structure reactor facility Treatment of nuclear waste only for marine resource equipped with block tank dust collector A detailed description of the common surface and the common water surface embedding step constituting the marine nuclear power plant having the pressurized water type double structure reactor facility body 1 will be omitted.

As shown in FIGS. 1 to 3, the control of settlement of territorial disputes contained in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water double-structure reactor facility for marine resource-only nuclear waste treatment includes a common and shared water surface In both Northeast Asian regions formed before and after the landfill process, both sides connected the bridges to the roads and railways blocked inside the DMZ, and crossed the boundaries of Manchuria, Siberia, Tenjin Mountains and Gobi Desert. ), To participate in the Siberian oil pipeline and gas pipeline burial project, and in the Northeast Asia Internal Peace Sovereignty Line (963), whales and prawns composed of complex fresh water and salt water Which is composed of one new unified country composed of the territory of the new federal state with the canal rivers. (1), which is composed of the main body (1) of the pressurized water reactor type nuclear waste treatment facility for ocean resources, which is formed in the shared landfill site and the shared landfill site, It can be characterized that it is formed before and after the common water surface filling process of the dual structure nuclear reactor facility.

Hereinafter, nuclear safety will be described.

Stress test: A task that evaluates the safety margin that a plant can safely handle in extreme environments such as natural disasters that can threaten safety functions of nuclear power plants or cause serious accidents. Fukushima nuclear power plant accident was the reason that nuclear power plant started stress test. The European Union countries are assessing the safety margin that a power plant can safely handle when faced with extreme environments such as natural disasters that threaten the safety function of a power plant after the Fukushima nuclear plant accident in 2011 and cause serious accidents. Stress test method was adopted. The stress test confirms coping ability by assuming three extreme situations.

The first is the occurrence of earthquakes or tsunamis,

The second is the loss of safety functions due to the shutdown of power in the nuclear power plant or the loss of cooling means. The third is the case of human error or confusion in the decision-making process. The Korea Nuclear Safety Commission is based on the evaluation method of stress test of the EU, and the safety inspection of structures, systems, and equipment caused by earthquakes, and the response to loss of safety functions such as structures, systems, equipment safety and power system due to tsunami and other natural disasters Ability, serious accident management ability, disaster prevention and emergency response ability.

The Nuclear Regulatory System can be roughly classified into two categories: the nuclear-related laws enacted to fully address nuclear issues, and other laws that have been enacted for other purposes but include some aspects of nuclear energy.

The law related to nuclear energy includes provisions on nuclear safety and regulatory laws that regulate the safety management of nuclear power, laws related to the use and promotion of nuclear power and the promotion of nuclear power, and compensation for damages caused by nuclear power. There are laws related to nuclear damage compensation. Among them, nuclear safety and regulatory laws include the Nuclear Safety Act, the Nuclear Safety and Protection Act, the Survivors' Radiation Safety Management Act, the Law on the Establishment and Operation of the Nuclear Safety Institute, and the Korea Nuclear Safety Institute.

The Nuclear Safety Act provides the basis and basic information on nuclear safety regulation, the enforcement decree stipulating administrative matters necessary for the enforcement of this Act (Presidential Decree), the detailed regulatory procedures, methods and technical standards necessary for the enforcement of laws and ordinances And the technical regulations and the technical standards and administrative procedures, which are detailed in detail.

The safety standards are set out in these four statutes, and various safety guidelines are provided to support them technically. The safety standard is a technical standard that applies to the safety management of nuclear facilities and radioactive materials. It is a clear standard for regulators to regulators, and it is a basic requirement for operators to comply with safety regulations. On the other hand, the safety guideline provides technologically detailed instructions to apply the safety standard clearly and objectively, and unlike the safety standard, it does not have any coercion.

The Nuclear Safety Standards of Korea consist of the general license standards specified in the Nuclear Safety Law, the general technical standards set forth in the rules, and the detailed technical standards set forth by the notices.

For example, the criteria for construction and operation licenses for nuclear reactors specified in the Nuclear Safety Act,

One is to secure the technological capabilities necessary for the construction and operation specified in the Commission Rules,

Second, there should be no hindrance to the prevention of human, material and public disasters,

Third, in order to prevent the health and environmental risks of the people from radioactive materials generated due to construction and operation,

Fourth, the contents of the quality assurance plan and the dissolution plan should conform to the standards set by the committee rules.

As such, technical standards are usually delegated to subordinate laws, and general technical standards are defined by rules and detailed technical standards are provided by about 83 notices. In addition, there are regulatory guidelines of the Korea Nuclear Safety Institute and industry standards set by the industry as safety guidelines.

The Radiation Protection and Disaster Prevention Act of the Nuclear Facilities etc. was enacted to strengthen the radioactive disaster prevention and facility protection system for the safe operation of nuclear materials and nuclear facilities and to establish the radioactive disaster management system that can cope with the radioactive disaster efficiently. The Surrounding Radiation Safety Management Act provides for the safety management of radiation to protect the health and the environment of the people from the radiation that can be routinely encountered in daily life.

In nuclear power plant licenses and permits,

Any person who intends to construct nuclear reactors and related facilities shall submit to the committee a construction permit application, a radiation environmental impact assessment report, a preliminary safety analysis report, a quality assurance plan for construction, a decommissioning plan for nuclear reactors and related facilities, You must obtain permission.

After establishing the final design of reactor and related facilities, the operator conducting the construction work under the construction permit shall carry out the safety evaluation and submit the final safety analysis report, operating technical manual, quality assurance plan, radiation emergency plan and accident management plan And apply for an operating license. At the same time, the construction of reactors and related facilities should be properly carried out to test whether the related equipment and systems are installed and perform as designed, and be inspected by the regulatory agency before use. If it is confirmed that the result of the pre-use inspection by the regulatory authority is appropriate and the reactor and related facilities are ready to be loaded with nuclear fuel, and if the result of examination of application documents for operating license including the final safety analysis report of the operator is suitable, .

Once the license is granted, nuclear fuel can be loaded into the reactor, and tests on the reactor and related facilities continue, leading to an initial critical state where the nuclear chain reaction occurs for the first time. After reaching the initial threshold, the reactor output is divided into several stages until the reactor reaches 100% output. If the result is appropriate, the output of the reactor will rise to the next stage and reach 100% output. Regarding the tests that are performed at each output stage, the regulatory agency conducts inspections to determine whether to pass the pre-use inspections.

When a person who operates a nuclear power plant receives an operation permit and wants to change minor matters among the items approved by the operator, he or she is required to report a change in minor matters. An important matter for the safety of a nuclear power plant is to apply for a change permission, Changes are made after safety is confirmed.

Standard Design Approval [10]: This system is designed to avoid redundant license / license screening by making a standard design approval for nuclear power plants that are constructed repeatedly, apart from construction permits and operation permits. If the standard design is approved, the validity is valid for 15 years in the United States and 10 years in Korea. In the case of the US, if the standard design approval is renewed, it will be valid for 10 to 15 years. In addition, the United States operates the Combined Operating License (COL), which allows nuclear power plants that have received standard design licenses to build and operate nuclear power plants without separate construction permits and operating licenses. On the other hand, Korea has a standard design licensing system, but it requires construction and operation licenses to pass through each phase when constructing and operating nuclear power plants. If a standard design engineer applies for the construction permit of nuclear reactors and related facilities by applying this within the validity period, the standard design approval shall be valid until the operation permission date of the relevant reactor and related facilities. Even if the standard design is valid, If found, it may order correction or supplementation of the accredited matter.

Site preliminary approval: The Nuclear Safety Commission may approve after requesting prior approval of the site prior to applying for a construction permit to build nuclear power reactors and related facilities. [11] If the site is approved in advance, it is possible to carry out concrete construction for excavation of the point where the reactor facility is to be installed and protection and reinforcement of the rock at that point. In order to obtain preliminary site approval, a radiation environmental impact assessment report, a site survey report on site characteristics, etc. should be submitted. The radiation environment impact assessment report includes the environmental status of facilities and sites, the prediction of radiation effects on the surrounding environment due to the construction and operation of facilities, the radiation environment monitoring plan during construction and operation of the facility, Describe radiation effects. The site survey report includes geographical characteristics and population status, surrounding industry transport and military facilities, meteorological characteristics, marine characteristics, hydrological characteristics, and geology. Earthquake and geotechnical properties. [13]

Site Criteria: In accordance with Article 11 (Permission Standards) of the Nuclear Safety Act related to Construction and Article 21 (Permission Standards) related to the operation, the Site of the Reactor Facilities shall be constructed and operated in conformity with the technical standards established by the Nuclear Safety Commission. It is stipulated that it should be located where there is no danger to human health and environment and to prevent disasters of human body, object and public caused by radioactive material or contaminated material. Detailed guidelines for field evaluation of the site were developed by the Korea Institute of Nuclear Safety and Design, and the <Regulation and Regulatory Guidelines for LNG Type Nuclear Power Plant> and the Safety Examination for LNG Type Nuclear Power Plant Guidance>.

Construction Permit: The Nuclear Safety Commission shall ensure that the applicant who has applied for the construction secures the technical capability necessary for the construction of the reactor and related facilities, and that the location, structure and facilities of the nuclear reactor and related facilities to be constructed meet the technical standards, And to prevent the human health and the environment from being harmful to the prevention of disasters of human bodies, objects and the public. The preliminary safety analysis report to be submitted at the time of application for the construction permit shall include characteristics of the site where the reactor and related facilities are installed, design of the reactor and related facilities, safety system, radiation protection, accident analysis, probabilistic safety assessment, Guidance, operational management, and so on.

Permission to operate: Operators wishing to operate a nuclear power plant under construction permit must obtain an operating license [14] from the regulatory agency Nuclear Safety Commission. The operating licensing standards should ensure that the technical capability required for the operation of nuclear power plants is secured and that the performance of nuclear power plants conforms to the technical standards established by the Nuclear Safety Commission, which is the regulatory agency, and should not interfere with the prevention of human, material and public disasters caused by radioactive materials. If the operator intends to change the operation permit, such as accident interpretation or change of operation technical manual, which may affect or reduce the safety of the facility during the operation of the reactor facility, the change must be approved by the Nuclear Safety Commission before the change. The description of which is omitted.)

As shown in Figs. 4 to 20, each of Figs. 4 to 20, each shows an embodiment constituted inside the main body 1 of the pressurized water double-structure reactor facility 1 for processing a nuclear waste for exclusive use with the present invention 2 is a configuration diagram illustrating exemplary features.

Hereinafter, the nuclear power generation nuclear waste disposal unit to the nuclear power generation facility 811 included in the nuclear power generation facility unit 811 connected to the marine nuclear power plant having the dual structure reactor facility for marine nuclear waste treatment, The valve screw control unit is equipped with a dual control valve for nuclear waste disposal of the nuclear power plant combined with the control unit of the construction machine. The control unit of the electronic sensor valve on the control side (238) Wealth and space development And the satellite control parts for prevention of nuclear radioactive contamination. The hydroelectric power production control part of the marine hydroelectric power plant and the power transmission control part of the submarine transverse railway substation for the treatment of nuclear waste to provide power transmission. The power of the engine and the generator will be described with reference to the drawings with respect to the respective compressors, the pump, and the pressurized water reactor arrangement (803) as follows.

As shown in FIGS. 4 to 20, the nuclear power plant nuclear waste disposal unit 811 included in the nuclear power generation facility unit 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment, Nuclear power plant's double tube structure of nuclear power plant combined with Nuclear Power Plant's block sensor pipeline control line (238) electronic sensor valve screw control unit and disaster prevention preventive control unit and forest fire natural disaster prevention control unit And a nuclear power plant (811) located at the ridge line of the mountain connected to the satellite control sections for preventing radioactive contamination of the nuclear power plant, the land hydraulic power plant of the stepped dam rotation road and the connection structure with the island tunnel (672a) And large-scale marine nuclear power plant marine power plant marine power station marine power plant marine power plant marine power plant marine power plant marine power plant marine power plant marine power plant marine nuclear power plant floodplain (593 , 594,595) and the marine tunnel traffic system (941), which is connected to the bridge bridge (937) and the pipe bridge pier (928) And internal train cars 771.

As shown in FIG. 4 to FIG. 20, in the nuclear waste disposal unit of the nuclear power plant constructed by adjusting the position of the hull of the several marine nuclear hydroelectric power station floating trainers (593, 594, 595)

A hydraulic rotary cylinder 620 of a rack and pinion type (NRP), which is a rotary cylinder constituting a nuclear power generation nuclear waste treatment section, a butterfly valve 622 for controlling the buoyancy of the band guide 621 and a hydraulic cylinder 623 are provided with a hydraulic cylinder door 624 so that the portable lug 607 and the portable lug pin 608 are connected to the vertical partition wall 605 and the lug coupling pin connection shaft 606 by a large flange- Hole (615) Construction machine connection structure and pipe bridge pier (928) and pipe bridge (937) to the inside of the marine tunnel traffic device (941) to pipe drilling machine (908) (771) of the marine tunnel transport device composed of the inner part of the marine tunnel transportation device (941) for the nuclear waste disposal treatment for the nuclear waste, the nuclear waste treatment for the marine resource, the pressurized water type double structure reactor facility main body 1 ).

As shown in FIG. 4 to FIG. 20, in the nuclear power generation nuclear waste treatment section of the nuclear power generation facility unit 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility 1 for the marine nuclear waste treatment,

Control of hull position movement of several marine nuclear power plant flood control stations (593,594,595) and control of position of construction machinery Dual structure block tank for nuclear waste disposal for disassembly and connection with construction machinery connection structure Internal structure of marine tunnel transport device (941) (771) for maritime tunnel transport equipment and double-structured nuclear reactor for marine resources equipped with double structure block tank dust collector equipped with an artificial tunnel which is a flood control facility. The nuclear power generation nuclear waste treatment section is constituted by the power generation facility section 811,

As shown in FIG. 4 to FIG. 20, the nuclear waste generator is connected to the nuclear power generation nuclear waste disposal unit included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water double- Nuclear power plant's nuclear waste treatment double tube structure Block piping line Electronic sensor of control side (238) Valve screw control and disaster prevention Prevention control and space power generation And the nuclear power plant 811 located at the ridge line of the mountain connected to the satellite control units for preventing nuclear radiation pollution,

A hydraulic rotary cylinder 620 of a rack and pinion type (N RP) which is a rotary cylinder constituting the nuclear power generation facility unit 811, a butterfly valve 622 for controlling buoyancy of the band guide 621, A vertical partition wall 605 constituted by pressurized water type dual structure reactor facilities for nuclear waste disposal of a nuclear power plant and a pin connection shaft 606 for a portable lug coupling are provided as door 624 for hydraulic cylinder in the right key 623 Large flange connection joints in the portable lug 607 and a portable lug pin 608 Machining hole 615 in the construction machine The marine tunnel transport device 941 constituting the connection structure and pipe bridge 928 and the pipe bridge 937, The crude oil-borne drilling machine 908 is connected to the hydroelectric power plant construction machine connection structure and the flue gas control system constituted by the disassembly coupling. The double structure block tank for the nuclear waste treatment is connected to the inside of the marine tunnel transportation device 941 The marine tunnel traffic consists of (771) facility and a flood control facility, and has a double structure block tank dust collector. The nuclear waste treatment facility for marine resources is equipped with a pressurized water type double structure reactor facility (1) Consists of,

As shown in Figs. 4 to 20, in the power generation and production section 811b included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment,

The double tube structure block piping line adjustment side 238 of the nuclear waste treatment of the nuclear power hydroelectric power plant combined with the nuclear power generation nuclear waste treatment section constituting the power production and manufacture section 811b is provided with the electronic sensor valve screw control section and the disaster prevention prevention control section And forest fires Preventing natural disasters Space development An electric motor pump for supplying electric power to be produced by the construction machine, and an electric power generator for generating electric power to the marine nuclear hydroelectric power plant 811 And a power generating and manufacturing unit 811b included in the hydroelectric power plant 941 constituting the hydro-power station's marine seesaw hydroelectric power plant 943 constituting recovery before and after the failure of the nuclear power plant.

The marine seesaw hydroelectric power plant 943 constituting the marine nuclear hydroelectric power plant 811 includes:

A hydraulic aeration pump turbine 943a constituting the marine sheath hydroelectric power plant 943, a Phelpton turbine 943b for a large hydro-electric power generator and a Francis turbine 943c for a large hydro-electric power generator, And the hydroelectric power plant 944,

The marine seesaw hydroelectric power plant (943) equipment constituting the hydroelectric power plant (943)

A power transmission mechanism including a power transmission line 95, a transformer 96, a power line 71, an air compressor 80, a high pressure storage tank 145, a motor motor body 192, a compressor body 263, a turbine 267, 268), a water intake channel (269), a watertight channel (270), and a multi-stage pump (8) as a connection side and a distribution side. 1 constituting the power generation and production section 811b included in the marine nuclear power generation facility section 811 that provides the power production of the double pipe structure block pipeline line regulation side 238 of the nuclear waste treatment of the nuclear power plant (943) facility connection structure of hydroelectric power station with recovery before and after failure during operation of the nuclear power plant.

As shown in FIG. 4 to FIG. 20, nuclear waste of a nuclear hydroelectric power plant constituted inside the main body (1) of a pressurized water type double structure reactor for treating a nuclear waste for marine resources having a dual structure block tank dust collector according to the prior art The hydroelectric power generation equipment distribution input unit of the hydroelectric power station constituting the power production and production unit 811b included in the marine nuclear power generation facility unit 811 for providing the power production of the double pipe structure line 238 of the treated double-

(680), which holds the water of flood control facilities such as a dam and a hydrograph on the floodgates, which are designed to control floods and droughts in conventional reservoirs and rivers, and water pressure located in the middle between the multi-purpose dams (680) At the distal end of the introduction tube 191,

Is connected to the through hole of the multipurpose dam 680 constituting the front end of the introduction pipe 191 and the rear end of the introduction pipe 191 is connected to the suction port 269 of the pressure head tank 189, A plurality of introduction pipes 191 are connected to the discharge port 270 located at the rear end of the multipurpose dam 189 and the pressure of the hydraulic fluid flowing into the plurality of hydraulic generators inside the hydraulic power plant located at the lower end of the multipurpose dam 680 (1) inside the main body (1) of the pressurized water reactor for nuclear waste treatment for marine resources equipped with a double structure block tank dust collector, and a water reactor A power generating and manufacturing section (not shown) included in a marine nuclear power generation facility section 811 that provides power production of the double pipe structure block piping line regulation side 238 of nuclear waste treatment of a nuclear power plant, And hydraulic power generation equipment distribution and input devices of the hydroelectric power station constituting the hydraulic power generating unit 811b.

As shown in FIG. 4 to FIG. 20, it is possible to provide a double-structure reactor tank facility with a double structure block tank dust collector, Hydro-Power Plant's Sea-Shore Hydro-Power Plant (943)

The power generation equipment constituting the marine sheath hydroelectric power plant 943 includes:

A hydraulic aeration pump 943a for the hydroelectric generating unit, a Phelpton aberger 943b for a large hydroelectric generating unit, and a Francis aberger 943c for a large hydroelectric generating unit constitute the power generation facility, 944, respectively,

In the seesaw hydroelectric power plant 944 constituting the large hydroelectric generator,

The hydroelectric power plant constituting the above-

A plurality of aberrons and turbines 267, which generate hydraulic energy within the generator 944 to generate mechanical energy to rotate several aberrons and turbines 267 to constitute power production, And a rotational speed detector 944a for the hydrostatic power generator is disposed at an upper end portion of a rotating shaft 198 connecting the turbines 267 and the generator 944 to each other. Below the rotational speed detector 944a, there is an exciter 944b for DC generator which supplies current to the motor coil of the alternator. The exciter 944b for DC generator is pushed A rotary shaft 944d is positioned below the device 944c for pushing the annular pipe feather 944c and a stator coil 944f and a stator frame 944d are provided below the rotary shaft 944e, 944 g) And a central stator 944h is disposed in the center stator 944h and a wire 71 is inserted into the center stator 944h and a fan 195 is positioned below the center stator 944h. A low-speed cooler 944i is positioned below the low-speed rotation shaft 944l, and the engine generator 944m, the turbine rotation shaft 944n, and the rotary shaft 944l are positioned below the low-speed rotation shaft 944l. An armature coil for a generator which is a non-rotating coil provided on the circumferential surface of the rotor coil, and an armature coil for a generator located on the circumferential surface of the rotating shaft 198, A plurality of aberrations and turbines 267, a turbine rotation bearing 944n and a wing wheel 944q are provided inside the casing 141 of the hydroelectric power generator 944 so as to be included in the hydroelectric power generation connection structure nuclear power plant 811 Nuclear Power Nuclear Waste Treatment Department and Electric Power And it consists of a powder demodulator (811b),

As shown in Figs. 4 to 20, in the Francis aberration 943c and the Pelton aberration 943b constituting the seesaw hydroelectric power plant,

The inside of the casing 141 constituting the suction port 269 and the discharge port 270 and the flow volume with the pressure are moved within the hydrostatic power generator 944 while the turbine 267 is different in shape, The hydropower generating power is regulated so that the voltage is regulated in the substation where the transformer 96 of the substation, which is the power transmission unit,

The pump aberration 943a, which constitutes the seesaw hydroelectric power plant,

The hydraulic power supplied from the nuclear power plant is supplied to the pump aberration 943a by controlling the opening and closing of the main valve 265 with the electric power supplied from the nuclear power plant,

It is necessary to provide a water storage dam (680) located at the upper part of the power plant, and to provide a water hydraulic power plant for the reconstruction of the nuclear power plant, (943) of marine Seisoh hydroelectric power plant of the power plant,

Nuclear waste treatment for marine resources Nuclear waste treatment for marine resources with pressurized water type double structure reactor facility Pressurized water type double structure nuclear reactor facility Main body (1) Ocean of hydropower plant to provide restoration before and after failure (943) facilities for shipbuilding, shipbuilding, shipbuilding, shipbuilding, shipbuilding, shipbuilding, shipbuilding, shipbuilding, shipbuilding, Dedicated nuclear waste treatment for marine resources connected to the hydrological control units of the dam. Distribution of the pressurized water type double structure reactor facility. 1) inside the nuclear power plant 811.

As shown in FIGS. 4 to 20, the nuclear power generation nuclear waste treatment section included in the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear waste treatment, A power transmission unit 811d for transmitting the power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw The nuclear waste disposal treatment pressurized water source unit constituting the double pipe structure block piping line regulation side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant constituting the connection to the control unit 811g and the disaster prevention prevention control unit 811h In a marine nuclear hydro-electric power station type multi-stage pump having a dual structure reactor facility body 1,

A control block diaphragm constituting a multi-stage pump for the distribution apparatus of the nuclear reactor and a three-stage multi-stage pump operation system of a VF model, and a control power source 273 is separately divided into and separated from the pump power source 272,

The control power source 273, which constitutes the stage multi-stage pump operation mode,

(M / C) drive signal contact output circuit 279 of the decoupling power supply circuit 275 with an emergency circuit for emergency operation 274 and is connected to the output of the pump power supply 272 M / C) switch contacts and inverter (47) circuit contacts and each pump emergency operation to form a contact connection,

20, a micro control unit 276 constituting a decipher power supply circuit 275 of the control power supply 273 is provided, and a de-ip switch setting circuit 277 and a switch input circuit 276 are provided. And a switch input circuit 58 and a switch input circuit 58 are provided in the unit 276 so as to be connected to the LED display circuit 278 and the M / (MCC B + THR) and (MCCB) circuit contacts at the tip of the unit 276 and the pump power supply 272 are connected to the inverter 47 contact point Output circuit 281 is composed of an inverter 47 circuit, a microcontroller unit 276 and a mutual input and output circuit. The discharge pressure transmitter 284 is connected to a pressure sensing circuit 282), the nuclear waste disposal treatment type The suction / discharge pressure switch 285 is connected to the external state input circuit 284 after the circuit 282 constituted by the reactor facility adjustment process constituted inside the mid-arm reactor facility main body 1 is again set to be input to the unit 276. [ The microcomputer unit 276 is connected to the main body 1 of the pressurized water reactor for nuclear waste treatment for marine resources, Structures.

As shown in FIGS. 4 to 20, the nuclear power generation nuclear waste treatment section included in the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear waste treatment, A power transmission unit 811d for transmitting the power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw Showing the construction of the double pipe structure piping line regulating side 238 of the nuclear waste treatment of the nuclear power plant coupled to the regulating section 811g and the disaster prevention prevention regulating section 811h, And a control system using a microcomputer of a multi-stage multi-stage pump constituting a connection to a satellite control unit for prevention of nuclear radiation pollution, and an inverter system of a digital pID control system, an unmanned camera of the control system is installed and fire water is discharged from the injection nozzle In the high-pressure stage multi-stage pump (8), which is composed of the inside of the pump body of the fire sensor composed of the inverter system and the control system equipments,

Stage type multi-stage pump 8 constituting the nuclear power generation facility unit 811,

The operation control device is provided with a power line constituted by the control room and the inside of the machine room, an electric wire for detecting sensor, and an electric wire arrangement for electronic control, and the brake for the overcurrent breaker 61 and the main switch button (66), and,

The isolation valve 5 formed outside the pump body connected to the control device by the "operation-on" and "operation-off" constituting the switch button and the regulator 136 constantly reducing the pressure are connected to the pump backflow prevention check valve (6)

An electronic control unit 88 such as an emergency valve 84 and a pressure check sensor is provided in the low-pressure shut-off valve 83 as shown in Figs. 4 to 20 and an electronic control unit 88 ) In equipment,

A plurality of switch buttons are provided and connected to an inverter VCO 48 of the unit and a three-stage multi-stage pump control board 53 of a high-pressure bottom-up pump control server 51 and a power supply 46, The portable radio terminal 82 of the above communication means or the electronic control unit connected to the public telephone communication network as the short range wireless communication control module 55 and the short range wireless communication control module 55 are provided in the inside of the multi-

When the portable wireless communication terminal transmits a signal wirelessly to the access point 49, when the electronic control unit module receives the signal and the "switch button-on" inside the control room, the display screen 63 of the monitor 52 is displayed in the control room (3), and a low-pressure shut-off valve (83) is connected to the isolation valve (5) on the front, rear, right and left sides of the multi-stage pump and the reverse check valve (6) A solenoid valve 76 of other electronic control function and a wired and wireless communication device connected to the air compressor 80 through the discharge nozzle and the disaster prevention pipe line 89 by the water collecting line 34, The flow of gas and liquid as disaster prevention materials including the electronic control unit is interrupted,

It is installed on the roof of a large number of forest fires and residential areas by providing fire disinfection water or curtain water film shapes with a plurality of nozzle clearance and a plurality of nozzle clearance processing holes with a constant water pressure, Pressure multi-stage multi-stage pump 8 installed inside the machine room formed in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for ocean nuclear waste treatment for marine resources provided with equipment for disaster prevention measures, Thereby providing a connection structure.

As shown in FIGS. 4 to 20, the high-pressure multiple stage multi-stage pump 8 connection structure of the nuclear power plant 811 includes:

The multi-stage pump control box (2) of the high pressure inside the machine room connected with the initial ignition sense wire connects the detection sensor (104) for checking the fire water quantity to the inner wall surface of the inside of the water collecting compartment, When the disaster prevention water reaches the predetermined water level after the pump operation is stopped after the sensor is delivered to the sensor, the actuated fire water level sensor device is provided with a ball tap (499) shaped like a circle on the sensing wire (41) The pump stops operating when the pump is operated and the position is horizontally fixed when the bolt 499 is moved downward by being attached to the inner wall, and is coupled to the existing bolt 499 by the sensing wire 41, At this time, the sensing line 41 is formed at an angle of 90 ° or 120 °,

High Mountain The low mountain pickling tanks form collecting tanks in a category that does not damage nature,

The water inside the tank (34) is expanded and completely filled with the air compressor (80) so that the height and the water film provided in the double pipe structure can be adjusted before the disaster occurs and elevation can be adjusted. Pressure multi-stage pump (8) installed inside the machine room constituting the nuclear power plant (811) constituted inside the main body (1) of the pressurized water type pressurized water type nuclear waste treatment for marine resources, ).

As shown in FIGS. 4 to 20, the high-pressure multiple stage multi-stage pump 8 connection structure of the nuclear power plant 811 includes:

A first pressure check sensor 86 installed in front of the isolation valve 5;

A second pressure check sensor (87) installed integrally with the pressure reducing valve;

A bypass disruption piping line (168) installed to bypass the isolation valve (5) by connecting the front and rear sides of the isolation valve (5) and bypassing the isolation valve (5);

An emergency valve (84) installed in the bypass pipe line (168) so as to open and close as opposed to the isolation valve (5);

An electronic control unit (88) integrally controlling the operation of the emergency valve (84) by checking a pressure value from the first pressure check sensor (86) and the second pressure check sensor (87);

The solenoid valve 76 at the joint portion of the intake manifold 3 flange 28 at the upper end of the ground surface at the lower end of the stage multi-stage pump 8 and the fire extinguishing water installed in the collecting tank 34 at the upper portion of the pump machine chamber, And a ball tap 499, which is a water level sensor, detects the disaster prevention quantity,

An air hose 109 installed inside the nozzle hose 9 and air nets 110 for a socket connected to the air hose 109 so as to be separated from and connected to the air hose 109, And an engine generator 226 at the upper part of the interior of the machine room for driving the airship 78 to the upper end of the upper surface of the ground surface are operated to drive the air compressor 80 equipped with the power source 46, Pressure storage tank 145 before the occurrence of a disaster in which the air generated by the operation of the air compressor 80 is stored in the air-receiver high-pressure storage tank 145, Which is formed inside the main body 1 of the pressurized water reactor type nuclear reactor waste water treatment plant for marine resources developed by the emergency valve 84 provided in the disaster prevention air piping line 181 in the event of a disaster, Put into the building constituting the bibu 811 blows air is attached to the outer pipe frame of a building.

As shown in Figs. 4 to 20, a high-pressure three-stage multi-stage pump 8 connected to the nuclear power plant 811 constituted inside the pressurized water type double structure reactor facility 1 for marine nuclear waste treatment, In the facility structure,

(8), a solenoid valve (76) at a joint portion of a flange (28) of an upper surface intake sucking pipe (3) at the lower end of the ground surface, and a marine nuclear hydroelectric power plant having a pressurized water reactor for nuclear waste treatment. , The fire fighting water installed in the collecting tank 34 at the upper part of the pump machine room is provided with ball tabs 499 as a fire water level detecting sensor,

An air hose 109 installed inside the nozzle hose 9; an air nipple 110 for socket-type socket which is detachably coupled to the connection portion of the air hose 109; And the diesel engine generator 268 at the upper part of the inside of the machine room provided with the airship 78 at the upper end of the upper surface of the ground surface are operated to connect the power source 46 to the motor control module of the prime mover 80 Pressure storage tank 145 before the occurrence of a disaster in which the air generated by the operation of the electric motor 192 of the prime mover 80 supplied to the receiver high-pressure storage tank 145 is stored in the receiver high-pressure storage tank 145 Air pressure is provided,

The emergency valve 84 of the disaster prevention air piping line 181 is expanded and air is blown into the inside of the building and attached to the piping frame outside the building and at the same time, A crank handle handle and a piston 127 constituted by a crank 248 and a linkage 249 are provided in the compressor main body 263 in the overpressure prevention switch box 108 of the motor control module 106 and in the pressure switch 104, And a motor 192 to which a cylinder 126 and a motor 126 are attached so as to provide safety operation by connecting the conveyor 250 and the V-belt 252 included in the speed reducer 251,

The belt cover 261 is installed on the circumference of the plow 250 and the V-belt 252 to adjust the rotational speed of the prime mover 80 while allowing the air intake port 269 to be connected to the upper end of the compressor body 263. [ The piston 127 of the compressor main body 263 and the air discharge port 270 to which the cylinder 126 is attached are connected to the receiver high pressure storage tank 145, The pressure gauge 101 and the pressure switch 104 connected to the safety valve 258 cut off the operation of the electric motor 192 when pressure is injected into the high pressure receiver storage tank 145,

When the pressure in the high-pressure storage tank 145 drops below 6 kg per 1 cm2 of the air pressure, the operation of the motor 192 is resumed and the high-pressure storage tank 145 is provided with the air valve 257 and the drain valve 60 An air compressor 80 for providing a piston reciprocating operation while being disassembled into an air hose 109 and an air hose connection nipple 110 while being equipped with an internal cooler 170 and aft cooler 182, A multistage screw cooler 147 in which heat is dispersed by an oil cooler 157 and a suction port 269 which can be coupled and disconnected by a connecting device and a discharge tube 270 connected to the discharge tube 270, And a marine nuclear power plant equipped with a pressurized water type double structure reactor facility main body 1 for a marine source exclusive nuclear waste treatment,

Marine nuclear waste treatment for pressurized water type double structure nuclear reactor facility (1) In the nuclear power generation facility (811) constituted inside, it is equipped with double structure block tank dust collector Marine Nuclear Power Plants for Nuclear Power Plants Nuclear power plants consisting of pressurized water type dual structure reactor facilities for nuclear waste disposal are constructed.

Pressure multi-stage multi-stage pump 8 (shown in FIG. 4 to FIG. 20) formed in the nuclear hydroelectric power plant 811 constituted inside the main body 1 of the pressurized water double- ) The connection facility structure,

A combination of the pressure suction merging pipe 3 and the discharge merging pipe 4 to the left and right sides around the suction port around the impeller 143 inside the protective cover constituting the three-stage multi-stage pump 8 is referred to as a head tank 189 The head tank 189 is compressed and stored at a pressure that can withstand 8 liters of capacity and 16 bar. At this time, the head tank 189 is compressed and stored. When a certain pressure is reached, the head tank 189, Or as a suitable material to withstand the high pressure provided by the elbow or tee elbow (44), which is a pipe connection fitting to accommodate the large size piping (14) of each constant size at the rear of the pump discharge port, Pressure nuclear water reactor type dual reactor nuclear reactor facility for the offshore nuclear power plant installed in the main body 1 of the nuclear power plant 811, Stage type multi-stage pump 8 is provided with a connection structure.

As shown in Figs. 4 to 20, a high-pressure three-stage multi-stage pump 8 formed in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water double- The equipment structure to be connected,

The water discharge port 169 of the fire and disaster prevention line and the water supply port 168 to the lower end of the water discharge port 169 and the water supply port 168 and the water discharge port 168 are formed inside the pump- The float 315 on the upper part of the manhole cover 152 and the float 315 on the lower part of the manhole are provided as an intermediate part of the waterproofing hole 169 to fill a certain amount of the fire water constituting the fire water level sensing sensor. and,

Attached above and below the manhole 152 is the float 315,

And a float and an in situ switch 551 which are joined to and separated from a float 315 constituted by four places around the processing hole 20 of the outer wall of the tank,

Is fitted into the tank outer wall machining hole (20), and the nut (25) is filled into the flange machining holes (4) at four locations, and then joined and separated using a hand tool monkey wrench,

As shown in FIGS. 4 to 20, the upper part of the bed frame 286 constituting the outside of the upper portion collecting tank 34 of the bed frame 286 above the ground surface GLL, A stop valve 114 located at the left side of the valve 114,

Each of the waterproofing holes 169 is provided as a flange 28 and the pump 259 attaching the upper thigh beam 44 to the pump 308 is provided with an auto valve 259 and is connected to the timers or the level switches 541, A low alarm 544 and alarm reset button 545 and a low level switch 546 at a low position in the tank are connected to the level alarm 542 via the pump control board 53 And external.

The rotary shaft 198, which is the center shaft 198 of the motor 192 constituting the centrifugal pump unit 308,

A guide vane 142 is attached to the upper portion of the pump driving concave portion with the wing of the impeller 143 inside the casing 141 which is the body of the pump 308 and the guide vane 142 is attached on the circumference of the rotary shaft 198 located at the center line of the casing 141 A balancer hole 376 is formed in the septum seal 156 and the partition wall 372 of the shaft device constituting the shaft seal so that the cooling system 391 of the cylindrical seal constitutes the shaft bar 390,

The control box constituting the pump control board (53)

The multi-stage pump control board 53 has the same function as that of the flow meter 105 for checking the amount of water and the overpressure prevention switch 108 is connected to the line pipe 168 of the stop valve 114 above the water- Is detected by the pipeline line sensor formed by the T-elbow 44 and formed in the nuclear power plant 811 constituted by the inside of the main body 1 of the pressurized water type nuclear reactor waste treatment facility for the ocean source.

The washer 26 is adjusted to 0.5 millimeter or 5 millimeter in the middle of the flange and the flange,

The discharge jet 38 constituting the multi-stage multi-stage pump 8,

The control unit is provided with the radiation curtain water film 39 or the straight discharge jetting water, and the flushing water caused by the operation of the valve and the high pressure multi-stage pump 8 can be rapidly, correctly, The discharge jetting number 38 for discharging a large amount of fires prevents the spread of large fires,

 (78) consisting of a plurality of types for observing the meteorological observation system on the upper part of the curtain water barrier, and an advection line (77) over the surface of the ground And an air hose (109) and a connecting nipple (110) for feeding the air generated by the air compressor (80) to the inside of the band hose nozzle hose, Pressure piping type multi-stage pump 8 installed inside the machine room formed in the nuclear hydroelectric power generation facility 811 constituting the inside of the processing pressurized water type double structure reactor facility main body 1 is provided with a connection structure.

Thus, the description of the mouthpiece type multi-stage pump 8 according to the accurate function is provided as follows.

In the mouth type multi-stage pump specification,

Details of the control method of the multi-stage pump system are as follows.

· Pressure control method (Figure 1)

The operating range of the system is formed from the operating point (Pon) of all the pumps to the operating fixed point Poff1 of the full load operating pump and the operating fixed point Poff2 of the main pump.

It stops completely after the minimum operation between 180 seconds to 210 seconds (C O-C R) and 0 to 120 seconds (C O -E R) after reaching the operation stop point of P o f f 2 of the pressure control type system.

Although the width of ΔP can not be kept narrower than the inverter control method, it is mainly used for absorption pressure of the low layer by detecting input change of about 1 b a r.

Frequency modulation control decoration (Figure 2)

The operating range of the system maintains the adjustment value range.

When the flow rate of each operating pump reaches 100%, and the pressure of the operation standby pump is the operating point P o n and the pressure of the individual maximum operation pump is the stop point P off.

Therefore, the frequency modulation method can keep the width of AP small and by controlling the rotational speed of the main pump with the frequency modulator,

This system consists of a system that compensates for sudden pressure changes occurring when the operation standby pump is running or when the maximum operation pump is stopped.

When the pressure of the system is lowered to the vicinity of the operating point, the main pump is gradually operated by the frequency modulator control, and if there is no change in the flow rate, the controller stops the pressure fluctuation due to the system hunting.

As shown in the drawing of the main functions of the three-stage multi-stage pump in general, a detailed description will be given below.

As described above, in the multi-stage pump, the main function is described in detail inside the body of the pump-like gap type pump fire extinguisher, which is a urinal part in the figure, so that anyone can easily make a pumping without a close proximity to a fire scene or a pump machine when a fire occurs. As a result of the construction of the present invention which provides for relieving the suffering of the residents even at the time of going to bed (at bedtime), the fire engine fire helicopter according to the life structure and the prevention is provided with the technical features,

As shown in FIGS. 4 to 20, the connection structure formed in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water reactor type nuclear reactor waste water treatment type water nuclear reactor for exclusive use in the marine resources, 8) In facilities,

The distribution input device of the nuclear reactor power plant constituting the high-pressure stage multi-stage pump (8)

And is connected directly to the disaster prevention water passage 17 constituting the suction port 269 of the collecting tank (length × width × height: 10M × 10M × 1M, limited to the tank cover in the form of a cement concrete) A plurality of disaster prevention piping lines 168 connected to the lower part of the river 34 pulls overflowing valleys so that the flood water immediately flows into the East Sea and the South Sea,

As shown in FIG. 4 to FIG. 20, as the natural waterfall of Jeju Island, it flows into the artificial waterfalls to the beach along the shore like the Jeongbang Waterfall, thereby preventing the harmful red tide from breeding the marine environment. As the flooded area of the reservoir, the air compressor (80) and the diaphragm pump (144) are operated at the same time so as not to flood the valley,

In case of 150m or 300m of rainfall per hour, double vinyl (43) for vinyl house should be properly installed in the disaster prevention area to re-install double vinyl (43) in disaster prevention piping type to reduce landslide damage. If the embankment is lost, the bridge is broken,

In order to relieve the refugees isolated in the mountain valleys, a pylon bridge 139 is installed in the valley, in which the pylon bridge is formed in the shape of a net of wire ropes (19) of 3M × 50M, Small pipe The small pipe was formed on the bottom of the valley with a diameter of 100m and a length of 10M or less. 1M fire-fighting vessel and loess, 180) are installed in the upper part of the bag 180, the bag is laid on the upper part of the bag 180 at a size of 200 m long and 7 m long or less, After having stored the gravel and sand inside, it is composed of a large pipe diameter 300 m long and 5M above the above-mentioned medium-sized pipe upper plastic bag 180,

As shown in FIGS. 4 to 20, after a wire netting 139 formed of a wire rope 19 in the form of a mesh is covered in a stepwise staircase unit, a jig tapper 185 having a pointed end, or a lifting bolt And an anchor bolt 133. The anchor bolts 133 and the anchor bolts 133 are provided with equipment including an accident free fire prevention disaster prevention countermeasure device constituting a lifeline structure combined with the embankment to be installed so as not to be floated on the torrent (Nuclear Waste Treatment) for Marine Oceans The double structure reactor of the pressurized water type reactor is composed of the double structure reactor equipment for the nuclear waste treatment for the marine resources constituted in the nuclear power generation facility (811) constituted inside the main body (1).

As shown in FIG. 4 to FIG. 20, the connection structure included in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water reactor type nuclear reactor waste water treatment type water nuclear reactor dedicated to the offshore source, 8) In facilities,

The associated line relationship of the controller inverter 47 and the collecting tank 34 is connected to the pressure tank 189, the collecting tank 34 and the controller inverter 47 of the stage multi-stage pump and control system concept, The inhalation valve 269 is provided at the intake port 269 so as to be able to control the full shutdown and deployment of the pump 271 and the check valves of the respective pumps at the inverter 47 so that the connection structure of the high- Stage type multi-stage pump (8)

The installation position is clearly set in front of the isolation valve 5 which is the valve 5 in front and the respective pumps 8 integrally with the shelf part of the check valve 6 as shown in Figs. 4 to 20 The pressure tank 189 and the control unit inverter 47

A first pressure check sensor 86 and a second pressure check sensor 87 which are discharge pressure check sensors are connected to the line of the discharge confluent pipe 4 constituting the pressure tank 189 and the control unit inverter 47, A plurality of fire nozzles 10 serving as ejection nozzles, which are ejection openings 270, are controlled by a predetermined amount of fire pressure to control each fire A to a mixer 73 constituting a cooling action and a choking action within one second The firefighting cable car (256), which consists of the firefighting of loamy soil (158) and the prevention of fire in the neighborhood living area in the residential area with the firefighting included in the general fire with the cable cargo (256), has a high and low mountain peaks A plurality of fire hoses (9) and a plurality of fire hoses (9) each having a plurality of buildings and a mesh net hose (9) including a wire net rope of a cross shape or a square shape as a safety net (401) Invention It is a technical feature.

The control power source 273, which constitutes the pressure tank 189 and the control unit inverter 47,

(M / C) drive signal contact output circuit 279 of the deciphering power supply circuit 275 constituting the emergency stop circuit 274, M / C) Connects the contact point of the switch and the contact of the inverter (47) and the contact which constitutes each pump emergency operation,

As shown in Figs. 4 to 20, in the microcontrol unit 276 constituting the decision power supply circuit 275 of the control power supply 273,

The DIP switch setting circuit 277 and the switch input circuit 58 are input to the unit 276 and the LIPDisplay circuit 278 and the M / C drive signal contact output circuit 279 ) Outputs a signal,

The motor overload signal input circuit 280, which constitutes the drive signal contact output circuit 279,

(MCC B + THR) and (MCCB) circuit contacts at the tip of the unit 276 and the pump power supply 272 are connected to the contacts of the inverter 47 and the inverter operation data input / output circuit 281 is connected to the inverters 47 ) Circuit and a microcontrol unit 276 and a mutual input and output circuit and the discharge pressure transmitter 284 is connected to the pressure sensing circuit 282 and then the circuit 282 is again input to the unit 276 The suction / discharge pressure switch 285 is connected to the external state input circuit 283 and then the input circuit 283 is again connected to the microcontroller unit 276, And is formed in the nuclear power plant 811 constituted by the processing pressurized water type double structure reactor main body 1.

As shown in Figs. 4 to 20, the fire sensor pump body of the nuclear power generation nuclear waste processing unit constituting the nuclear power generation facility unit 811,

A predetermined amount of the disaster prevention material formed by the impeller 143 constituting the spiral casing 310 of the plurality of pump bodies is coupled to the power motor rotary shaft 198 of the impeller 143 constituting the inflow port, A plurality of fire-fighting disaster prevention piping lines 168 of a predetermined amount of the fire-fighting water 7 transfer device and a plurality of fire-fighting disaster prevention piping lines 168 of a predetermined amount, A water collecting tank 17 having a double structure in which the disaster prevention water passages 17 are arranged at predetermined distances from the disaster prevention water passageway 17 at a constant inclination angle 16, 34), and a fire sensor pump body for blocking foreign matter from entering the inside of the collecting tank (34)

A plurality of solenoid valves 76, which are opened when the switch button is turned on and are fully closed when the switch button is turned on, and the head tank 189, (29) and a low-pressure shut-off valve (24) for shutting off the supply of the carbon dioxide (164) and halon gas (175) to the tail end of the disaster prevention pipe (14) Pressure multistage multi-stage pump 8 constituted as a mixer (hopper) 73 for mixing the disaster prevention material carbon dioxide 164 with the natural loess 158 and the power motor control module 106, A gap 15 around a plurality of piping circles passing through a disassembly pipe 14 connected to the flange 28 to the reducher 35 and connected to the nozzle hose 9, (20) and a gap (15) between a plurality of flange (28) joints, The nuclear power generation facility is formed in the nuclear power generation facility 811 constituted by the inside of the water type dual structure reactor facility main body 1.

As shown in Figs. 4 to 20, in the nuclear hydropower generation facility unit 811,

The fire-fighting water (7) constituting the nuclear power generation facility (811)

There are 490 shapes of circular jet ejection nozzles 38 or shapes of curtain water films 39 constituting the discharge of the fire water 7 and eight water films are formed at higher and higher positions in the form of the advection 77 and the airship 78, the body load of the fire cable cable 256 is dispersed to extend the service life of the facility. After the safety is secured, the mixture of the loess mixture is sprayed to the pipe nozzle 10, (393) due to the movement of the fluid to prevent the occurrence of a large-scale fire in advance of a disaster and to prevent the occurrence of a fire in less than 1 second. It has a pumping capacity of about 50 times that of the freezing pump, And the inside of the dual structure reactor facility main body 1,

An air cooler 80 that is reciprocally operated by a reciprocating piston and an internal cooler 170 as an intercooler and a cooler that is heat dispersed by the oil cooler 157 without an after cooler 182, A lifting basket 26 and a lifting structure 270 are provided in the air tube 730 composed of a suction port 269 and a discharge port 270 so as to be detachably coupled to each other by means of a connecting device constituted integrally with a stage skewer air compressor 80. [ Disaster prevention means installed in the bed nozzle 172 of the air conditioner for the air treatment,

The fluid can be moved to the air pressure formed in the pressure tank (high-pressure ball tank 303) inside the non-powered pump 393,

It is composed of the check valve (6) and the isolation valve (5) so that it can be pumped up to 50 times of the lift by the control operation. (1) Nuclear power plant consisting of a pressurized water type double structure reactor facility (1) equipped with a pressure control valve of movable pipe type and a flow control valve and a system connection device of a valve classified as a flow control valve, And the equipment constituting the power generation equipment section 811.

As shown in FIG. 4 to FIG. 20, in the nuclear power plant 2, which is formed inside the main body 1 of the pressurized water type pressurized water reactor for nuclear power generation, In the apparatus,

A squirrel compressor body 263 and a suction valve 289 connected to the gear drive 290 and the electric motor 192 to which the oil separation tank 288 is adhered with the disaster prevention preventive control section of the conventional nuclear power plant 811, (269) of the high-pressure storage tank (145) of the receiver so as to be provided with the distribution and input devices of the nuclear power generation facility, and to be installed inside the main body (1) of the pressurized water double- It is composed of connecting structures that regulate the flood.

As shown in FIG. 4 to FIG. 20, in the nuclear power plant 2, which is formed inside the main body 1 of the pressurized water type pressurized water reactor for marine nuclear waste treatment, In addition,

A suction filter 262 attached inside the dryer 291 and a suction filter 262 attached inside the dryer 291 are disposed inside the rear cooler 182 constituting the hydrological control unit of the conventional nuclear power plant 811 dam, ) Of the nuclear power plant of the Nuclear Power Plant (811), which is composed of the nuclear power plant (811) composed of the main body (1) It consists of connection structures that are equipped with distribution inputs to coordinate the disaster.

As shown in FIG. 4 to FIG. 20, in the case of the nuclear waste disposal reactor 2, which is included in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water double- In the apparatus,

The disaster prevention prevention control section of the conventional nuclear power generation facility 811 constituted by the above-mentioned distribution apparatus of the nuclear reactor facility is composed of a twin bullet type ground type fire hydrant, an underground type fire hydrant (179a) and an underground type fire hydrant The submarine fire hydrant box manhole located above the lower surface of the road surface of the twin fire hydrant (179b) is partially constituted, and the fire extinguisher (161) and the fire hydrant box inside the fire hydrant box (160) A fire hydrant (179) is provided in a fire extinguishing fire extinguisher (179) for the fire brigade of the water leakage port and a large scale fire hydrant system (a) and a small scale fire hydrant system (b) (1) of a marine nuclear hydroelectric power plant (1).

As shown in FIGS. 4 to 20, in the sprinkler equipment constituting the disaster prevention preventive control unit of the nuclear power plant unit 811,

A plurality of drenchers 299a, b, c, and d are attached to the sprinkler head 111 of the trench head of the sprinkler system, The block 117 is connected to the valve 114 through the underground pipes 115 and the auxiliary valve 118 and the bell 119 and the alarm valve 120 and the test valve 121 Pressure water pump 122 and a vibration alarm device 300 to prevent disaster prevention of the nuclear power plant 811 constituted inside the main body 1 of the pressurized water double-structure reactor facility 1, It is composed of sub connection structures.

As shown in Fig. 21, in the general-purpose water-only faucet 512 constituting the nuclear hydroelectric generating unit 811,

The double tube structure of the nuclear waste of the nuclear power plant constituting the nuclear waste disposal unit (811a) is provided with a control shaft (238) of the double pipe structure block, and the electronic sensor valve screw control unit, disaster prevention prevention control unit, A water-type water-supply faucet 512 connected to the control unit and the control unit of the artificial fish and shellfish,

(Long) side faucet 512a having a long body side, a long side face faucet 512a having a body side long side face faucet 512a, a long side face faucet 512b having a fusuma body body, a long body multi-purpose faucet 512c having a long body, a short faucet 512d having a short body, The Fomatsu fuselage has a short transverse faucet 512e, a longitudinal faucet 512f, a universal faucet 512g, a cap ring transverse faucet 512h, an acid faucet 512i, A water tank 512j, a sanitary flash valve 513 and a parallel type bath faucet 514.

21, the transverse material receiver 514a, the transverse material receiver 514b, the longitudinal material receiver 514c, the Pompos type transverse material receiver 514d, the medical receiver 514e, 514j, 514h, 514h, 514i, 514j, and 514j, respectively, in the horizontal and vertical directions, respectively, In addition,

Nuclear waste treatment for marine resources Nuclear waste treatment unit of nuclear power generation facility (811) composed of pressurized water type double structure reactor facility main body (1)

(515) of a faucet for faucet for construction equipment making up the double pipe structure block piping line regulation side (238) of the nuclear waste disposal of a nuclear power plant, and a flood valve 515a), a mixer valve (for three-way valve 517), a mixer valve (for a for-sale) 515a, (517a), a hand shower (518), a sow head (519), a hand shower (520) and a shower set (521) And is composed of a general type water faucet 512 inside the pressurized water type double structure reactor facility main body 1 having the nuclear waste treatment for marine resources.

As shown in FIGS. 22 to 29, the nuclear power generation nuclear waste treatment section included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure nuclear power plant main body 1 for marine nuclear waste treatment, And a plurality of sluice valves 403 for constructing a double tube structure block pipe line regulating side 238 of a nuclear waste treatment in a fire pump and a prime mover.

As shown in FIG. 22 to FIG. 29, the nuclear power generation nuclear waste treatment unit of the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear waste treatment, In the ball tap 499 of the plurality of slew valves 403 constituting the pump and the prime mover,

It is a self-contained valve used to supply water to the water tank. When the water in the water tank reaches a certain level due to the ball of copper or synthetic resin at the end of the lever, the valve is automatically closed by buoyancy of the ball. To store a certain amount of water.

The ball tap (499) has a small diameter and a large diameter.

As shown in FIGS. 22 to 29, in the nuclear power plant (811) constituted inside the pressurized water type double structure reactor facility main body (1) It is a valve-operated system that shows the configuration of each valve.

In the plurality of strainer 392 constituting the exponent line 497 and the fractional flow 498 of the pipe 14 constituting the distributing and inputting facility of the reactor facility of the nuclear power plant,

Type Y-type strainer 501a, a U-type strainer end face 502b, and a V-type strainer 503,

The tube fixing metal 504, which constitutes the plurality of strainer 392,

A connecting structure is provided between the supporting buckle support band 505 and the support band 506, the roller support band 507, the vertical pipe 500b, the steel spectacle band 509 and the bottom band 510 and,

In the traps 511 constituting the connection structure with the bottom bands 510,

A bottom thermal type trap 522 and a straight thermal type trap 523 and a bucket trap 524 and a bottom type bucket kits trap 525 and a top type bucket kett trap 526 and a float trap 527 and an impulse steam trap 528) to treat nuclear waste only for marine resources, and a pressurized water type double structure reactor unit (1) comprising a nuclear reactor (811), a disaster prevention control unit, .

Generally, it is installed at the end of the steam pipe, the radiator outlet or the place where the condensate collects.

Types of steam traps include thermal traps, bucket traps, float traps, and impulse steam traps (528), depending on operating pressure and emissions.

As shown in FIGS. 22 to 29, disaster prevention is provided for the nuclear power generation nuclear waste treatment section of the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for the marine nuclear waste treatment. Preventive controls are a means of demonstrating the configuration of a nuclear power plant's reactor installation.

The thermal trap 523, which constitutes the distribution system of the reactor installation,

The trap is divided into an angled type and a straight type according to the type of use. The bellows is made of a thin bronze plate made of phosphor bronze and filled with volatile liquid (ether) in the inside of the radiator As the bellows is expanded and the valve is closed and the drain (301) or the air is heated, the temperature is lowered and the bellows is contracted to expand the valve. The pressure is low and a radiator of less than 1 kg / ㎠ is used for the pipe end trap. Also, it is used for air piping of the air liner type or vacuum return pipe type.

 As shown in FIGS. 22 to 29, disaster prevention is provided for the nuclear power generation nuclear waste treatment section of the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for the marine nuclear waste treatment. Preventive controls are a means of demonstrating the configuration of a nuclear power plant's reactor installation.

The trap facility constituting the distribution dispensing apparatus of the nuclear reactor facility comprises:

The buoyancy of the bucket is controlled by the steam pressure. Therefore, there should be a pressure difference between the steam pipe and the return pipe. When the pressure difference is 1 kg / ㎠, theoretically Condensate can be pumped up vertically up to 10.33m, but it is actually less than 8m.

In a bottom-up bucket-trap (525) facility that constitutes a distribution dispenser of a nuclear reactor,

The bottom-up type bucket kit 525 is also referred to as an open trap. When condensate enters the trap, the bucket kit B is first floated on the outside of the bucket kit A, and the bucket kit B floats on the bucket kit B to close the valve C. When the condensate flows slowly overflowing into the kits, the bucket becomes heavy and loses its buoyancy and sinks, opening the valve (C). When the valve is opened, the condensate is discharged by the pressure of the steam acting on the water surface in the bucket.

In a top-down bucket-trap (526) installation that constitutes a reactor installation,

The top down bucket kit trap (526) is located upside down when the bucket is upside down. When steam and condensate enter the bottom of the trap, the bucket is filled with steam, buoyant, floats up and the valve closes.

The steam in the bucket is discharged to the small hole in the upper part of the bucket according to the accumulated condensed water. When the steam is discharged, the Bucket loses its buoyancy and descends to its own weight to open the valve and discharge the condensed water and air. At the end of the discharge, the bucket is again filled with steam, buoyant, and the valve closes.

As shown in FIGS. 22 to 29, the nuclear waste disposal treatment section of the nuclear power generation facility 811 constituting the inside of the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment, Mode of operation showing control arrangement In the form of a float trap 527 constituting a marine nuclear power plant having a pressurized water double structure reactor facility for treatment of nuclear waste,

The float trap 527 is also referred to as a so-called multipass trap, and has a float buoyancy to provide valve opening and closing. The working pressure is a low pressure, medium pressure (about 4 kg / And it is not possible to discharge air. Therefore, when necessary, a thermal type is used together to provide a low temperature air discharge through the upper air discharge pipe.

(1) of the pressurized water reactor type nuclear waste treatment facility for offshore resources, (2) an operation mode showing the disaster prevention preventive control section configuration of the nuclear power generation facility (811) inside the main body (1) In a marine nuclear power plant facility,

The impulse steam trap 528 with the impulse steam trap 528 opens and closes the valve continuously in accordance with the temperature change in the cylinder and is smaller in size than the amount of the drain that the structure is extremely simple to handle, It can be used for both medium pressure and low pressure, but the drawbacks are that the steam leaks somewhat.

As shown in Figs. 22 to 29, in the drain trap facility constituted by the disk-shaped valve rod and the disk sheet, the drain trap prevents the gas generated in the sewer pipe from flowing back to the room from the device drain port through the drain pipe The structure is designed to allow water to flow freely through a portion of the drainage system and to block the flow of air or gas. The depth of the trap seam Is 50 ~ 100m. If it is lower than 50m, gas and air may pass through. If it is deeper than 100m, the self-cleaning force is weakened, which may cause debris to accumulate on the bottom of the trap.

22 to 29, the nuclear waste disposal unit of the nuclear power generation facility 811 constituted inside the pressurized water type double reactor facility main body 1 for the marine nuclear waste treatment, Operation mode showing subsidiary structure The drain trap constituting a marine nuclear power plant having a pressurized water reactor facility for nuclear waste disposal can be roughly divided into structure, pipe trap and box trap. In the vertical pipe support metal facility, The supporting metal is installed in the middle of the high layer in order to freely stretch and shrink the pipe and prevent the transverse swing by inserting a sleeve on the bottom.

As shown in Fig. 22 to Fig. 29, in the pipe fixing metal 504 of the fixed metal,

A steel spectacle band 509 and a bottom band 510 are formed on the support buckle support band 505 and the support band 506 and the roller support band 507 and the vertical pipe casting band 508,

It is aimed to prevent the tube from moving about the expansion and contraction of the pipe, and it is necessary to provide a rigid attachment to the building and to make the shape of the fixing metal suitable for the fixed place,

The gasket 32 is sandwiched between two flanges and is compressed by the tightening force of the tightening nut, so that the flange 32 is pressed against the flange 32, So that the gasket has a slight elasticity.

The reason for this is that if there is no elasticity in the gasket 32 when the bolt is increased for some reason, leakage will occur immediately. It is necessary to consider the chemical properties of the objects in the pipe, and to pay attention to such chemical composition and stability, corrosiveness, dissolving ability, volatility, flammability and explosiveness. It is necessary to select the most suitable gasket material after considering all of the above conditions and the mechanical properties of the gasket for piping, such as the difficulty of exchange, the presence of vibration, the degree of internal pressure and the external pressure. It can be classified into the following six types, the first being rubber products and processed products, the second being plant fiber products, the third being animal fiber products, The second is mineral fiber products, the fifth is synthetic resin products,

The sixth one is a metal product and the main ones are described as follows. The above-mentioned rubber streams and their processed products are widely used as gasket materials because they have high elasticity and are not eroded by chemicals.

When a strength is required, a rubber or metal netting cloth mixed with a cloth (cloth, 75) is used. In the selection of natural rubber, the rubber is characterized by a very high elasticity, Is not well eroded but is poor in heat resistance, rubber and its processed products which are prevented from being used in piping handling a high temperature of 100 ° C or more are provided with curing deterioration at -55 ° C and the greatest disadvantage of natural rubber is poor oil resistance Therefore, it can be used for general cold water, drainage and air piping, but it is equipped with marine nuclear power plants equipped with pressurized water type double structure reactor facility for the purpose of preventing the use of oil, steam, hot water, Conventional Nuclear Waste Treatment for Offshore Nuclear Power Plant Pressurized Water Type Dual Structure Reactor Facility Nuclear power generation of nuclear power generation facility (811) consisting of main body (1) It is a gasket host material of marine nuclear hydroelectric power station comprising a disaster block works showing prevention control unit configured nuclear pressurized water reactor waste treatment equipment for providing the processing unit.

As shown in Figs. 22 to 29, the nuclear power generation nuclear waste disposal unit of the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type pressurized water reactor 2 for the marine nuclear waste treatment, Equipment Each type of equipment is a pump.

The pump unit 811 of the atomic power generation control unit 811 constituting the hydrological control unit of the dam of the nuclear power generation facility unit 811 is provided with the facility for each pump type to constitute the reciprocating pump plunger pump 148 of the positive type pump type The operation of the diaphragm pump 144 and the operation of the wing pump 327 constituting the connection of the discharge conjoint pipe 4 and the belt carver 261 to the electric motor 192 and the suction / And a rotary pump rotor 338 other than the external gear pump 326 in the pump 337 and a discharge port 270 in the suction port 269 so as to provide the movement of water, (593,594,595) of marine nuclear power plants of small and medium sized and large sized marine nuclear power plants to prevent disaster prevention of nuclear power hydroelectric power plant facilities (811) Original core (2) Nuclear Hydroelectric Power Plant (2) Nuclear Hydroelectric Power Plant (2) Having a pressurized water type double structure reactor facility for nuclear waste disposal, which constitutes preventive control section of the nuclear hydroelectric power plant (811) It is composed of type of facility connection structures.

As shown in FIG. 22 to FIG. 29, the nuclear power plant 811 constructed inside the pressurized water type double structure reactor facility 1 for the marine nuclear waste treatment has a double structure A distribution input device for providing a marine nuclear power plant having a nuclear reactor main body 1;

A plurality of gears for replacing the connection of the electric motor 192 and the turbine pump 140 constituting the turbine pump 140 with the pair of gears 250 on the rotary shaft 198 of the electric motor 192, The axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 are connected to the self-priming pump 340 having the discharge joint tube 4 and the priming 339 in the suction / The viscous pump 343 and the impeller 143 of the viscous pump are provided and the closing position and the opening position of the inside of the positive displacement pump constituted inside the main body 1 of the pressurized water double- For a guaranteed function of the set pump,

The positive displacement pump constituting the fixed amount of fluid shovel includes a pressurized water reactor facility for the treatment of the nuclear waste of the marine sediment (593, 594, 595) of the marine nuclear hydroelectric power plant, (811) of the Nuclear Power Plant (811), which is equipped with each type of each pump constituting the internal Nuclear Hydroelectric Power Plant of the Nuclear Hydroelectric Power Plant. It is composed of the facility connection structures for each pump type.

As shown in FIGS. 22 to 29, the nuclear waste disposal unit of the nuclear power generation facility 811 of the marine power plant facility for controlling the hull position movement of the floating consoles (593, 594, 595) of several marine nuclear power plants constituting the ocean Preventing disaster prevention Preventive maintenance Provides pump-driven valve.

The nuclear waste disposal unit of the nuclear power plant 811 constituting the inside of the main body 1 of the pressurized water type nuclear reactor waste water treatment type pressurized water reactor 2 constituting each of the collection collecting tanks 34, (34) Operation of the automatic collecting tank showing the construction of the hydrological control of the dam of the nuclear power plant with the facility of the separate collection tank (34) and the operation of the nuclear power plant (34) facilities of the distributor and dispenser collecting tank of the equipment,

The center vertical line PBCL of the centrifugal pump 308 constituting the position outside the collecting tank 34 is connected to the pump 192 of the Centrifugal Pump 308, A plurality of chains are coupled to the rotating shaft 198 of the electric motor 192 to couple the rotating shaft 308 with the rotating shaft of the electric motor 192, An accumulation tank 34 is fixed to the bed frame 286 at the lower end of the collecting tank 34 and the automatic valve 259 connected to the tee elbow 44 connected to the pipe 14 located at the center of the collecting tank In addition,

The electric motor 192 and the Centrifugal Pump 308 provide a connection with the water level 315 for operating the water level pressure switch 104 so that the water level 315 is pushed The flange 28 coupled to the louver cover 550 is inserted into the louver cover 550 while the bolt and the nut are coupled to each other by a hand tool while the flexible coupler 317 is inserted into the through hole of the collecting tank 34, In the switch input circuit 58 provided inside the carver 550, the main switch button 66 and the auxiliary switch 318, which are switches for ON / OFF control of the respective pumps, are connected to the suction / discharge switch 285, The flow meter 105 and the motor control module 106 are provided with a stop valve 114 and a connection with the automatic valve 259 in the water supply port 168,

A device including a metal 539 having a large thermal expansion and a metal 540 having a small thermal expansion is provided with a time comparator 541 and a high level alarm 542 with a baem compiler alarm 543 and a smoke relay alarm 544 to the alarm reset button 545 and the check 545 to the lower level switch 546 and the check nozzle 549 to the sound cap 548 and the float inserter switch 551 to the indication scale 552 and the overflow connection 553 are provided with a vent pipe connection 554 and a flange connection 555 to provide a water storage level adjustment to the water collection tank 34,

(593,594,595) of a number of marine nuclear hydroelectric power plants constructed in the ocean with each pump operation mode as a connection structure between each instrument and switch and pipeline. (811) consisting of the inside of a marine nuclear hydropower plant equipped with a nuclear reactor facility and a distribution input device of the hydrological control and control section of the dam. The nuclear waste disposal unit of the Marine Nuclear Power Plant Nuclear Power Plant (811) having the double structure reactor facility for the nuclear waste disposal treatment for the marine nuclear power source constituting the individual collecting tank (34) (34) is provided with a distributor / dispenser for a reactor facility of a nuclear power plant constituting a disaster prevention / It consists of the non-connection structure.

As shown in FIGS. 22 to 29, the nuclear power generation nuclear waste treatment unit 811 of the nuclear power generation facility 811 of the marine power plant facility for controlling the hull position movement of the marine food pipeline (593, 594, 595) And a plurality of solenoid valve actuating assembly units constituting the hydraulic pneumatic cylinder connected to the valve during the pump operation.

A double structure nuclear water reactor for a marine nuclear power plant having a plurality of solenoid valve actuating assemblies constituting a hydraulic pneumatic cylinder is provided. The nuclear power plant (811) comprising the pressurized water double structure reactor assembly (1) 80 are pressed by hand on the solenoid valve pressure switch of each solenoid valve 76 and the on-time main switch button 66 of the solenoid valve start switch button main switch button 66 When the butterfly valve 622 is opened and manually pressed to the off-time main switch button 66 of the main switch button 66, the connection structure of the butterfly valve 622 is closed Upon depressing the on-time main switch button 66 of the switch button 66 by hand, the butterfly valve 622 connection structure provides for deployment,

A connection structure for providing a connection structure with a plurality of fire doors (154) and a plurality of hatch covers (153) for a construction machine and a ship, while pressure air generated in the air compressor (80) Equipment for nuclear waste disposal for marine resources The facility for the detection switch sensor constituting the inside of the main body (1) of pressurized water type double structure reactor facility to constitute the operation of the nuclear power plant,

The solenoid valve body 557 constituting the application method of oil, air pressure and sensor technology is provided,

Flow type manifold 564 and the manifold 564 while providing a connection with the spool 558, the spool 559, the spool packing 560, the pilot 561, the coil 562 and the connector 563, 565, and constitute a plurality of types constituting the oil, air pressure, and sensor technology application methods, and are provided with screw bolts 567, an air hose coupling center union coupling 568, and a body coupling union coupling 569 And a solenoid valve body (557) provided in the main body (1) of the pressurized water type double structure reactor facility for processing the nuclear waste for the ocean source,

Including a two-position single 570 and a two-position double 571 constituting a solenoid valve body 557 mounting configuration, a central vertical type 572, a vertical type 573 and a horizontal type 574, (575)

In the symbol of the solenoid valve body 557,

A direct tubing 582 providing a connection to the microswitch 581 with a single 576, a double 577, an aerator 578, an eye 579 and a jaw 580, With a pneumatic cylinder operating control that provides a connection structure with the damper spindle 584 of the fire damper 583 which controls the air flow rate of the air inlet 585a and the air outlet 585b of the combustion chamber 585, Waste treatment Pressurized water type double structure Reactor main body (1) Connection structure inside of the building Construction of the mechanical connection structure Bellows butterfly valve (622) and diving control device Connection structure Doctor ventilation (585) The connection structure provided with the pressurized air is provided with a connection structure of a ballast butterfly valve 622 of a submergence control device of a pipeline equipped with pipeline automatic pneumatic conveying device 916,

Preventing disaster prevention at the nuclear power plant (811) of the marine nuclear power plant equipment to control the hull position movement of the floating ocean tractor (593,594,595) of several marine nuclear hydroelectric power plants in the ocean. Hydraulic pneumatic cylinder connected to the valve during pump operation (1) of the nuclear power plant (811) consisting of the pressurized water type double structure reactor facility (1) equipped with a plurality of solenoid valve operation assembling apparatuses It is a connection structure between each instrument and switch and pipeline that adjusted the overcoming of the sea water.

Marine nuclear waste disposal treatment Pressurized water double structure reactor facility (1) Operational method showing disaster prevention preventive control unit configuration in nuclear power generation facility (811) composed of inside Pipeline line Automatic pneumatic transportation device (916) Connection structure And the operation of the nuclear power plant of the marine nuclear power plant equipped with the pressurized water double structure reactor facility for the nuclear waste treatment for the ocean source is constituted.

As shown in Figs. 22 to 29, the 5-port solenoid valve constituting the solenoid valve 76,

The spool 559 is connected to the valve body 557 and the spool 558 and the coil 562 is connected to the guide packing 561 in the spool packing 560 to the left side of the coil 562 in the two- And the two-position double 570 is also attached to the left and right sides of the coil on the left and right sides of the valve body 557 to form a two-position single 569 and a two-position double 570, have.

In addition to the above-mentioned standard products, the three-position center cloth 577 and the three-position center presser 578 are provided as three-position center pick-up 579 in order-

The single product 575 and the double product 576 are divided into the standard product and separated into the product 577 and the child 578 in the form of a display symbol in various constructions as shown in FIGS. 22 to 29, (579)

(579) is a mechanism of a fire damper opening / closing device of a ventilation device of a ventilation vent of a doctor ventilation and a ventilation device of a ventilation device when a fire occurs, and an air hose 109) and is widely used in buildings or other industries and marine vessels.

As shown in FIG. 22 to FIG. 29, the manifold type of the manifold system includes the (DMQF 100-MO OS) and (DMQ F100-M O OL) types of 5-porter pilot type This is explained in the following specification.

As shown in Figs. 22 to 29, the pressure sensor provided in the elevator machine room and the pump evacuator, which is mounted on the cable car 256 in such a manner that the initial evacuation and lifespan structure is achieved within 1 second, A detailed configuration is made with the figure that is not explained.

As shown in Fig. 22 to Fig. 29, the sign of the state before use of the product of the air solenoid valve 76 will be described as follows.

As shown in Figs. 22 to 29, in a detailed description of the use conditions of the fluid,

First, the filter should be installed with a filter having a filtration degree of 5 μm or more. If there is a lot of drain, the pneumatic equipment may malfunction when the valve is used for the first time. You must

As shown in Figs. 22 to 29, when the drain solenoid valve 76 is difficult to manage, use of an auto drain filter is provided.

When there is a large amount of carbon tar generated in the air compressor, a large amount of carbon tar may be attached to the inside of the valve, making it impossible to operate. Therefore, when the carbon tar is low, an air compressor is used but oil mist and separator are used.

Regarding other conditions of the fluid to be used, the compressed air purification system of the pneumatic equipment manufacturer is taken into consideration.

The following is the initial lubrication for lubrication, so it may be used without lubrication. However, if lubrication is required, use turbine oil type 1 (ISOVG 32), but if lubrication is stopped during use, it will operate due to loss of initial lubricant Lubrication must be used continuously as it may cause defects.

Especially, do not use spindle oil.

The following leakage voltage will be described as follows.

When the power is cut off, the leakage voltage remaining at both ends due to leakage current should be suppressed to 3% or less,

If a C-R device is used for contact protection, the leakage voltage flowing through the C-R device may increase the leakage voltage.

Particular attention should be paid to the contactless relay because it may have a built-in protection circuit.

Fourth, for low temperature use,

It is possible to use it up to a temperature of -10 DEG C, but it is necessary to pay attention to solidification or freezing of moisture of the drain 301,

If you are concerned about freezing, install an air dryer.

As shown in Fig. 22 to Fig. 29, when the double solenoid type is used by momentary energization for the instantaneous passage, the energization time is set to 0.1 second or more.

As noted above, it is a note of the solenoid valve prior to use according to the description of the warning sign.

In the detailed description when selecting and handling pneumatic equipment according to the warning signs,

First, the proper selection and determination of pneumatic equipment should be done after determining the design or specification of a function with expert knowledge and experience,

The use of pneumatic equipment is handled by a person with sufficient knowledge and experience,

Compressed air is very dangerous if it is handled incorrectly, so maintenance personnel are responsible for the maintenance of the equipment.

After confirming the safety device, operate the pneumatic equipment and confirm that the initial condition of the system and the compressed air are completely exhausted,

The maintenance of the compressed air in the condition that the air is not branched may cause injury to the human body due to the malfunction of the machinery.

As shown in FIG. 22 to FIG. 29, it is possible to select pneumatic devices in consultation with the manufacturer under the conditions other than the general use conditions or control the gases other than compressed air and fluids harmful to the human body. If safety is required, contact the manufacturer to remove the hazard.

Therefore, before using a pneumatic device, a person skilled in the art should confirm once again whether the specification to be ordered is correct, and then thoroughly clean the inside of the pipe before piping or other cleaning, so that foreign matter and cutting oil,

When the Teflon membrane 538 is used, it may be rolled around 1.5 to 2 mm of the screw.

For a more detailed description of the operating environment

Install in a place where corrosive gas, chemical solution, seawater, rainwater, water vapor, etc. are installed. Install it in a place where moisture, oil, etc. are temporarily installed. Take measures such as a protective cover. A silencer or the like should be attached to the exhaust port of the valve to prevent dust or the like from entering the valve,

As shown in FIG. 22 to FIG. 29, it should not be used in an explosive environment, and it is necessary to avoid radiant heat in an environment where there is a heat source by avoiding direct sunlight, avoiding use in a place with vibration and impact, And the arrangement and installation of the pressure sensor and the pneumatic pressure sensor constituted in the nuclear power plant 811 constituted inside the pressurized water double structure reactor facility main body 1 for the ocean nuclear waste treatment for exclusive use for the ocean source are provided.

Nuclear waste disposal for marine resources Nuclear waste disposal unit of nuclear power generation facility (811) composed of internal pressurized water type double structure reactor facility (1) In the plurality of slew valve (403) equipment constituting the fire pump (238) in the fire pump and the prime mover,

It is a self-contained valve used to supply water to the water tank. When the water in the water tank reaches a certain level due to the ball of copper or synthetic resin at the end of the lever, the valve is automatically closed by buoyancy of the ball. To store a certain amount of water.

The ball tap (499) has a small diameter and a large diameter.

As shown in FIGS. 22 to 29, in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water type pressurized water reactor for exclusive use of the ocean source nuclear waste, Is a valve-actuated facility with a separate valve to show the configuration in Fig.

In the plurality of strainer 392 constituting the exponent line 497 and the fractional flow 498 of the pipe 14 constituting the distributing and inputting facility of the reactor facility of the nuclear power plant,

Type Y-type strainer 501a, a U-type strainer end face 502b, and a V-type strainer 503,

The tube fixing metal 504, which constitutes the plurality of strainer 392,

A connecting structure is provided between the supporting buckle support band 505 and the support band 506, the roller support band 507, the vertical pipe 500b, the steel spectacle band 509 and the bottom band 510 and,

In the traps 511 constituting the connection structure with the bottom bands 510,

A bottom thermal type trap 522 and a straight thermal type trap 523 and a bucket trap 524 and a bottom type bucket kits trap 525 and a top type bucket kett trap 526 and a float trap 527 and an impulse steam trap 528) to treat nuclear waste only for marine resources, and a pressurized water type double structure reactor unit (1) comprising a nuclear reactor (811), a disaster prevention control unit, .

As shown in FIG. 22 to FIG. 29, each of the nuclear hydroelectric power plants 811 constituting the inside of the marine nuclear hydroelectric power plant having the pressurized water reactor facility for treating nuclear waste, In valve-operated systems,

Type strainer 501 and the U-type strainer 502 are provided with a V-type strainer 503 in a strainer 392 constituting a distributor / dispenser of a reactor installation of each valve nuclear power plant, The strainer that constitutes the washing machine,

It is used for piping of steam, water, oil, etc., and is used for removing dirt in the pipe. Generally, a cast iron flange type is used for 2B or less, The Y-shaped strainer 501 is provided with a cylindrical metal net in a Y-shaped body inclined by 45 °. In order to reduce the resistance to fluid, the Y- Is made to flow from the inside of the net to the outside, and the opening area of the metal net, in which impurities are removed by installing a plug at the bottom, is about three times the nominal diameter net area, and the mesh is easily exchanged.

As shown in FIGS. 22 to 29, disaster prevention is provided for the nuclear power generation nuclear waste treatment section of the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for the marine nuclear waste treatment. In each valve-operated system showing the construction of the preventive control unit, the U-shaped strainer 502 constituting the preventive control unit for disaster prevention is provided with a round barrel in which a filter net is installed vertically in the body of cast iron, It flows from the inside to the outside. Since the flow direction of the fluid changes perpendicularly to the structure, resistance to the fluid is higher than that of the Y-type strainer. However, it is easy to perform maintenance and inspection.

In the V-type strainer 503 constituting the disaster prevention preventive control section,

Since the fluid flows through the net and the dirt is filtered by the metal mesh in the body of cast iron, the resistance against the flow velocity is less than that of the Y or U type because the structural fluid flows linearly through the strainer. A top-bottom type bucket kit 525 and a top-down type bucket kit 525 are provided with a top-down type trap 524 and a bottom-type bottom type trap 524 in an angle type thermal valve type trap 522 and a straight thermal type trap 523 constituting a trap 511 of a pipe fitting, The steam trap separates the condensed water and the air generated in the radiator or the steam pipe from the steam and discharges only the condensed water to the return pipe without passing the steam through the impeller steam trap 528 and the float trap 527. [

Generally, it is installed at the end of the steam pipe, the radiator outlet or the place where the condensate collects.

Types of steam traps include thermal traps, bucket traps, float traps, and impulse steam traps (528), depending on operating pressure and emissions.

As shown in FIGS. 22 to 29, disaster prevention is provided for the nuclear power generation nuclear waste treatment section of the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for the marine nuclear waste treatment. A mode of operation showing the preventive control arrangement is a marine nuclear hydroelectric plant with a pressurized water reactor facility for the treatment of nuclear waste.

The thermal trap 523, which constitutes the distribution system of the reactor installation,

Depending on the type of pressure, it is easy to use for low pressure and high pressure. The trap, which is divided into angled type and straight type according to the type, is also called as a silpone trap. The bellows is made of thin sheet of phosphor bronze and filled with highly volatile liquid (ether) When the steam is around the bellows, the steam evaporates and expands. As the bellows expands and the valve is closed and the drain (301) or the air is heated, the temperature decreases and the bellows contracts to expand the valve. A radiator of less than 1 kg / ㎠ is used for the pipe end trap and it is also used for the air piping of the air liner type or the vacuum return pipe type.

 As shown in FIGS. 22 to 29, the nuclear power generation facility 811 constructed inside the main body 1 of the pressurized water type nuclear reactor facility for marine nuclear waste treatment has a nuclear waste disposal unit It is the equipment of distribution equipment of the reactor facility of the nuclear power plant.

The trap facility constituting the distribution dispensing apparatus of the nuclear reactor facility comprises:

The buoyancy of the bucket is controlled by the steam pressure. Therefore, there should be a pressure difference between the steam pipe and the return pipe. When the pressure difference is 1 kg / ㎠, theoretically Condensate can be pumped up to 10.33 m vertically, but it is actually less than 8 m.

In addition, the low-pressure steam pipe which does not have sufficient pressure difference is not required to discharge condensate. At the same time, the bucket trap is suitable for high-pressure steam pipe, and the water pipe can be piped to the upper side of the trap. .

In a bottom-up bucket-trap (525) facility that constitutes a distribution dispenser of a nuclear reactor,

The bottom-up type bucket kit 525 is also referred to as an open trap. When condensate enters the trap, the bucket kit B is first floated on the outside of the bucket kit A, and the bucket kit B floats on the bucket kit B to close the valve C. When the condensate flows slowly overflowing into the kits, the bucket becomes heavy and loses its buoyancy and sinks, opening the valve (C). When the valve is opened, the condensate is discharged by the pressure of the steam acting on the water surface in the bucket.

In a top-down bucket-trap (526) installation that constitutes a distribution dispenser of a reactor installation,

The top down bucket kit trap (526) is located upside down when the bucket is upside down. When steam and condensate enter the bottom of the trap, the bucket is filled with steam, buoyant, floats up and the valve closes.

The steam in the bucket is discharged to the small hole in the upper part of the bucket according to the condensed water. When the steam is discharged, the bucket loses its buoyancy and descends to its own weight, and the valve is opened and the condensed water and air are discharged. At the end of the discharge, the bucket is again filled with steam, buoyant, and the valve closes.

As shown in Figs. 22 to 29, the nuclear waste disposal unit provided in the nuclear power plant 811 constructed in the main body 1 of the pressurized water double-structure reactor facility for marine nuclear waste treatment, Mode of operation showing control arrangement In the form of a float trap 527 constituting a marine nuclear hydroelectric power plant having a pressurized water reactor facility for treating nuclear waste,

The float trap 527 is also referred to as a so-called multiple-mass trap, and has a buoyancy of float to provide valve opening and closing. The operating pressure is such that a large amount of condensed water is treated in an air heater, a heat exchanger, And air can not be discharged. Therefore, when necessary, a thermal type is used together to provide a low temperature air discharge through the upper air discharge pipe.

Operation method showing the disaster prevention preventive control unit configuration of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste for the marine resource source Marine having the pressurized water reactor facility for nuclear waste treatment At nuclear power plant facilities,

The impulse steam trap 528 with the impulse steam trap 528 opens and closes the valve continuously in accordance with the temperature change in the cylinder and is smaller in size than the amount of the drain that the structure is extremely simple to handle, It can be used for both medium pressure and low pressure, but the drawbacks are that the steam leaks somewhat.

As shown in Figs. 22 to 29, in the drain trap facility constituted by the disk-shaped valve rod and the disk seat,

The drain trap is a manual deodorizing mechanism for preventing the gas generated in the sewer pipe from flowing backward from the device drain port to the room through the drain pipe. The material is made of cast iron, bronze brass, and ceramics,

The structure is designed to allow water to flow through a portion of the drainage system and to allow free passage of water,

The depth of the trap seals is between 50 and 100 mm. If the depth of the trap is less than 50 mm, gas and air may pass through. If it is deeper than 100 mm, the self-cleaning force will weaken and cause debris to accumulate on the bottom of the trap.

As shown in FIGS. 22 to 29, disaster prevention is provided for the nuclear power generation nuclear waste treatment section of the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for the marine nuclear waste treatment. Operation mode showing the preventive control part configuration The drain trap constituting the distribution input equipment facility of the reactor facility of the nuclear power plant,

Structurally, it can be roughly divided into pipe traps and box traps. In vertical pipe support metal installations,

If the vertical pipe penetrates through the floor, put the sleeve on the bottom to allow the pipe to expand and contract freely, and install the supporting metal in the middle of the layer to prevent the transverse swing. .

As shown in Fig. 22 to Fig. 29, in the pipe fixing metal 504 of the fixed metal,

A steel spectacle band 509 and a bottom band 510 are formed on the support buckle support band 505 and the support band 506 and the roller support band 507 and the vertical pipe casting band 508,

It is aimed to prevent the tube from moving about the expansion and contraction of the pipe, and it is necessary to provide a rigid attachment to the building and to make the shape of the fixing metal suitable for the fixed place,

For the properties and applications of the packing,

The gasket 32 is sandwiched between two flanges and is compressed by the tightening force of the tightening nut to prevent the gasket 32 from coming into close contact with the flange and leaking And the gasket has a slight elasticity.

The reason is that if there is no elasticity in the gasket 32 when the bolt is increased for some reason, leakage occurs immediately.

The following points should be considered when selecting gasket for piping.

First, consider the physical properties of the object in the tube, and then the temperature, pressure, the distinction between gas and liquid, the density, and the viscosity should be considered. The chemical properties of the material in the tube should be taken into account, and the chemical composition, stability, corrosiveness, , Attention must be paid to flammability and explosiveness, and the mechanical properties of gasket for piping,

Since the most suitable gasket material should be selected after all the conditions of exchange, the presence of vibration, the degree of internal pressure and the external pressure are examined, the following six kinds of gasket materials can be classified,

The first is rubber products and processed products,

The second is plant fiber products,

The third is animal textile products,

The fourth is a mineral fiber product, the fifth is a synthetic resin product,

The sixth is metal products and the main ones are as follows.

The above rubber streams and their processed products are widely used as gasket materials since they have high elasticity and are not eroded by chemicals.

If you need strength, you should use rubber or metal gaskets that mix cloth (cloth, 75)

For the selection of natural rubber,

The characteristic of the rubber is that it is very elastic and not absorbent and does not erode well to soft acids or alkalies but is poor in heat resistance. Therefore, rubber products and their processed products which are prevented from being used in piping handling a high temperature of 100 ° C or higher, Respectively,

The main drawback of natural rubber is that it has poor oil resistance and therefore can be used for general cold water, drainage and air piping. However, it is not suitable for use in oil, steam, hot water and refrigerant piping, (1) of the nuclear power plant (811), which comprises the nuclear power plant (1) of the pressurized water type double-structure reactor facility, It is the gasket material to the distribution input equipment facility of the reactor facility of the nuclear power plant.

As shown in Figs. 22 to 29, the nuclear power generation nuclear waste disposal unit of the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type pressurized water reactor 2 for the marine nuclear waste treatment, Equipment Each type of equipment is a pump.

The pump unit 811 of the atomic power generation control unit 811 constituting the hydrological control unit of the dam of the nuclear power generation facility unit 811 is provided with the facility for each pump type to constitute the reciprocating pump plunger pump 148 of the positive type pump type The operation of the diaphragm pump 144 and the operation of the wing pump 327 constituting the connection of the discharge conjoint pipe 4 and the belt carver 261 to the electric motor 192 and the suction / And a rotary pump rotor 338 other than the external gear pump 326 in the pump 337 and a discharge port 270 in the suction port 269 so as to provide the movement of water, (593,594,595) of the marine nuclear power plants of the marine nuclear power plants (811) of the marine nuclear power plant equipment for preventive disaster prevention. Male type (811) which consists of a marine nuclear hydroelectric power plant equipped with a nuclear power plant, a nuclear power plant, a nuclear power plant, a nuclear power plant, and a nuclear power plant. .

As shown in Figs. 22 to 29, the nuclear power generation nuclear waste disposal unit of the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type pressurized water reactor 2 for the marine nuclear waste treatment, Equipment For each type of pump,

A plurality of gears for replacing the connection of the electric motor 192 and the turbine pump 140 constituting the turbine pump 140 with the pair of gears 250 on the rotary shaft 198 of the electric motor 192, The axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 are connected to the self-priming pump 340 having the discharge merging pipe 4 and the priming 339 in the suction- The viscous pump 343 and the impeller 143 of the viscous pump are provided and the full closing position and the unfolding position inside the positive displacement pump constituted inside the main body 1 of the pressurized water double- For a guaranteed function of a well-defined pump, a certain amount of fluid shrouding is provided,

The positive displacement pumps constituting the fixed quantity of the fluid shovel are the same as those of the marine power plant for the marine power plant of the marine power plant with the control of the hull position movement of the floating ocean tractor (593,594,595) of several marine nuclear power plants constituting the ocean Distribution of Nuclear Power Plant Reactor Facilities Showing Nuclear Power Plant Nuclear Waste Treatment Section of Nuclear Power Generation Facilities (811) by Providing Disaster Prevention Preventive Control Section for each type of pump composed of pressurized water type double structure reactor facility main body (1) It is composed of the input device and the connection structure of each pump type.

As shown in FIGS. 22 to 29, the nuclear waste disposal unit of the nuclear power generation facility 811 of the marine power plant facility for controlling the hull position movement of the floating consoles (593, 594, 595) of several marine nuclear power plants constituting the ocean Disaster Prevention and Control Section Provided During the operation of the pump,

(811) constituting an inner part of a marine nuclear hydroelectric power plant having a pressurized water type double structure reactor facility for processing nuclear waste constituting each of the collection collecting tanks (34) Operation of the preventive control unit Operation of the automatic catch tank showing the conventional configuration of the dam control of the dam of the nuclear power generation facility with the equipment of the distribution tank of the reactor facility of the nuclear power plant (34) (34) of the distribution input device collection tank of nuclear hydroelectric power plant,

The center vertical line PBCL of the centrifugal pump 308 constituting the position outside the collecting tank 34 is connected to the pump 192 of the Centrifugal Pump 308, (308) is connected to the rotating shaft (198) of the electric motor (192) by coupling a plurality of chains to a plurality of gears to perform a rotational motion of the pump. The outer wall surface of the manhole cover An automatic valve 259 coupled to a tee elbow 44 connected to a pipe 14 located at the center of the bed 152 and a collecting tank 34 are fixed to the bed frame 286 at the lower end of the collecting tank 34 In addition,

The electric motor 192 and the Centrifugal Pump 308 provide a connection with the water level 315 for operating the water level pressure switch 104 so that the water level 315 is pushed The flange 28 coupled to the louver cover 550 is inserted into the louver cover 550 while the bolt and the nut are coupled to each other by a hand tool while the flexible coupler 317 is inserted into the through hole of the collecting tank 34, In the switch input circuit 58 provided inside the carver 550, the main switch button 66 and the auxiliary switch 318, which are switches for ON / OFF control of each pump, are connected to the suction / discharge switch 285, The stop valve 114 and the automatic transmission valve 259 are connected to the check flowmeter 105 and the motor control module 106,

A device including a metal 539 having a large thermal expansion and a metal 540 having a small thermal expansion is provided with a timer combo level switch 541 and a high level alarm 542 with a baem compiler alarm 543 and a smoke relay alarm 544 to the alarm reset button 545 and the check 545 to the lower level switch 546 and the check nozzle 549 to the sound cap 548 and the float inserter switch 551 to the indication scale 552 and the overflow connection 553 are provided with a vent pipe connection 554 and a flange connection 555 to provide a water storage level adjustment to the water collection tank 34,

(593,594,595) of marine nuclear power plants, each of which is operated as a connection structure of each instrument, switch, and pipeline, (811) consisting of a pressurized water type double structure reactor facility main body (1), a system for controlling the overflow of water by providing a distribution input device of the hydrological control and control section of the dam, (811) of the nuclear reactor of the nuclear power plant constituting the individual collecting tank (34), which is provided with the respective operation modes of the pump, (34) facility connection structures equipped with a distributing and inputting device of a reactor facility of the nuclear power plant constituting the nuclear power plant.

As shown in FIGS. 22 to 29, the nuclear power generation nuclear waste treatment unit 811 of the nuclear power generation facility 811 of the marine power plant facility for controlling the hull position movement of the marine food pipeline (593, 594, 595) And a plurality of solenoid valve actuating assembly units constituting the hydraulic pneumatic cylinder connected to the valve during the pump operation.

A double structure nuclear water reactor for a marine nuclear power plant having a plurality of solenoid valve actuating assemblies constituting a hydraulic pneumatic cylinder is provided. The nuclear power plant (811) comprising the pressurized water double structure reactor assembly (1) The main switch button 66 of the solenoid valve pressure switch of the solenoid valve 76 and the solenoid valve start switch button 66 of the solenoid valve start switch provided by the pressure air generated in the solenoid valve 80 are pressed by hand When the main butterfly valve 622 opens and is manually depressed to the off-main switch button 66 of the main switch button 66, the butterfly valve 622 connection structure is fully closed When the on-time main switch button 66 of the switch button main switch button 66 is manually depressed, the butterfly valve 622 connection structure provides an opening to the air compressor 80, (153) and a plurality of fire doors (154) as a connection structure to construct a connection structure between the construction machine and the hatch cover (153) for the ship and the nuclear waste The facilities of the detection switch sensor constituting the inside of the processing pressurized water type double structure reactor main body 1 to constitute the operation of the nuclear power plant,

The solenoid valve body 557 constituting the application method of oil, air pressure and sensor technology is provided,

Flow type manifold 564 and the manifold 565 while providing a connection with the spool 558, the spool 559, the spool packing 560, the pilot 561, the coil 562 and the connector 563, A plurality of types constituting the application method of oil, air pressure and sensor technology are provided, and screw bolts 567, an air hose coupling center union coupling 568 and a body coupling union coupling 569 are provided The solenoid valve body 557 is provided inside the main body 1 of the pressurized water type double structure reactor facility for processing the nuclear waste for the ocean source,

Position solenoid valve 570 including two-position single 570 and two-position double 571 constituting an installation form of solenoid valve body 557 and a horizontal type including a central vertical type 572, vertical type 573, horizontal type 574, (575)

In the symbol of the solenoid valve body 557,

A direct tubing 582 providing a connection to the microswitch 581 with a single 576, a double 577, an end 578, an eye 579 and a jaw 580 and a doctor pipe And the damper spindle 584 of the fire damper 583 that controls the air flow rate of the air inlet 585a and the air outlet of the outlet 585b of the water source 585, Structural Reactor System (1) Connection structure inside the building Bellower butterfly valve (622) of the construction machine connection structure and diving control device connection structure Doctor ventilation (585) The connecting structure provided is provided with a connection structure of a ballast butterfly valve 622 of a diving control device of a piping line equipped with pipeline automatic pneumatic conveying device 916,

Prevention of disaster prevention at the nuclear power plant (811) of the marine nuclear hydroelectric power plant with control of the hull position movement of the floating ocean tractor (593,594,595) of several marine nuclear power plants constituting the ocean. Hydraulic pneumatic cylinder connected to the valve during pump operation (1) of the nuclear power plant (811) consisting of the pressurized water type double structure reactor facility (1) equipped with a plurality of solenoid valve operation assembling apparatuses Each of the instruments that have adjusted for overcoming the seawater and the connection structure of the switch and the pipeline are provided with the respective pump operation methods,

Marine nuclear waste disposal treatment Pressurized water double structure reactor facility (1) Operational method showing disaster prevention preventive control unit configuration in nuclear power generation facility (811) composed of inside Pipeline line Automatic pneumatic transportation device (916) Connection structure And to operate the nuclear power plants of marine nuclear power plants equipped with pressurized water reactor facilities for nuclear waste disposal.

As shown in Figs. 22 to 29, the 5-port solenoid valve constituting the solenoid valve 76,

The spool 559 is attached to the valve body 557 and the spool 558 to the spool packing 560 and the coil 562 is inserted into the guide pilot 561 to the left side of the coil 562 in the two- And the two-position double 570 is also attached to the left and right sides of the coil on the left and right sides of the valve body 557 to form a two-position single 569 and a two-position double 570, .

In addition to the above-mentioned standard products, the three-position center cloth 577 and the three-position center presser 578 are provided as three-position center pick-up 579 in order-

The single product 575 and the double product 576 are divided into the standard product and separated into the product 577 and the child 578 in the form of a display symbol in various constructions as shown in FIGS. 22 to 29, (579)

(579) is a mechanism of a fire damper opening / closing device of a ventilation device of a ventilation vent of a doctor ventilation and a ventilation device of a ventilation device when a fire occurs, and an air hose 109) and is widely used in buildings or other industries and marine vessels.

As shown in Figs. 22 to 29, the manifold type of the manifold system includes (DMQF 100-MO OS) and (DMQ F100-M O OL) of five leaflets (inches) The format is described in the following specification.

As shown in Fig. 22 to Fig. 29, in the mounting manner in the solenoid valve 76,

(LL, 571) and a vertical type (L, 572) are formed in the form of a direct piping type (581) and a base piping type (valve seat, 582) (DC, DC 12V) and DC (direct current 24V) are connected to the coil 562 body for switching on (on) And the dimensions of the screw taps and the machining holes are described as follows in the intake ports and the discharge ports of all the components attached to the solenoid valve body 557. [ (Distance dimension explanation is omitted)

As shown in Figs. 22 to 29, the threaded tabs of each dimension have respective machining holes 20 (see Fig. 22) in which an air hose coupling union coupling 567 and a union coupling (body coupling, 568) )Is as follows.

Regarding other conditions of the fluid to be used, the compressed air purification system of the pneumatic equipment manufacturer is taken into consideration.

The following is the initial lubrication for lubrication, so it may be used without lubrication. But if lubrication is required, use turbine oil type 1 (ISOVG 32), but if lubrication is stopped during use, The oil supply must be used continuously.

Especially, do not use spindle oil.

The following leakage voltage will be described as follows.

When the power is cut off, the leakage voltage remaining at both ends due to leakage current should be suppressed to 3% or less,

If a C-R device is used for contact protection, the leakage voltage flowing through the C-R device may increase the leakage voltage.

Particular attention should be paid to the contactless relay because it may have a built-in protection circuit.

Fourth, for low temperature use,

It is possible to use it up to a temperature of -10 DEG C, but it is necessary to pay attention to solidification or freezing of moisture of the drain 301,

If you are concerned about freezing, install an air dryer.

As shown in Fig. 29, when the double solenoid type is used by momentary energization for the instantaneous passage, the energization time is set to 0.1 second or more.

As noted above, it is a note of the solenoid valve prior to use according to the description of the warning sign.

In the detailed description when selecting and handling pneumatic equipment according to the warning signs,

First, the proper selection and determination of pneumatic equipment should be done after determining the design or specification of a function with expert knowledge and experience,

The use of pneumatic equipment is handled by a person with sufficient knowledge and experience,

Compressed air is very dangerous if it is handled incorrectly, so maintenance personnel are responsible for the maintenance of the equipment.

After confirming the safety device, operate the pneumatic equipment and confirm that the initial condition of the system and the compressed air are completely exhausted when disassembling and disassembly and assembly.

The maintenance of the compressed air in the condition that the air is not branched may cause injury to the human body due to the malfunction of the machinery.

As shown in FIG. 22 to FIG. 29, it is possible to select pneumatic devices in consultation with the manufacturer under the conditions other than the general use conditions or control the gases other than compressed air and fluids harmful to the human body. If safety is required, contact the manufacturer to remove the hazard.

Therefore, before using a pneumatic device, a person skilled in the art should confirm once again whether the specification to be ordered is correct, and then thoroughly clean the inside of the pipe before piping or other cleaning, so that foreign matter and cutting oil,

In the case of using the intermediate stop valve as described above, care should be taken not to cause leakage in the piping between the valve 76 and the cylinder 126. In the case of precise position control, precise stopping due to compressibility and minute leakage, If it is necessary to stop for a long period of time, contact the manufacturer to solve the problem. If it is not tightened with excessive force when piping, or if it is not tightened with proper torque, it may damage the human body due to malfunction The pipe should be installed with the following proper torque.

For a more detailed description of the operating environment

Install in a place with corrosive gas, chemical solution, seawater, rainwater, water vapor, etc. Install in a place where water, oil, etc. are temporarily installed. A muffler or the like should be attached to the exhaust port of the valve to prevent dust or the like from entering the valve,

As shown in FIGS. 30 to 34, the nuclear power generation nuclear waste treatment section included in the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment, A double-pipe structure of the nuclear waste disposal of the power plant is provided with power transmission showing the connection of the electronic sensor valve screw control unit, disaster prevention prevention control unit, and the artificial tunnel fishery scatter control unit, which shows the configuration of the block piping line control side (238) To control the power transmission of the substation of the Trans-Pacific Trans-Pacific Railway for the treatment of nuclear waste and to construct the marine environment around the Korean peninsula. Disaster Prevention Prevention Division.

Among the flood control and disaster prevention devices of the above disaster prevention prevention control section, there is a disaster prevention disruption prevention device constituting a submergence preventing vessel for overcoming the sinking prevention in the severe storm wave (1101) (2) The construction of a double-structure nuclear reactor facility (1) The installation of a disaster control system for flood control in the construction machinery of a hull locomotion control system for a floating nuclear power plant of a number of marine nuclear power plants (811) (811e), the electronic control device construction machine control device (811f) and the screw control device (811g) of the nuclear power generation facility safety control and management production output 811e of the nuclear power generation equipment section Among the regulated disaster prevention devices, the rescue reconstruction in contrast with the conventional sinking vessel constituting the submergence preventing vessel for overcoming the sinking prevention even in the severe storm wave (1101) The vessels 1078 having the power are provided inside the pressurized water type double reactor facility body 1 for the ocean source exclusive nuclear waste treatment,

As shown in FIGS. 30 to 34, a nuclear waste disposal apparatus of a nuclear power hydroelectric power plant of a nuclear power generation facility unit 811 constituting a disaster prevention preventive disaster control disaster prevention apparatus and a ship 1078 A lifting rope 629, a rope knot claw 630, an emergency staircase 631, an elevator alibault 632, and a conveyor 633, all of which are provided on the hatch cover 153, the lifting structure bed nozzle 172, And a bollard 638, an anchor 639, an anchor chain 640, a helicopter 647, and a rubber balloon 914, (811) nuclear power generation nuclear waste disposal unit and power generation production unit and transport transportation unit of construction machine and power transmission unit and nuclear power plant safety control management production front and electronic control control equipment construction machine Adjustment parts and screw adjusters Equipped to prepare into the marine source only nuclear waste disposal pressurized water reactors, double equipment main body 1, and

As shown in FIGS. 30 to 34, the upward airflow 925 of the typhoon and the downward airflow 926 constituting the flood control and disaster prevention device, the air flow control device nuclear waste disposal device, and the yard basket for the harmful rust- 951, the flexible high pressure hose 190, the introduction pipe 191, the blower 641, the heater fan 642 for keeping warm air, the yellow loess cement mixing equipment mixer machine 649, the crane boom frame 651, The air balloon 923, the loess mixture 927, the crude drill ship 934, the cooling air bubbles 939, the underwater disaster prevention nozzle 945, the submarine line wiring 946, (947) double-structure air-filled rubber tubes inside the container for the inflating and deflating control device to construct the installation base of anti-submersible foot restraints, and a marine tunnel replacing marine vessels. It is equipped with equipment and throttle control devices (593,594,595) of marine nuclear power plants equipped with marine power plant facilities to control the displacement of marine nuclear power plants of several marine nuclear power plants. 811), which is a construction machine of the hull position control system of the flood control unit (593, 594, 595) of several marine nuclear power plants.

In the past, when the marine vessel is sinking, as shown in FIG. 30 to FIG. 34, the right and left sides are confused. However, in the present invention, the emergency exit is provided in the form of a cross, The hull cover 153, the life-size combination bed nozzle 172, the rope rope 629, the rope knot claw 630, the emergency stairs 631, the elevator alibite 632, the conveyor 633, 638, anchor 639, anchor chain 640, helicopter 647, and rubber balloon 914, and the marine vessel is disposed in the main body 1 of the pressurized water reactor type nuclear reactor waste water treatment type double- Or the ship is rolled over or sinked to the right, the rescue captain shall be composed of marine vessels for the ultimate emergency escape.

In the past, the dams were not equipped at all with the same number of revolutions as the round water tanks, causing landslides in the rainy season, causing the flood victims to take away the lives and property of the people, and low- Due to inundation of living area, livestock industry and industrial complex, wastewater from living and livestock industries flows into rivers and flows into the sea, so that marine creatures move to rivers, so that fishes and shellfish can not freely scatter in the rivers of valleys In order to contribute to national economic development, four major river revitalization projects and the restoration of the world's four major fisheries, it is possible to reduce the damage of life and property from a large number of floods efficiently and rapidly in a short period of time There is a need for a comprehensive measures plan prepared,

 Therefore, the disaster prevention dispensing and dispensing apparatus of the nuclear power plant 811 constituting the inside of the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment for exclusive use of the present invention, And a connection structure of a switch and a pipeline,

Nuclear waste disposal for marine resources Treatment of pressurized water type double structure reactor facility (1) Operation of showing prevention configuration of prevention of disaster of nuclear power generation facility (811) constituting inside Dispensing input device of nuclear power plant Nuclear power plant pipeline line Automatic pneumatic And transport apparatuses 916 are provided as connection structures and are equipped with flood control facilities for preventing a plurality of landslides from natural disaster,

Water storage tanks for marine hydroelectric power plants and marine hydroelectric power generation dam facilities. It is divided into the control side and the distribution side by the division of the construction equipment, and it is divided into the respective departments, and the flood control and the marine nuclear power hydroelectric dam facilities are sequentially arranged at the same time,

As shown in FIGS. 30 to 34, in the nuclear power generation facility 811, the power transmission control unit and the harmful red tide prevention control unit are connected to the hull position moving construction machinery control unit and the marine hydroelectric power production control unit, Discharge prevention control section of nuclear power generation facility (811) composed of main body (1) of pressurized water type double-structured reactor facility for treatment of nuclear waste for marine resources equipped with control section and control section of fishery and shellfish scattering control section It is composed of input devices.

As shown in Fig. 35, the nuclear waste disposal unit included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment, and the nuclear waste of the nuclear power plant TVA's Paradise Power Plant in the vicinity of a conventional Kentucky paradise that constitutes a double tubular structure block pipeline line control shaft (238). TVA's Paradise Power Plant Steam Turbine Generator in the vicinity of Kentucky's Paradise, which constitutes the nuclear operation of the steam turbine generator The capacity of 1,150 MW. When it first started operation in February 1970, it was the largest power plant in the world.

The turbine, first produced by the utility company, first enters the high-pressure turbine under the right-angled pipe on the left, and flows through the rectangular pipe in turn to the lid on the back of the intermediate-pressure turbine and the lid on the front of the low-

The high pressure turbine is connected to the gray box on the left side of one generator and the other two turbines are connected to the front box on the second generator with the same capacity. The entire plant is operated by 3.6 million kilograms of steam per hour, which enters the high pressure turbine at a pressure of 1,650 kilograms per square inch and 427 degrees centigrade.

The coal consumption per day is 10,572 tons, enough to fill 210 coal cargoes. The net heat efficiency of this facility is 39.3%. Two small turbine generators, each 704M W, are visible at the rear.

The efficiency of converting the energy contained in a fuel into a useful form varies depending on the conversion method and the desired end use. When burning wood or coal in an open fireplace, less than 20% of that energy is emitted into the room.

To determine the overall efficiency of a steam turbine plant, this value must be multiplied by the efficiency of other energy converters in the chain from fuel to power.

A nuclear power plant with an output of 1,000MW is 10% more expensive than a fossil fuel plant ($ 280 million compared to $ 250 million), but nuclear fuel is already cheaper than fossil fuel.

However, in the future when more new facilities will emerge, the facilities that currently cover the basic load are too large to easily operate and can not easily be downgraded to accommodate intermittent use because it is difficult to stop.

According to a comparatively reasonable estimate, it is thought to be about 100G W.

But I have just seen that the electrical industry has to increase this output by 10 times to meet the demand in 1990.

We can conclude that tidal energy is not qualified to be a major innovative energy source.

[Figure 8-15] Three incremental curves were compared. Curve A is an exponential increase curve. Curve B is an extension of the doubling period by 20%. In curve C, the amount of increase during this doubling period is always constant.

It is estimated that it will be possible to build a solar power plant with a power output of 1,000 million W, which is about four times the cost of the existing nuclear power plant.

As they pointed out, the solar power includes economic problems of purchasing by facility funds rather than operating expenses.

It is estimated that these 40-year-old solar power plants will be able to produce power at an average of 1/2 cents per kW / h.

The 8 × 8 k m receiver will accept about 8.5 × 10 ⁷ kW of solar radiation. A solar cell that operates at about 18% efficiency converts it to a power of 1.5 x 10 ⁷ kW, which is converted to microwaves and sent to Earth.

On Earth, this translates back to 10 ⁷ net W W, a sufficient amount of power in New York City. The coverage area of the receiving antenna will be about 6 times as wide as required for coal-fired power plants with the same output, or about 20 times as wide as required for nuclear power plants.

The great advantage of an energy plan based on solar energy collected from the wind or the earth's surface may sound like an overpower today, but it does not add heat to the earth's ecosystem. They say it is an invariant energy system. .

The solar energy collected in the orbit is not an invariant energy system in the strict sense because most of the radiant energy blocked at 3,500k m altitude would otherwise have not reached the Earth.

Only the energy collected when the solar light plate is in line with the sun and the center of the earth does not increase the earth's heat load.

On the other hand, light plates in outer space will emit much less waste heat into the environment than fossil fuel or nuclear power plants.

All but 20% or less of the total energy of the microwave wave going to Earth is converted to useful power.

Of course, when this power is consumed, it is released into heat.

Recognizing the macroscopic nature of the development of invariant energy systems, one has to be aware of what a certain amount of exponential growth means.

The process of doubling is a dreadful phenomenon.

The amount of increase during any one doubling period - whether it is energy consumption, population, or land area occupied by the highway - is the same amount of increase over its past past.

For example, the next batch of fossil fuels will be mined for all the fossil fuels that have been mined on Earth.

As described above, the present invention provides a nuclear waste treatment dual structure block tank marine tunnel traffic apparatus (941) including a marine biotope, which constitutes the demand for electric power with an invariable energy system, To provide environment-friendly means of producing green energy and extend resources to be depleted,

All those who have made the best efforts should be accompanied by cooperation and efforts to join in the construction of a zero-accident global village for their descendants.

Turbines rotated by propellers can convert wind power into electric power with an efficiency of 60 to 80%. Like tidal energy or other forms of hydroelectricity, wind power offers a great advantage that it does not release waste heat to the living quarters.

The difficulty in using wind power results in the problem of energy storage.

Of all natural energy sources, wind is the most variable.

If you want a somewhat constant power plant, you must acquire and save that energy when the wind blows.

Unfortunately, no technology has been developed to produce realistic energy storage media. The charger is not a problem either.

FIGS. 21 to 38 are schematic diagrams illustrating an embodiment of a marine nuclear hydroelectric power plant having a double structure nuclear reactor plant for marine nuclear power generation according to the present invention.

As shown in FIGS. 36 to 38, the nuclear power generation nuclear waste treatment section included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure nuclear power plant main body 1 for marine nuclear waste treatment, A nuclear power plant of the marine nuclear hydroelectric power plant is provided with a nuclear power plant for generating a thermal power of the thermal power plant. Power Generation Facility It is a thermal power plant (626) facility for thermal power generation of a conventional thermal power plant.

Thermal power plants (626) Thermal power plants,

A power transmission line 775, a power transmission tower 776, an opening and closing facility 777, a piston pump 127, a regulator 136, an exhaust gas 171, And the ignition wire 178 and the flame 236 and the rotary vane 267 and the crank 248 and the link belt 249 and the cooling water outlet 350 and the cooling water inlet 352, A steel pipe 746 for a petroleum industry, a steam pipe 779, a steam 780, a turbine generator 772, and a non-rotating armature 772 for a nuclear power generator, both of which are provided with a rake pump 308, an exhaust stack 465, A coil 773 and a rotator rotor electromagnet coil 774 for rotating the nuclear power generator and a condenser 790 serving as a cooling device of the apparatus for cooling the water vapor to prepare water and a core 791 and a drum 792, 793 of the power plant, a dust collector 794 of the thermal power plant, a heavy oil tank 795, a heavy oil 796, a kettle 778, a steam pipe 779, and a steam 780 to the transmission measuring room transformer room 782 By having the power from the central control room 781 to the electronic controller provide a boiler operation the reactor core (783) inside the check-up states and,

Dual Structure Block Nuclear Waste Treatment for Ocean Source with Tank Dust Collector Pressurized Water Type Dual Structure Reactor Facility Nuclear Hydroelectric Power Plant (Nuclear Hydroelectric Power Plant) Nuclear power generation facility in operation of the nuclear power plant of the conventional nuclear power plant showing the configuration of the nuclear power plant of the power plant In the nuclear power generation facility of the conventional production power central control room (781) and the power transmission room transformer room (782) It consists of nuclear operation modes,

As shown in Figs. 36 to 38, the distribution of the disaster prevention apparatus of the nuclear power generation nuclear waste treatment section included in the nuclear power generation facility section 811 constituted inside the pressurized water type double reactor facility main body 1 for marine nuclear waste treatment, In the charging device,

In order to prevent a number of natural disasters such as forest fires, dust storms, heavy rain, typhoons, floods, droughts, landslides, and earthquakes, which constitute the disposal and dispensing apparatus of the abovementioned disaster prevention apparatus, Conventional flushing control machines of Kelly's hot air balloon 588 and steam airship 589 are installed in the hot air balloon 586 of Mongolia and the hot air balloon 587 of the double-walled reactor facility body 1, The fire-fighting area is provided with a dis- tribution / dispensing device for the disaster prevention device before and after the occurrence of the forest fire,

It is equipped with a connection structure of a water tank water pump and a water tank water pump connected to a roof tank and a pressure tank, which are provided in a fire area before and after the occurrence of a forest fire, (393), which is composed of a carbon dioxide gas fire extinguisher equipped with a double pipe fire hose and spray nozzle assembly in accordance with the installation of a tank correction tank, and a manometer turn-type level replacing a three stage stepped pump fire extinguisher and a collecting tank (647) to the dual-pipe fire hose for the supply of the yellow loam mixture fire water and the fire protection water to be stored in the double vinyl tent nozzle type of the ridge line within 1 second by the nonmotor power pump constituting the distribution input device of the harmonics control device of the balanced pipe nozzle. And a large number of anchor balls (395) located at high and low mountains (395) (19) installed on the iron tower (116) which is fixed to the steel tower (116) by the driving wheel roller lauler (135) and the double pipe fire hose for supplying the fire water is controlled by the wire rope It consists of a marine nuclear power plant equipped with a pressurized water double structure reactor facility,

A vibration control device 396, a speed control device 397, an electric motor rotation transmission 398, and a disk brake device 396 constituting a building roof-top fire-fighting operation room 394 of a cable car 256 constituting a distribution- (129) with a tie-rod winch (137) for controlling the opening and closing of the gate with a rope or a chain wound around the body (399), a fire extinguisher (124) The ropes 131 and the carbon dioxide of the nonflammable gas 164 and the halon gas 175 in the carbonic acid gas 174 are provided to the structural tube 130 so that the initialization is performed within a few seconds after the injection nozzles and bed nozzles are installed inside and outside the building Disaster control facilities to prevent a number of natural disasters such as forest fires, dust storms, snow storms, typhoons, floods, droughts and landslide earthquakes, and to reduce the scale of fire and disaster prevention. end (1) of the nuclear dual-reactor facility facility (1), the nuclear power generation nuclear waste disposal unit of the nuclear power generation nuclear power plant (811) It is a connection structure of piping lines. Each pump operation method is provided in a pressurized water reactor facility for nuclear waste disposal,

(811) Operation of the Preventive Control Section of the Nuclear Power Generation Facility (811) Operation of Nuclear Waste Treatment for Offshore Nuclear Reactor Double Reactor Reactor Main Unit (1) Distributed input unit consisting of internal automatic pneumatic conveying system connected to pipeline 916) Construction of a double structure reactor with double-structure reactor (1) for treatment of nuclear waste for marine resources, equipped with flood control facilities to prevent many natural disasters, The Nuclear Power Nuclear Waste Treatment Department is composed of disaster prevention equipment disaster prevention devices so as to operate the nuclear power plant of the pressurized water reactor for the nuclear waste disposal of the marine nuclear hydroelectric power plant.

As shown in Fig. 36, in the past, dams are not equipped with the same number of revolutions at the same level as that of a circular water tank, causing landslides in the rainy season, thereby depriving people of their lives and property,

River water As a result of inundation of farmland and neighboring living areas, livestock and industrial complexes, which are equivalent to the above, living and livestock industry wastewater flows into rivers and flows into the sea. As a result, marine creatures move to rivers, Which can cause a great deal of damage to the national economic development, the four major river revitalization projects and the restoration of the world's four major fisheries. Comprehensive measures to efficiently and drastically reduce emissions are urgently needed,

 Therefore, the nuclear waste disposal unit of the nuclear power generation facility (811) composed of the pressurized water type double structure reactor facility main body (1) for processing the nuclear waste for marine resources and the disposal input apparatus of the disaster prevention preventive control unit, And the connection structure of the switch and the piping line. In addition, the nuclear waste disposal unit of the nuclear power generation facility (811), which is a distribution input device of the nuclear power plant, Preventive control system Operation method showing the configuration of nuclear power plant Nuclear power plant's distribution and dispensing equipment Pipeline line Automatic pneumatic transportation system (916) Landscape with connected structures Nuclear power plant equipped with flood control facilities to prevent many natural disasters , Which is composed of a marine nuclear power plant equipped with a pressurized water reactor facility for nuclear waste disposal,

The artificial tunnel device 672a, which constitutes the supply of cooling water and loess mixture,

Providing cooling water and loess mixture for nuclear waste disposal,

(916) In the drought period connected with the connecting structures, the stored water which can be used for 3 years is stored in the dam or the water stored in the storage tank. Water supply is provided to drinking water with agricultural water, hydroelectric power generation water, industrial water, control and disaster prevention water,

As shown in FIGS. 36 to 38, a continuous supply of high quality water resources is provided, and the water storage tank of the flood control system and the distribution input apparatus of the marine hydroelectric dam facility construction machine are separated into the control side and the distribution side, It is divided into departments so that flood control and marine hydroelectric dam facilities of the field are prepared at once,

In the nuclear hydroelectric power plant 811 constituting the flood control,

Hull position movement Power transmission to the construction machinery control and marine hydroelectric power production control section The hazard control section and the harmful red tide prevention control section are equipped with preventative control section for the disaster prevention and control of the fishery and shellfish scattering control section, Nuclear Waste Treatment Pressurized water type double structure reactor facility consists of nuclear waste treatment unit of nuclear power generation facility (811) consisting of main body (1) and disaster prevention and control section.

As shown in Figs. 36 to 38, the nuclear power plant 811 constructed inside the main body 1 of the pressurized water type nuclear water reactor for marine nuclear waste treatment is provided with recovery before and after the failure during operation of the nuclear power plant Hydro-Power Plant's Sea-Shore Hydro-Power Plant (943)

(943a) for the hydroelectric power plant, a Pelton aberration (943b) for the large hydroelectric power plant, and a Francis turbine (943c) for the large hydroelectric power plant are separately connected to the large hydroelectric generator Shiseo hydroelectric power plant (944) In addition,

The marine Seisoh hydroelectric plant (943), which makes up the hydroelectric plant,

A power transmission mechanism including a power transmission line 95, a transformer 96, a power line 71, an air compressor 80, a high pressure storage tank 145, a motor motor body 192, a compressor body 263, a turbine 267, 268), an intake port (269), a watertight passage (270), and a multi-stage pump (8) 811), which consists of the hydro-power station's Marine Seisio Hydroelectric Power Plant (943) facility connection structures that provide recovery before and after failure.

As shown in Figs. 36 to 38, in the hydropower generation equipment distribution input unit of the hydroelectric power plant of the nuclear power generation facility unit 811 constituted inside the main body 1 of the pressurized water type nuclear reactor facility for marine nuclear waste treatment,

The multi-purpose dam (680) and the multi-purpose dam (680), which store the water of the flood control facilities such as the dam and the water gate in the flood and drought in the high reservoir and the river which constitute the conventional hydroelectric power plant (943) Is connected to the through hole of the dam 680 and the rear end of the introduction pipe 191 is connected to the suction port 269 of the head tank 189 having pressure And a plurality of introduction pipes 191 are connected to the discharge port 270 located at the rear end of the head tank 189. The plurality of inlet pipes 191 are connected to a hydraulic power plant located at a lower end of the multipurpose dam 680, The flow of pressurized water into each of the inside of the hydroelectric power plant is rotated and a number of turbines are rotated to provide a hydropower generator for power generation. Is composed of the inner body (1).

Hereinafter, a description will be given of a case where the distribution operation of the nuclear waste disposal unit 811c of the nuclear power generation nuclear waste processing unit or the construction machine included in the nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1, A detailed description of the scope of the nuclear power plant equipment and the distribution input equipment construction machine according to the prior art level constituting the equipment will be given as follows.

As shown in Figs. 39 to 40, a marine nuclear power plant is equipped with a distribution input device for controlling the hull position movement of the marine plant (593, 594, 595) of several marine nuclear power plants constituting the land and marine nuclear power plants, The nuclear waste disposal unit 811a included in the nuclear power generation facility unit 811 constituted by the nuclear waste disposal pressurized water type double structure reactor facility main body 1 and the transportation transport unit 811c of the construction machine are constituted Is a dozer of construction machinery.

The doser constituting the construction machine dispensing /

It is a soil construction machine that is equipped with a straight and angled type asphalt plate on the front part of the tractor and attaches an auxiliary device such as a ripper and a lute to the rear to cut soil and rock. As a compound term of the same bull and the machine for resting the bull, the construction machine 811c of the nuclear power plant 811 includes a doser that provides a powerful pushing work to release the bull from work. It is a construction machine equipped with distribution dispenser.

In the application of the doser, the following description will be given.

As shown in Figs. 39 to 40, a distribution input apparatus constituted inside the main body (1) of a pressurized water type double structure reactor facility for processing a nuclear waste for marine resources, a small, medium and large sized marine nuclear power The hull position of the hydroelectric power plant 811 of the offshore power plant of the marine power plant of the marine power plant of the hydroelectric plant (593, 594, 595) is controlled by the construction machine distribution dispensing apparatus doser constituting the transportation section (811c)

As a general rule, the standard size of the doser is expressed by its own weight (ton or kg), ie its own weight. The economical working distance of the doser is 10100m. The distance between two dozers is less than 100m. As shown in the table below,

The following table shows the power transmission sequence of the doser,

The calculation of the workload of the doser is explained as the following table.

1) Workload per hour:

Where q is the capacity of the earth plate (m ³ ), f is the soil conversion factor

E : Working efficiency () C _m : 1 cycle time (min)

Blade (earth plate) Capacity:

here. Q : Blade capacity (m ³ )

B : Blade width (m)

H : Blade height (m)

 1 cycle time

(Min) L : working distance (m) V ₁ : forward speed (min) V ₂ : reverse speed (m / min) t :

A detailed description of the traction force is as follows.

Here, ((coefficient of friction)

( W : Vehicle weight (kg))

Traction horsepower (H)

only,

The bulldozer 855 constituting the construction machine dispensing apparatus included in the nuclear waste nuclear waste processing unit 811a of the nuclear power generation facility unit 811 and the transportation transport unit 811c of the construction machine,

A crawler type, a dozer 855a and a wheel type, a straight to a dozer 855b, an angle to a dozer 855c and a dilator dozer 855d, a dozer 855e and a hinge, a tree dozer 855g to a dozer 855f, (855h) equipped with Hydraulic Ripper (855i) construction machine connection structure,

The straight rake dozer, constituting the construction machine dispensing apparatus,

Straight, Dozers are attached to the rake instead of the shovel, roots are used only for excavation of rocks,

The backhoe (B a c k o e), which constitutes the construction machine dispensing device,

Piping of pipe wires. It is used for excavation of drainage,

The hydraulic pressure regulator, which constitutes the construction machine dispensing apparatus,

In hard and hard ground, blades are used for crushing, roots, and rock scraping of grounds and pavement that are difficult to excavate,

The towing winch constituting the construction machine dispensing apparatus is used for towing heavy wood, the snow plow constituting the construction machine dispensing apparatus is used for snow removal work, and the skirt loader constituting the construction machine dispensing apparatus is used , Wood, and pump round objects,

And loading of cranes or heavy objects. The lock bucket which is used for loading and transporting and constituting the construction machine dispensing device is dedicated to the loading of rocks,

The shovel constituting the construction machine dispensing apparatus comprises:

The hull location moving construction machinery of the nuclear power plant (811) of the marine power plant of the marine power plant with the control of the hull position movement of the floating portable harness (593,594,595) of small, medium and large sized marine nuclear hydroelectric power plants, The nuclear waste nuclear waste treatment unit 811a of the nuclear power plant nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for ocean nuclear waste treatment for exclusive use for the ocean source and the transportation traffic facility 811a of the construction machine and c).

As shown in Figs. 39 to 40, the distribution input apparatus constituted inside the pressurized water type double structure reactor facility 1 of the nuclear waste treatment for the marine resource is supported by several marine nuclear hydroelectric power plants constituting the marine construction machine The nuclear waste disposal unit 811a of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the sea source exclusive treatment of the ocean source for the control of the hull position movement of the ship 593,594,595, In the construction machine dispensing apparatus included in the transportation section 811c of the construction machine,

(811c) of a construction machine for moving a floating pick-up hull by moving parts of a dozer constituting the construction machine distribution dispensing apparatus, By replacing the device and attaching it,

In the power transmission device 855j of the doser constituting the construction machine distribution dispensing apparatus,

A provision clutch 855q to the idler 855p of the driven wheel and the sprocket 855o of the driven wheel to the cooling system 855m and the final gear device 855n to the intake pump 855k for the cam other device, Of a plurality of marine nuclear hydroelectric power plants comprising the construction machinery included in the transportation section 811c of the hull position shifting construction machine of the nuclear power generation facility section 811, The nuclear waste disposal unit 811a of the nuclear power generation facility 811 constituted by the inside of the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment at a location on the upper part SDU of the hull deck hull deck of the nuclear power plant 811a and 593,594,595, , And construction machines included in the transportation unit 811c of the hull position moving construction machine.

As shown in FIGS. 39 to 40, the conventional nuclear waste nuclear power plant 811a of the reactor facility nuclear power generation facility 811 of the nuclear power plant and the transportation transportation unit 811c of the hull position moving construction machine In the construction machine dispensing device, dozer,

The following is a description of the classification of the doser apparatus of the construction machine of the nuclear power plant to show the composition of the construction control section of the nuclear power generation facility 811 constituting the doser.

As shown in Figs. 39 to 40, a distributing and inputting apparatus construction machine for a reactor installation of a nuclear hydroelectric power plant,

The crawler type dozer 855a and the wheel type dozer 855b are used as the crawler type crawler type crawler as shown in the following table.

As shown in FIGS. 39 to 40, the nuclear power generation nuclear waste treatment unit 811a of the reactor facility nuclear power generation facility 811 of the nuclear hydroelectric power plant and the transportation transportation unit 811c of the hull position moving construction machine Dispenser In doser equipment of construction machine,

The infinite track system,

When the grounding area is wide and the grounding pressure is low, it has a strong excavation ability even on bad terrain, and the ability to climb is good.

Wetland traces make it very suitable for wetland work because of low grounding pressure. It is easy to work underwater to the depth where track can be locked by the distribution and input device construction equipment and doser equipment of nuclear power plant nuclear power plant (811) of nuclear power plant. Do.

As shown in FIGS. 39 to 40, the nuclear plant nuclear waste treatment unit 811a of the nuclear power generation facility unit 811 and the dozer equipment of the construction machine included in the transportation transportation unit 811c of the hull position moving construction machine ,

The tire-type wheeled vehicle has a large grounding area and a large grounding pressure, which makes it impossible to work on wetlands and limbs. However, it has better mobility and mobility than crawler tracked type, and works on a flat ground or pavement. It is effective as doser equipment of distribution input equipment construction machine.

As shown in FIGS. 39 to 40, the nuclear waste nuclear waste processing unit 811a of the reactor facility nuclear hydroelectric power plant 811 of the nuclear power plant and the transportation transport unit 811c of the hull position moving construction machine For construction machinery and dozer equipment,

In the sorting by the working device, the straight dozer 855c and the tilt dock 855d are separated by an angle and a dozer 855e,

Straight doser,

Generally, it is called a dozer and it can not change the shovel. It is used for slitting the upper part of the bladder plate by 10 degrees and cutting it straightly. It is used for the cutting work. (811) of Nuclear Power Plant Nuclear Power Plant Division (811) Distribution Adjustment System Adjustment of excavation force is provided by changing the pitch of the dozer equipment of the construction machine by 10 degrees.

As shown in FIGS. 39 to 40, the nuclear waste nuclear waste processing unit 811a of the nuclear power generation facility 811 of the nuclear hydroelectric power plant and the transportation transport unit 811c of the hull position moving construction machine are installed in the distribution input equipment construction machine In doser equipment,

The angle and the dozer 855e have long and low blades and change the positions of the blades to the left and right by a required angle to provide the functions of the use tilt dozer 855d, straight and dozer 855c, It is suitable for carving and shaving on one side,

In use, it is used for sloping soil work, cutting work, snow removal work, side burial work, trench fill work, pipe burial work, hard ground side cropping work. (811) of the nuclear power plant of the nuclear power plant which is used for the operation of the free ground, the hard land, the side ditch excavation, the rock stone rolling, the V type drainage work, (811c) of the construction machinery, and the doser equipment of the construction machine.

As shown in FIGS. 39 to 40, the nuclear waste nuclear waste treatment unit 811a of the reactor facility nuclear power plant 811 of the nuclear power plant and the transportation transport unit 811c of the hull position moving construction machine In machines and doser equipment,

In the classification by the subsidiary apparatus,

The rake dozer 855h is subdivided into a razor and a hinge, a dozer 855f and a hydraulic dozer 855i, a dozer and a tinner, and a dozer to a dozer,

Instead of a blade, it is a dozer with a rack-type hook-

The application is suitable for picking rocks in farmland clearance and road construction, drawing rocks and tree roots, and carrying large stones at the time of dam construction, and distributing nuclear power plant nuclear power plant (811) It is used as equipment for construction machinery and doser equipment.

The nuclear power generation nuclear waste treatment unit 811a of the nuclear power generation facility 811 of the nuclear hydroelectric power plant and the transportation conveyor 811c tree donor 855g of the hull locomotion construction and construction machine, Quot;

It is suitable for opening and closing work,

The hinge and dozer 855f are suitable for soil, snow removal,

The Hydraulic Ripper (855i) is used when the ground is hard and rigid, making it difficult to excavate. It is used when the excavation is difficult due to the bulging of the bulldozers, the removal of rocks or jade pores which are difficult to blast, and the destruction of asphalt pavement. It is used as the doser equipment of the distribution and input device construction machine of the power generation equipment part 811.

As shown in FIGS. 39 to 40, the nuclear power generation nuclear waste treatment unit 811a of the nuclear reactor hydroelectric power generation facility 811 of the nuclear hydroelectric power plant and the transportation conveyance unit 811c of the hull position moving construction machine, The dozer provides a function of pushing the scraper from behind to give a traction force when the scraper is operated,

The nuclear power generation nuclear waste treatment section 811a of the reactor facility nuclear power generation facility 811 of the nuclear power plant and the transportation transportation section 811c of the hull position moving construction machine 811c ) Distribution dispenser It is advantageous that it is possible to increase the quantity of material to be transported by construction machine and dozer equipment, and it is easy to move and does not harm the packaging.

As shown in Figs. 39 to 40, a distribution input apparatus constituted inside the main body (1) of the pressurized water double-structure reactor facility for processing the nuclear waste for the marine resource is provided with a plurality of marine nuclear power plants (593, 594, 595) for a marine nuclear power plant equipped with a dual structure block tank dust collector for preparing a marine nuclear power plant facility for controlling the displacement of a hull of a nuclear power plant (593, 594, 595) The U-doser constituting the nuclear waste nuclear waste processing unit 811a of the nuclear power plant and the transportation transport unit 811c of the hull position moving construction machine,

Since the blade is U-shaped, there is little overflowing. Nuclear waste treatment for marine resources Double-structure nuclear reactor with pressurized water system Body of nuclear power plant (811) (593,594,595) of the nuclear power plants of the several marine nuclear power plants constituting the nuclear power plant, 811c of the nuclear power plant of the nuclear power plant, 811c of the construction machinery, 811c of the construction machine, Nuclear power plant operating facilities are composed of nuclear power plants.

As shown in Figs. 39 to 40, a galactic apparatus 861q and a shell apparatus 861q constituting the distribution input apparatus construction machine in the ocean are installed inside the pressurized water type double structure reactor facility main body 1 for the nuclear waste treatment for marine resources only. ) And a marine nuclear hydroelectric power plant with a pumping device (861s), a scraping device (861t), a metering device (861u) and a piling device (861v) (593,594, 595) of a small, medium and large sized marine nuclear power plant constituting the construction equipment to the marine. The double structure block tank dust collector of the above nuclear power plant providing marine power plant facilities A nuclear water nuclear power plant having a pressurized water reactor facility for nuclear waste disposal,

In the nuclear power generation nuclear waste treatment unit 811a of the nuclear power generation facility unit 811 and the transportation transport unit 811c of the hull locating construction and construction machine, the distribution machine of the construction machine cable crane 861o,

 (811c) of the nuclear power plant nuclear power plant (811) of the above nuclear power plant The construction equipment cable crane (861o) equipment of the following six units of the following crane, 861p, A hook device 861q, a second clam shell device 861r, a third device, a shovel device 861s, and a fourth device A trench hoe (861u), and a sixth pile diver (861v), which can be used to control the operation of a construction machine. .

The cable crane (861o) equipment constituting the distribution input equipment construction machine,

Moving control and disassembling and assembling of the hull position of the floating ocean tractor (593, 594, 595) of several marine nuclear power plants are provided by the distribution input equipment construction machine,

(1) Internal distribution distribution system The marine power plant of the marine plant of the marine plant (593,594,595) of several marine nuclear hydroelectric power plants making up the construction machinery in the ocean The nuclear power generation nuclear waste treatment unit 811a of the nuclear hydroelectric power plant 811 and the transportation conveying unit 811c of the hull locating and construction machine are installed in the distribution and input device construction machine cable cranes 861o.

The nuclear power generation nuclear waste treatment unit 811a of the nuclear power generation facility 811 of the nuclear power plant and the transportation conveyance unit 811c of the hull locating construction and construction machine,

All six units of the following crane 861p are provided.

The first one is a hook device 861q, the second is a clam shell device 861r, the third is a shovel device 861s and the fourth is a scraping device A drag line (861t), a fifth, a trench hoe (861u), and a sixth, a pile d river (861v).

The cable cranes (861o) that make up the construction machinery,

A nuclear power plant consisting of a double structure nuclear reactor facility (1), which is equipped with a construction machine for moving and disassembling and assembling a hull of a floating nuclear power plant of a number of marine nuclear power plants (593,594,595) (811a) of the nuclear power generation facility (811) that regulates the flow of the marine nuclear power plant, and the transport service of the hull locating and construction machinery to the marine power plant body dock. (593, 594, 595), which are connected to marine nuclear power plant facilities and reactor facilities and double-structure reactor facilities for marine nuclear waste treatment and pressurized water type.

41, as shown in Fig. 41, the nuclear power plant of the conventional nuclear power plant is operated. During the operation of the nuclear power plant, the maximum capacity load is indicated by the tone (ton) Are shown in the table below.

In the six entire devices (working devices) constituting the crane,

First, the crane (galley) is used for general lifting work, loading and unloading of the cargo, and the clamshell (shell) constituting the crane is used for the loading of soil, vertical excavation, , Hopper operation and deep hole digging operation,

The shovel (shovel) constituting the crane is suitable for the construction of the Tosa gullet, the slope of the slope, the loading of the earth and the foundation of the road, and the drag line (scraping) The trench arc (ditch digging) that is built in the crane is suitable for the drainage construction work, the flat excavation and the underwater work vehicle, and the trench arc (ditch digging) The pile drivers used in the cranes are designed to be used for pillar work during the foundation work of the building and for the support work of the bridges. And is a main equipment constituting the transportation unit 811c,

As shown in FIG. 41, the nuclear power generation nuclear waste treatment section 811a included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment and the nuclear hydroelectric power plant The hydro-nuclear power generation control unit 811b, which provides power production showing the configuration of the double pipe structure piping line regulating side 238 of the nuclear waste disposal, is provided with a hull position (593, 595, 595) The nuclear waste disposal unit 811a included in the nuclear power generation facility unit 811 constituted inside the main body 1 of the pressurized water type nuclear waste treatment plant for the marine nuclear power plant, The operation angle of the boom showing the conventional structure constituted in the transportation section 811c of the hull position moving construction machine is as follows.

The minimum limit angle is 20 (but the backhoe is not limited to the minimum limit angle), the maximum limit angle is 78 °, the maximum safety angle is 66 ° 30 'and the normal working angle is 45 ° to 65 °.

And, when the weight of the object is heavy, the length of the boom is shortened and the angle is set large when the crane is operated.

Classification of crane is classified into two types of crane type and truck type.

41, as shown in FIG. 41, the construction machine distributing and dispensing apparatus constituted inside the pressurized water double-structure reactor facility 1 of the nuclear waste disposal dedicated for marine resources is installed in the marine environment of several marine nuclear power plants (593,594,595) In the type of the use application showing the conventional construction constituted in the transportation transportation portion 811c of the hull position moving construction machine of the nuclear power generation facility 811 of the nuclear power plant providing the nuclear power plant facility of the hull position movement control,

The function of the drag cranes constituting the transportation section 811c is,

It is used for the assembly of steel frame of high-rise buildings, the loading and unloading of materials, the loading and unloading of harbors, the structure of the tower crane constituting the transportation section 811c, Function,

It is a crane equipped with a short jib and hammerhead truss on a high tower. It is used in high-rise buildings and construction sites that require high height,

The structure and function of the hydraulic cranes constituting the traffic transportation section 811c are,

The boom can be extended and extended up to 510m, and the hoisting and lowering load is usually 310 tons. It is used for harbor loading and unloading work, civil works, electric pole work, and hoisting of heavy objects.

In the cable crane installation showing the conventional construction constituted in the traffic transportation section 811c of the hull position moving construction machine of the nuclear power generation facility section 811,

The structure and function of the cable cranes constituting the transportation section 811c are not limited to the above-

The trolley is put up by putting a thick cable to the tower at both ends. It is used for conveying concrete and material when dam (Dam) construction,

The structure and function of the derrick crane constructed in the traffic transportation section 811c are,

A steel boom is installed at the bottom of the mast by sloping the boom. The wire rope is passed through the block and the winch is wound up to the weight. The application is used for assembly of the steel frame, foundation work,

As the type of guiderek constructed in the traffic transportation section 811c,

It has the capability of hanging loads on the material beam, the working radius is large, the disassembly is easy, the unloading work, the movement of heavy objects,

The triangular digits constituting the traffic transportation section 811c are,

(593,594,595) of several marine nuclear power plants because it is suitable for the roof work of a narrow place or a building and does not have foundation, and it is easy to move when it is installed on the wheel because it is used for pile hammer work, bridge construction and harbor unloading. (1) Nuclear power plant (811) that regulates the flow of nuclear power generation equipment constituting the inside of the main body (1) (811c) of the Marine Nuclear Hydroelectric Power Plant Body Dock It is connected to the construction equipment of the marine nuclear power station floating docking station which is composed of the hull position movement control unit constituting the upper deck part (SDU) of the ship.

As shown in FIG. 41, in a tractor crane showing a conventional structure,

First, a crane is attached to the upper body of the excavator-based excavator, and a wheel type and a crawler type are provided.

Outriggers, which are connected to construction machines,

It protects the safety and prevents the load from being applied to the tire to prevent wear and tear due to the tire and spring load,

A construction crane (= door crane), which is connected to construction machines,

The crane is equipped with a running rail on the ceiling. It is used for the production and processing of concrete beams. The fixed type is used for loading work at factories and warehouses. However, it is not used for construction works. use.

41, as shown in Fig. 41, the construction of the double-structure reactor facility (1) for pressurized water nuclear waste treatment for marine resources, the hull positioning (593,594,595) (811) of the nuclear power plant (811) inside the main body (1) of the pressurized water type nuclear reactor waste water treatment type pressurized water for the marine nuclear power plant, The chain block 648, which shows a conventional configuration for configuring the memory block 642,

It can be lifted up to 15t o n for unloading. Brake and limit switch are the safeguard for lifting the crane.

The marine crane showing the conventional construction constituted in the traffic transportation section 811c of the hull position moving construction machine of the nuclear power generation facility unit 811,

The marine cranes constituting the transportation unit 811c are,

Transportation and hypothesis of large steel structures of bridges. A drag crane 887 and a crane 888 having a hydraulic crane 885 and a cable crane and a clam shell attachment on a tower crane 886,

The name 886a of the hydraulic crane 885, the tower crane 886,

The triangular deck 886h connected to the traffic transportation portion 811c by the guide deck 886b, the main side 886c, the boom 886d, the boom foil 886e, the turnbuckle 886f and the public network 886g ,

The main side 886i and the boom 886j, the boom foil 886k and the leaks 886l,

The structure 887a of the drag cranes of the drag cranes 887

The hoist cable 887b, the dump cable 887c, the bucket 887d, the lower boom 887e, the letterlet cable 887f and the cable roller 887g, the boom cable 887h and the cable roller 887i, The cable 887j and the cable drum 887k, the cable drum 887l and the parallel weights 887m are connected to the traffic transportation unit 811c,

In the structure of the crane 888 connected to the traffic transportation section 811c having the clam-cell attachment,

The holding line 888a, the opening and closing line 888b, the clam-cell bucket 888c, the upper frame 888d, the lower frame 888e, the rack line 888f, the rope guide 888g and the crowbar 888h, The boom hoist rope 888j, the front drum 888k, the rear drum 888l, and the parallel weights 888m,

Nuclear waste disposal for marine resources consisting of a construction machine that arranges movement control and disassembly of hull position of several marine nuclear power plant flood control stations (593,594,595) The nuclear power plant 811 for regulating the flow of the nuclear power plant showing the conventional construction constituted in the transportation unit 811c of the power generation facility unit 811 and the hull position moving construction machine 811c is installed in the marine nuclear power plant body dock hull deck The construction equipment of the marine nuclear power plant floating structure of the upper part (SDU) is equipped with reactor facilities for connecting with the facilities of the nuclear power plant. 1) inside.

42, the nuclear power generation nuclear waste treatment section 811a included in the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment, The dredger 879, which is included in the double tube structure block piping line adjustment side 238 of the waste treatment and constitutes the transportation section 811c of the hull position moving construction machine,

The pump dredging line 879a and the bucket dredger 879b, which constitute the dredger 879,

Construction machine connection structure The dredger 879 constituting the upper part SDU of the marine power plant body dock hull deck included in the transportation unit 811c of the construction machine of the hull position movement control of the nuclear power generation facility unit 811 is connected to the pump dredger 879a And the bucket dredger 879b to provide a mount to the docking station and the dredger 879 to be mounted on the docking station is provided with a red spot of the spot docker 879c and the red The dredger dredger 879k and the grab dredger 879l are provided with a shear 879e, a spot 879f, a blast tank 879g, a blast pump 879h, a red 879i and an engine room 879j. .

The dredger 879 constituting the floating pickup 879 is connected to the bucket driving device 879m and the rear spot 879n, the spot winch 879o and the bucket 879p, the left and right front spots 879q, ), Winch (879s), anchor storage (879t), belt conveyor (879u) and grab (879v). (811c) of the construction machine of the nuclear power plant 811 to control the movement of the hull of the nuclear power plant 811, a body drilling hull 908 of the crude oil connected to the upper deck portion (SDU) of the nuclear nuclear hydroelectric power plant, A wire rope chain 915 and a double structure pipeline line automatic pneumatic valve transport device (hereinafter referred to as a &quot; pneumatic valve &quot;) 910 are installed in the periscope 913 and the rubber balloon 914 in the seabed mineral intake sampling machine 911 and the submarine mineral collection robot 912, 916) and Koa Drill (917) Distribution machines for construction machinery Construction machinery connection structures And constitutes the collection of seabed mineral manganese nodule 909.

The dredger provided in the conventional marine power plant equipment constituted in the distribution and dispensing apparatus of the transportation transport unit 811c of the hull position moving construction machine of the nuclear power generation facility unit 811,

It is the equipment that constitutes the work of digging the soil in the water. Fermentation. River. In order to increase the depth of waterway and to maintain water depth, we work on the landfill of the shared water surface and the foundation construction of the coastal construction such as rock wall and breakwater. Classification of the dredger is divided into classification by type and ability,

The pump type is classified as non-proprietary by the rated output of the drive engine, and the bucket expression is classified as non-proprietary by the non-proprietary type with the rated output of the main engine and the bucket capacity (m ³ ) It is provided by non-voluntary service with a flat capacity (m ³ ).

42, as shown in Fig. 42, a transportation transport section 811c of the hull position moving construction machine of the nuclear power generation facility section 811, a distribution input apparatus, a construction machine hull locating structure, and a marine nuclear power plant In the dredger provided to the facility,

The pump dredging line (879a), which is classified by capacity, electric and diesel type, steam turbine type and gas turbine type, and which constitutes the structure and use of the dredger,

The structure and purpose of the dredger is to transport the soil to the toe line or to suck up the soil and water by installing the low head pump line when the delivery pipe is difficult to install or the long distance is long,

The angle of movement range of the hull during operation is from 70 ° to 90 °. The standard mark is indicated by the rated output (P S) of the drive engine.

The dredger provided in the marine nuclear power plant equipment constituting the transportation transport section (811c) of the hull position moving construction machine of the nuclear power generation facility unit (811)

For the structure and use of the bucket dredger 879b,

The soil is dredged with dredged soil by using a bucket conveyor and continuously pumped up the soil. The dredged soil is transported by a toe line and used for dredging of large-scale routes and anchorage.

The types are continuous and intermittent, and the continuous type is often used. The standard indication is indicated by the continuous rated output (PS) of the main engine. The characteristics of the dredger (879b) are shown in the table below.

As shown in Fig. 42, the dredger provided in the marine nuclear power plant equipment constituting the transportation transport unit 811c of the hull position moving construction machine of the nuclear power generation facility unit 811,

The structure and use of the dewar dredger 879c, which constitutes a marine nuclear power plant,

It is used for dredging strong and hard ground or broken rock. The standard indication is indicated by bucket capacity (m ³ ) and its characteristics are explained as below table.

As described above, in the collection of the seabed mineral manganese nodule 909 in the dredger provided in the marine nuclear power plant facility,

Distribution Apparatus The above-mentioned nuclear waste disposal type double-structure reactor facility body (1) for the marine nuclear power plant equipment for the adjustment of the hull position movement of the floating consoles (593,594,595) of several marine nuclear power plants constituting the construction machine to the ocean (811a) included in the nuclear power generation facility unit (811) constituting the inside of the nuclear power plant, and the hull position The crude oil-boring drilling machine 908, showing the construction machine position adjustment arrangement of the shift control,

A wire rope chain 915 to the periscope 913 and a rubber balloon 914 in the seabed mineral deposit collecting machine 911 and undersea mining collecting robot 912 in the undersea mineral deposit net 910 and a double structure pipeline line automatic pneumatic valve (916) and the co-drill (917) construction machinery. It is equipped with construction machinery connection structures to collect seabed mineral manganese nodules (909).

As shown in FIG. 42, the marine nuclear waste treatment pressurization apparatus for preparing the marine nuclear power plant facility for controlling the hull position movement of the marine plant (593, 594, 595) of several marine nuclear power plants constituting the distribution input apparatus construction machine in the ocean A nuclear reactor nuclear waste treatment unit 811a included in a nuclear power generation facility 811 constituted of a water type dual structure reactor facility main body 1 and a double pipe structure block pipeline adjustment side 238 of a nuclear waste treatment facility of a nuclear power plant And a crusher (874) connection structure showing the construction machine position control arrangement of the hull locomotion control of the levitation consoles.

The crusher (874)

The first jaw crusher 874e of the shredding head 874a and the chassis frame 874b and the feeder hopper 874c and the vibration grease repeater 874d and the second jog crusher 874f of the shredding chamber A crusher 874 having vibrating screen 874g and drum elevator 874h connection structures provides for use in aggregate layer compaction in road and concrete construction.

It is used in all kinds of crushing works with the function to make and supply crush stone as a machine to crush the ore by equipped with the construction machinery of the transportation transportation part (811c) of the hull position moving construction machine of the nuclear power generation equipment section (811) It is used in production. In the future, it will go through the first screening process of the mining ore of the submarine.

The types of crushers are separated into primary, secondary, and tertiary crushers. The description of each part of the primary crusher is as follows.

As shown in FIG. 42, the marine nuclear waste treatment pressurization apparatus for preparing the marine nuclear power plant facility for controlling the hull position movement of the marine plant (593, 594, 595) of several marine nuclear power plants constituting the distribution input apparatus construction machine in the ocean A nuclear reactor nuclear waste treatment unit 811a included in a nuclear power generation facility 811 constituted by a water type dual structure reactor facility main body 1 and a double pipe structure block pipeline adjustment side 238 of a nuclear waste treatment facility of a nuclear power plant The construction crusher is a machine that is crushed by compressive force. When the rock is inserted between the jaws on both sides, the one side is fixed and the other side is fixed. The stone is crushed, and the stone comes down in the direction of discharge by the magnetic gravity and pushing force. Such a creep (J aw) The pomegranate is also made in a structure that can be crushed.

As shown in FIG. 42, the marine nuclear waste treatment pressurization apparatus for preparing the marine nuclear power plant facility for controlling the hull position movement of the marine plant (593, 594, 595) of several marine nuclear power plants constituting the distribution input apparatus construction machine in the ocean The nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility 811 constructed inside the water type dual structure reactor facility main body 1 and the double pipe structure block pipeline line adjustment shaft 238 for the nuclear waste treatment of the nuclear power hydroelectric power plant, The gyretorie crusher,

It is made of cast iron or steel and consists of a lower frame eccentric shaft and a drive gear. In the crushing section, there is a hard crushing head on the vertical crushing shaft, which crushes the crushing material while rotating and then discharging to the bottom of the crushing chamber. This crusher has the advantages of less vibration and continuous crushing compared to a jaw crusher. It has the upper part of the machine as a discharge port and the lower part as a discharge port, so that a gravel input hopper can be installed and loaded on a dump truck There are advantages. And the hammer crusher of the impact crusher is loaded with a large number of disks on one rotary shaft, and when a rectangular hammer is hung around the hinge and is rotated rapidly, the stones are hit and crushed by the hitting force at this time.

As shown in FIG. 42, the marine nuclear waste treatment pressurization apparatus for preparing the marine nuclear power plant facility for controlling the hull position movement of the marine plant (593, 594, 595) of several marine nuclear power plants constituting the distribution input apparatus construction machine in the ocean The nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility 811 constructed inside the water type dual structure reactor facility main body 1 and the double pipe structure block pipeline line adjustment shaft 238 for the nuclear waste treatment of the nuclear power hydroelectric power plant, The construction machines,

The cone crusher of the second crusher has an umbrella-shaped cone-mantle head placed on a short vertical spindle, and the stone is sandwiched between the cone curve balls provided in the frame by the eccentric motion of the crusher, The structure is somewhat complicated, and there is little slip in which the crushed stone flows down as it is, so that the crushing ratio is relatively large, and the impact force and compressive force are provided,

Compared to the Zaireetori crusher, it has the advantage of producing a standard product with a short length, a small size of the supply port, and a largest size of outlet gap size,

The hammer mill crusher's double roll crusher is suitable for mass production of certain aged aggregates.

Two lightweight rolls are fixed on separate horizontal axes, and the spacing is freely adjustable. At the same time, the rolls are arranged in parallel, but the rotation is made to rotate in opposite directions, The rolls are crushed while passing between the rolls, and these rolls have a main function of compression fracturing and discharging, and are often used in the production of packing aggregate.

As shown in Fig. 42, the above-mentioned marine nuclear waste treatment (hereinafter referred to as the "marine nuclear waste treatment"), which provides a marine nuclear hydroelectric power plant facility for controlling the hull position movement of the marine plant of the marine nuclear power plant constituting the distribution input apparatus, The nuclear reactor nuclear waste treatment section 811a included in the nuclear power generation facility section 811 constituted inside the pressurized water type dual structure reactor facility main body 1 and the double pipe structure block pipeline line control shaft 238 The rod mill of the third crusher 874 is a construction machine that produces fine aggregate of 5m or less,

The ball mill is a machine for producing rod mills and ball mills as aggregates of crushed stones as a re-aggregate material. A rod of short round rod is inserted into a forced round drum, and fine aggregate is continuously supplied to the drum with water, The water is milled and then pulverized and then flowed out. It is relatively uniform in particle size. When the water is small, it is crushed finely. When the water is large, the roughness of the particle size is large. Dry or generally wet.

As shown in FIG. 42, the marine nuclear waste treatment pressurization apparatus for preparing the marine nuclear power plant facility for controlling the hull position movement of the marine plant (593, 594, 595) of several marine nuclear power plants constituting the distribution input apparatus construction machine in the ocean The nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility 811 constructed inside the water type dual structure reactor facility main body 1 and the double pipe structure block pipeline line adjustment shaft 238 for the nuclear waste treatment of the nuclear power hydroelectric power plant, The construction machines,

The ball mill differs from the rod mill in that it puts a steel ball in a cylinder and rotates to obtain new aggregate.

Its standard indication is to display the crushing capacity per hour in tonnes (TPH).

As mentioned above, it is a machine that makes crushed stones smaller and makes crushed stones. It is used in all crushing works and mainly used for the production of aggregates. The power source 46 of the engine generator 226 treats nuclear waste. The use of the device 941 is set for a period of time before the completion of the device 941,

A submarine mineral intake sampling machine 911 and a submarine mineral harvesting machine 911 are installed in a crude oil drilling machine 908 and a submarine mineral deposit net 910 connected to an upper part SDU of a body of a marine power plant dock, A wire rope chain 915 and double structure piping line automatic pneumatic valve transport device 916 and a core drill 917 to a periscope 913 and a rubber balloon 914 in a robot 912 The rod mill of the crusher 874, as a machine for crushing and reducing the seabed mineral manganese nodule 909 gemstones collected as structures,

Since it produces fine aggregate of 5m or less,

The rod mill and the ball mill are machines for producing crushed stones as fine aggregates. The new aggregate crushed stones are supplied to the transportation transport section (811c) of the hull locating and construction machine of the nuclear power generation facility (811) and the hydroelectric power production control section The transmission control section and the harmful red tide prevention control section are equipped with the disaster prevention preventive control section and the fishery and shell scattering control section as the dam structure for the hydrological control and control section, .

As shown in FIG. 42, in the classification by the construction machine auxiliary equipment provided in the transportation transportation part 811c of the hull position moving construction machine of the nuclear power generation facility unit 811,

The rake dozer 855h is divided into a shovel 855g and a hydraulic raiser 855i in the dozer 855f and a U dozer in the dozer and the Tina dozer 855h,

It is suitable for picking rocks during farmland clearing and road construction, drawing brushes and tree roots, and carrying large stones when constructing dams. It is used for hard land digging.

As shown in FIG. 42, the marine nuclear waste treatment pressurization apparatus for preparing the marine nuclear power plant facility for controlling the hull position movement of the marine plant (593, 594, 595) of several marine nuclear power plants constituting the distribution input apparatus construction machine in the ocean The nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility 811 constructed inside the water type dual structure reactor facility main body 1 and the double pipe structure block pipeline line adjustment shaft 238 for the nuclear waste treatment of the nuclear power hydroelectric power plant, The construction machine tree doser 855g,

The hinge and the dent 855f are suitable for soil removal, snow removal and soil transfer, and the hidic reaper 855i is suitable for grounding, It is used for the removal of asphalt pavement and rocks or rocks that are difficult to excavate, difficult to blast, and asphalt pavement.

As shown in FIG. 42, the nuclear waste nuclear waste treatment unit 811a included in the nuclear power generation facility unit 811 constituted inside the pressurized water type double reactor facility main body 1 for marine nuclear waste treatment and the nucleus of the nuclear hydroelectric power plant The construction of the double pipe structure of the waste disposal block The piping line (238) of several marine nuclear hydroelectric power stations, the floating hood of the marine nuclear power plant (593,594,595) (811c) The pusher, dozer,

The scraper is provided with a function of pushing the scraper from the back to give a traction force, and the tundra or the dozer is faster than the infinite track type with the low pressure rubber tire type and the dozer, and the carrying amount can be increased. Also, it is easy to move and does not harm packaging.

42, the nuclear power generation nuclear waste treatment section 811a included in the nuclear power generation facility section 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment, In the marine nuclear power generation control section 811b that provides the power production constituting the double pipe structure piping line regulation side 238 of the waste treatment,

The U-Dozer, which provides marine power plant facilities to control the hull position of the marine plant (593,594,595) of several marine nuclear power plants that constitute the marine nuclear power generation production control department of the marine nuclear power generation, (811c) of the hull locating and construction equipment to construct the marine nuclear power plant. (811c) Marine nuclear power plant body dock equipped with construction machinery Marine nuclear power plant consisting of the upper part of the ship deck (SDU) Nuclear Waste Treatment for Nuclear Power Plant It is composed of marine nuclear power plant equipped with a pressurized water double reactor facility.

As shown in FIG. 43, the nuclear power generation nuclear waste processing unit 811a included in the nuclear power generation facility unit 811 constituted inside the marine nuclear hydroelectric power plant having the pressurized water reactor facility for processing nuclear waste, The construction of the marine hydro-nuclear power generation production control unit 811b for generating the power production constituting the double piping structure piping line regulation side 238 of the waste treatment and the transportation transportation unit 811c of the construction machine hull positioning and construction & In construction machines,

Moving the hull position of the nuclear power plant (811), which provides marine power plant facilities for hull position movement control of the floating harvester (593, 594,595) of several marine nuclear hydroelectric power plants constituting the construction machinery to the ocean. 811c includes an excavator 856 and a hydraulic tank 819 having a connection structure constituting the position adjustment of the construction machine of the hull position movement control, and a radial plunger pump 148b of the plunger pump 148, (148c) In the construction machine connection structure,

A tank 819d, a partition plate 819e, a suction strainer 819f and a top plate packing 819g constituting the hydraulic tank 819 and an oil level meter 819b, a drain 819c, a tank bottom plate 819d, And is provided with a packing 819h, a suction port lid 819i, a tank top plate 819j, an air blulger / oil port 819k, a tank leg plate 819l and a cleaning window packing 819m so that the hydraulic motor 820, (821) to treat the nuclear waste for marine resources, pressurized water type double structure reactor facility The hull position of the nuclear power generation facility (811) constituted inside the main body (1) Transportation transportation part of construction machine (811c) Construction machines The main body of the Marine Nuclear Power Plant consists of a distributing unit for controlling the displacement of the marine nuclear power plant levitation hood located at the upper part of the deck (SDU).

As shown in Fig. 43, the baffle type plunger pump 148b of the plunger pump 148, which is composed of construction transportation machines 811c of the hull position moving construction machine of the nuclear power generation facility 811, In the equipment of the plunger pump 148c,

The plunger pump 148, which is provided as pumps constituting the pumping action by the reciprocating motion of the plunger as a plunger and is suitable for the high-pressure pump,

Called a rotary pump 337 constituting a pump or a motor of a type and roughly divided into a liquid type and a radial type according to the relative relationship between the reciprocating motion direction of the plunger and the drive rotation direction,

The crank-type piston pump, which constitutes the rotary pump 337,

Although it can be thought of as a kind of radial type when it is classified as a motion of a piston, since it is considerably different from other pumps in structure, it is classified into one independent type.

As shown in Fig. 43, in the rotary type pump 337 constituted by the construction transportation machines 811c of the hull position moving construction machine of the nuclear power generation facility 811,

Since the mass of the reciprocating part is extremely small, or there is no reciprocating part at all, high-speed operation (usually 3000 to 4000 rpm, larger than 15,000 rpm) is possible.

Therefore, a relatively high-pressure, high-performance pump can be obtained.

Since the pump having a plurality of plungers is operated at a high speed, the pulsation of the delivery oil is extremely small and the vibration is relatively small, so that a relatively smooth operation is possible.

In addition, a variable-displacement type mechanism can be easily obtained.

As shown in FIG. 43, a transportation transport unit 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste for exclusive use in an offshore source, Construction of the hull position of the nuclear power plant (811), which provides marine power plant facilities for the adjustment of the hull position movement of the floating ocean tractor (593,594,595) of several marine nuclear power plants constituting the construction machinery to the ocean Since the diameter of the plunger composed of the machines is relatively small, the stroke is small, and the machining accuracy is easy to obtain, a pump of high volumetric efficiency can be obtained.

Thus, the plunger pumps on the market today is the delivery pressure 700~350k g _f / cm ^2, songchulryang 10~50ℓ / min, usually in the 80-90% efficiency.

The crank-type piston pump, which is composed of the construction-machinery of the transport transportation portion 811c of the hull position moving construction machine of the nuclear power generation equipment section 811,

In recent years, there have been many low-speed and large-sized machines. Recently, high-speed rotation, high-pressure and small feed rate have been developed and are widely used for general industrial and special purposes because of their small size, high efficiency and simple structure.

The structure and features of the liquid type plunger pump 148a include,

The plunger is inserted into a cylinder block arranged in parallel with the axial center on a circumferential phase constituted around the axial center and reciprocates by a mechanism such as a tilt or swash plate between the axial center and the drive shaft to constitute a pumping action. We divide by large.

As shown in Fig. 43, the cylinder block constituting the cross section of the swash plate type axial piston pump, which is provided with the transportation transportation portions 811c of the hull position moving construction machine,

And the piston in the cylinder constitutes rotation together with the swash plate in accordance with the rotation of the drive shaft,

In the swash plate type constituting the cross section of the pump,

Since the structure is simple and the number of parts is small as compared with the boss shaft type, it is small and lightweight, and its price is low, and its structural rotating weight is concentrated around the shaft, so it is suitable for high speed rotation and is widely used in construction vehicles and cargo handling machines.

As shown in FIG. 43, a transportation transport unit 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste for exclusive use in an offshore source, Construction of the hull position of the nuclear power plant (811), which provides marine power plant facilities for the adjustment of the hull position movement of the floating ocean tractor (593,594,595) of several marine nuclear power plants constituting the construction machinery to the ocean (861b) for the ripper and router (856g) consisting of the machines, all six devices (861p) and drag cranes (887) of the cranes, and construction machine connection structures for the marine power plant body dock. SDU) of the marine nuclear power plant equipped with a pressurized water reactor facility for the treatment of nuclear waste, And a traffic transportation section 811c of the hull position moving construction machine of the entire facility section 811. [

As shown in FIG. 43, a transportation transport unit 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste for exclusive use in an offshore source, A hull position transfer construction unit 811c of a nuclear power generation facility 811 for providing a marine power plant facility for hull position movement control of a floating harvester (593, 594, 595) of several marine nuclear hydroelectric power plants constituting a construction machine in the ocean, A seal 156 is attached to a shaft bar formed in a cylinder 126 used as a construction vehicle or a conveying machine constructed of construction machines. A high pressure pump in front of the cylinder 126 and a high pressure hose 190 A coupling block 249 used as a coupling device to the crank 248 and a coupler 29, a crank 248 constituted by each valve device, (811c) of the hull position shifting construction machine of the floating dock top structure (SDU) constituting the marine nuclear hydroelectric power plant body dock provided with the pressurized water reactor facilities for the nuclear waste disposal of the marine nuclear power plant having the dust collector And a heavy load unit 249 connected to the upper portion SDU of the ship hull deck.

44, the number of marine nuclear power plants constituting the nuclear power generation nuclear waste treatment section included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment, (SDU) of the marine power plant body dock hull deck upper part (SDU) provided with the transportation transportation parts 811c of the hull position moving construction machine of the nuclear power generation facility 811 constituting the marine power plant facility of the hull position movement control of the marine docking station 593, Shaped dozer 855a of a bulldozer 855 and a wheel-shaped dozer 855b of a bulldozer 855 constituting a construction machine position adjustment of a marine hydroelectric power plant flood control station constituted by a straight type dozer 855c, A dozer 855e and a hinge 855d on the dozer 855d and a construction machine connection structure 855i on the razor 855h and a tree dozer 855g on the dozer 855f, phrase (1) of a pressurized water type double structure nuclear reactor treatment plant having a double structure block tank dust collector for marine resource treatment.

Straight rake dozer that constitutes attachment device of bulldozer is attached to bulldozer constituting reactor of pressurized water reactor for nuclear waste disposal, and it is used for excavation of rock by attaching rake to straight, dozer with rake instead of shovel, The back hoe that constitutes the attachment of the bulldozer is the buried hole of the pipe wire. It is used for excavation of drainage pipes. Hydraulic pressure regulator, which is used for excavation of bulldozers, is used for crushing, roots and rock scraping of grounds and pavements which are hard to excavate from hard and hard ground to blades, The towing winch is used for traction of heavy wood, the snow plow which constitutes the attachment part of the bulldozer is used for snow removal work, and the skirt loader constituting the attachment device of the bulldozer is used for carrying the round object of wood and pump. Using, and loading of cranes or heavy objects. The shovel which constitutes the attachment device of the bulldozer is used for the loading and the hauling, and the lock bucket constituting the attachment device of the bulldozer is dedicated to the loading of the rock,

The hull location of the offshore plant facility (811) of the marine power plant with the control of the hull position of the marine plant (593,594,595) of several marine nuclear power plants constituting the offshore of the mountain or cliff excavation, Dedicated Nuclear Waste Treatment Pressurized Water Type Double Structure Reactor Main Unit (1) Nuclear Power Plant Nuclear Power Plant (811) consisting of the inside of the hull Location moving construction machine traffic transportation section (811c) Construction machine distribution input devices.

As shown in FIG. 44, a distribution input device construction machine composed of a marine nuclear power plant equipped with a pressurized water reactor for nuclear waste disposal is installed at the hull position (593, 594, 595) of several marine nuclear power plants constituting the ocean, The bulldozers 855 included in the transportation portion 811c of the hull position moving construction machine of the nuclear power plant 811 constituting the offshore power plant of the movement control,

The equipment of the transportation section 811c of the floating construction hood position moving construction machine constituted by the dozer power transmission device parts of the construction machine,

The attachment device of the bulldozer constituting the equipment of the transportation section 811c can be replaced with the attachment device and the suction pump 855k for the cam other device constituting the power transmission device 855j The dozer power transmission device parts of the provision clutch 855q construction machine to the cooling system 855m in the engine 855l and the sprocket 855o of the driven wheel and the idler 855p of the fluidized wheel in the final gear device 855n (2) Nuclear waste treatment for marine resources (2) Pressurized water type double structure reactor facility (1) The marine nuclear power plant body dock hull provided by the transportation section (811c) And a transportation transport section 811c of the hull locating and construction machine of the floating consoles (593, 594, 595) of several marine nuclear power plants constituting the upper deck section (SDU).

45, a plurality of marine nuclear power plants (593, 594, 595) of a marine nuclear power plant included in a nuclear power generation facility unit (811) constituted inside the pressurized water type double structure reactor facility main body (1) Hull position transfer of the nuclear power plant 811 constituting the marine nuclear hydroelectric power plant of the position control system of the marine nuclear power plant provided by the transportation transportation part 811c of the construction machine The marine nuclear power constituting the upper part of the deck of the ship (SDU) A crawler type dozer 855a showing a construction machine position adjustment arrangement of the hull position movement control of the power station levitation stand and a pile driver 852 and a scraper 855a on a wheel type dozer 855b and an excavator 856 and a skimmer 856f. ) Constitutes a central portion of the scrapers 859 as a container for transporting the gravel 812, and a ball is attached to the lower surface in the proceeding direction, Put the ball on the excavation surface with its own device to prepare the excavation and loading.

As shown in Fig. 45, the power transmission device parts of the dozer, which are composed of the traffic transportation parts 811c of the hull position moving construction machine of the nuclear power generation facility part 811,

(811) consisting of the inside of a marine nuclear power plant equipped with a pressurized water reactor facility for nuclear waste disposal, consisting of the hull dock top deck (SDU) (811c) of the ship, which is arranged at the upper part of the ship's deck (SDU) of the marine power plant body,

It is called "carol" which is called "carol" which is larger than bulldozer and is called "carol". It is a machine for mass excavation work. It is possible to carry out 5 consecutive works such as excavation, loading, transportation, (1) of the nuclear power plant (811) constituted inside the main body (1) of the pressurized water type nuclear reactor equipped with components for the nuclear waste treatment for the ocean source, the power of the doser provided in the transportation section (811c) And transmission device parts.

As shown in Fig. 45, the hull position of the nuclear power plant 811 constituted by the power transmission device parts of the dozer of the construction machine and the interior of the main body 1 of the pressurized water type nuclear reactor waste treatment- The equipment of each name of the motor grader 862 constituted by the power transmission device parts of the dozer provided with the transportation transportation parts 811c of the mobile construction machine,

A cooling fan 862c is attached to the engine flywheel 862b and a transaxle 862e and a fixed gear type transmission (not shown) are attached to the front and rear transmission lugs 862d, And a motor grader 862 provided with a gear reducer 862i in the differential gear 862h and a tumble drive 862k in the disc brake 862j,

In order to control the movement and disassembly and assembly of the marine habitats of several marine nuclear power plants (593,594,595) of marine nuclear power plants, the nuclear power plant (811 ) Of the dozer that are provided with the transportation transport parts (811c) of the hull position moving construction machine of the dozer.

The motor scraper composed of the construction transportation machines 811c of the hull position shifting construction machine of the nuclear power plant 811,

Since it is different from the fact that it is equipped with power by combining the vehicle type tractor and the scraper frequently,

It is able to carry a lot of soil to excavation and excavation, and to cut thin land surface of smooth terrain consisting of loamy soil and loam. Tossa (812). Cutting, loading, transporting and embankment work can be done,

Usage is not transported by pushing the soil (812).

As shown in Fig. 45, the standard (capacity) of the ball is expressed by m ^{3 in the specification} , and the power transmission order is described as the following table.

As shown in Fig. 45, the detailed description of the classification of the scrapers 859 will be described with reference to the following table.

[Comparison between pull-type scraper 859a and power-type scraper 859b]

As shown in FIG. 45, a retractable scraper 859a and a powered scraper 859b, which are classified as a scraper 859, are installed in the interior of the main body 1 of the pressurized water reactor for nuclear waste treatment, And a transportation transport section 811c of the hull position moving construction machine of the nuclear power generation facility 811 constituted by the construction machine.

45, as shown in FIG. 45, the distribution input device constituted inside the pressurized water double-structure reactor facility 1 of the nuclear waste disposal dedicated for the marine source was installed in the oceanic nuclear power plant of the oceanic power plant (593,594,595) In the air front 859c facility provided by the transportation section 811c of the hull position moving construction machine of the nuclear power generation facility 811 constituting the marine power plant facility of the hull position movement control, It is installed on the front of the ball and serves to prevent the slip of the ball (812) from flowing down. It moves up to the load and satosity. And the disassembling assembly of the ball 859e and the cutting tail 859f to the air plenum 859c and the ejection 859d to provide power transmission devices for the construction machine and the dozer, And a construction transportation machine 811c of the hull position moving construction machine of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1.

45, as shown in FIG. 45, the distribution input device constituted inside the pressurized water double-structure reactor facility 1 of the nuclear waste disposal dedicated for the marine source was installed in the oceanic nuclear power plant of the oceanic power plant (593,594,595) It is possible to improve the accuracy of finishing and improve the efficiency of finishing by improving the straightness due to the work properties provided by the transportation units 811c of the hull position shifting construction machine of the nuclear power generation facility 811 constituting the marine power plant facility of the hull position movement control,

The motor grader 862, which constitutes the movement control and disassembly assembly of the hull position of the marine hydroelectric power plant floodgate,

The nuclear waste treatment for marine resources is composed of the construction equipment of the pressurized water type double structure reactor facility (1) and the transportation transportation part (811c) of the hull position moving construction machine of the nuclear power generation facility (811)

An air plunger 859c, an ejector 859d, a ball 859e, and a disassembling / assembling unit 859f constituting the displacement control assembly and disassembly assembly of the marine power plant lifting console,

Construction of nuclear power plant for dozer of construction machinery Dozer nuclear waste treatment for marine resources 2) Pressurized water type double structure reactor facility (1) Transfer of hull position of nuclear power plant (811) 811c) equipped with nuclear power plants are equipped with construction machines.

As shown in FIG. 46, a construction machine included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment, (593, 594, 595) to the ocean.

Nuclear waste disposal for marine resources Nuclear waste water pressure type double structure Reactor main body (1) Hull position of nuclear power generation facility (811) constituted inside (811c) Construction machine shovel type excavator In addition to using as the excavating machine as the oldest loading machine from the year before, there is also a front attachment to install excavators and crane work which constitute a lot of attachments with a shovel and a crane that make up a lot of works in multi purpose machines. The upper rotating body is capable of turning 360 degrees and the structure of the excavator (856) of the three major components is described as follows.

46, in the outer structure of the excavator 856 and in the classification of the excavator 856,

The crawler type, which is constituted in the traveling device, and the crawler type, which is constituted by the wheel mounted type and the truck mounted type,

It is easy to operate in a place with large pulling force and narrow place, and it is easy to operate wetlands, limbs and slopes, has excellent stability, is difficult to travel on pavement, has a slow speed of 3.2 km / hr,

In the wheel type of the traveling device,

It has a good running speed of pavement, bridges, and easy to move the workplace. It has a running speed of 40 km / h r and its working efficiency is 30% ~ 35% higher than that of big roller type.

The truck mounted type constituting the traveling device,

The running speed is about 60 km / h r, but the maneuverability is good, but the work efficiency is low.

As shown in FIG. 46, in the classification according to the operating method provided by the construction machines,

It is divided into manual type and hydraulic type by air type and electric type. In classification by size,

Small and medium sized, while separated into large and small,

Rail, and trailer, and it has a weight of 20 tons or less as a limit that can be loaded round.

As shown in Fig. 46, in the performance display method of the excavator 856 constituted by construction machines,

The capacity m of the buckets 856a, the power shovel 856b, the drag line 856c, and the clam shell 856e,

The earth drill 856d,

Indicated by the excavation diameter,

The file driver 882,

The weight of the hammer,

The crane 861,

The maximum hoisting load is represented by (t o n), and the workload calculation formula of the shovel 856b, backhoe 856a, drag line 856c, and clam shell 856e is as follows.

As shown in Fig. 46, is a backhoe 856a distributing and inputting apparatus of a construction machine constituted inside a marine nuclear hydroelectric power plant equipped with a pressurized water reactor facility for nuclear waste disposal.

The backhoe 856a, which constitutes the dispensing device, is used for lower excavation than the working position and is used for foundation excavation of rivers and construction, and can be loaded on conveying equipment higher than the machine while excavating lower side than the trench digging machine The backhoe 856a is suitable for disaster prevention and prevention piping line installation for preventing large-scale forest fires,

The power shovel constituting the distribution dispensing apparatus,

It is suitable for excavation higher than working position in circular shape. It is used for cliff drilling.

As shown in Fig. 46, the hydraulic excavator of the construction machine constructed inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment,

The first is that the structure is simple, the second is that the front is easy to exchange and travel, the third is easy to repair and operate, and the machine rope is better at all ends.

46, in the drag line 856c of the construction machine constituting scraping into the marine nuclear hydroelectric power plant equipped with the pressurized water reactor facility for nuclear waste disposal,

First, the work radius was large and it was easy to underwater excavation. Next, it was used to excavate the area lower than the ground widely,

Finally, it was not suitable for hardened ground or gravel extraction.

46, a construction machine constituting an earth drill 856d inside a marine nuclear hydroelectric power plant equipped with a pressurized water reactor for nuclear waste disposal,

The earth drill 856d constituting the construction machine is used for adjusting the on-site spreading by drilling a deep hole of a large diameter with no noise. The earth drill 856d is used for adjusting the on- The barge hull 592 is provided for installing the bridge,

The crane that constitutes a construction machine is used for unloading of heavy objects and for high construction work. Instead of a bucket, a hook is installed and a heavy load is lifted. The pile driver (882) The clam shell (856e) equipment, which is used for installing concrete piles and sheet piles and is suitable for installation of piers by piling, is a mechanism suitable for excavation of certain places such as underwater excavation and explosion work. And it was used for vertical excavation deeply in a narrow place under the ground,

It is suitable for re-use of manganese nodule (909) and it is widely used for digging gravel, sand and soil and loading it on dump truck. It is not suitable for digging of hard ground,

The trenchers that make up the construction machinery are suitable for construction machines equipped to dig ditches.

As shown in Fig. 46, the working range of the excavator provided with the construction transportation machines 811c of the construction machine constructed inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment,

The maximum excavation depth is the distance from the surface to the tip of the bucket tooth when the tip of the bucket tooth is lowered to the lowest position. The maximum excavation radius (= maximum working radius) is the maximum horizontal distance of the bucket tooth from the center of the circle drawn when turning, The dump height was the maximum ground clearance.

Nuclear waste disposal for marine resources Treatment of pressurized water type double structure reactor facility (1) Transportation construction part of construction machine inside (811c) Construction and function of skimmer (856f)

It is a construction equipment that slides off the surface of a bucket, which is composed of a boom on a revolving stand and is moved by the force of a chain. It is suitable for thin excavation in a narrow place. It is used for a thin excavation in a narrow place where it is difficult to work with a large machine. Respectively,

Construction of the control of the hull position of the marine nuclear power plant lifting platform The control of the position of the hull of the marine nuclear power plant (593,594,595) of the marine nuclear power plant constituting the upper part of the body deck of the marine nuclear power plant (SDU) (811c) of construction machinery, and consists of two types of double structure nuclear reactor facilities for nuclear waste disposal for marine resources.

46, as shown in FIG. 46, a ripper and a router (856 g) constituted by the construction transport machine 811 c of the construction machine constructed inside the main body 1 of the pressurized water double- In structure and function,

The Ripper and Luther (856g), which consist of construction equipment, are used when the ground is hard and rigid, making it difficult to excavate. It attaches to the back of a large bulldozer and uses its own weight of 23 toe scraper to scrape hard ground That is,

For its use, it shall be used for the removal of tree roots, asphalt, concrete pavement, and rock or stone pavement.

As shown in FIG. 46, in a crane (crane, 861) equipment constituted by construction machines constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

It is called a crane. It is called a crane. It is used for lifting and lowering of heavy objects, crushing work by using other work equipment, heavy use for collecting waste iron and building construction, and moving and transporting of earth, stone, Hook, clam shell, dragline All the structures and basic three-part names used for the installation of the device are explained as follows.

46, as shown in FIG. 46, the distribution input apparatus constituted inside the main body 1 of the pressurized water double-structure reactor facility for the treatment of the nuclear waste for the marine resources, (1) Internal structure of the nuclear power plant (811), which is located inside the hull. (2) Transportation of the construction machinery (811c) Cranes provided by construction machines (861) The structure and name 861a are the same as those shown in the drawings except for the hook 18.

Marine nuclear waste disposal treatment Pressurized water double structure reactor facility Main body (1) Hull position transfer of nuclear power generation facility (811) constituted inside Internal transportation part of construction machine (811c) Construction part of crane or crane structure The name,

An extension cable 861b constituting a crane structure, a breech 861d in a load system 861c, a canopy 861f in a boombox 861e, an upper frame 861h in a boom hoist rope 861g, The hoisting rope 861j is attached to the frame 861i and the middle drum 861l is attached to the front drum 861k and the balance weights 861n are attached to the rear drum 861m. And a construction machine included in the transportation section 811c of the hull position moving construction machine of the nuclear power generation facility 811 constituting the inside of the reactor facility main body 1 to constitute the reactor facility of the nuclear hydroelectric power plant.

As shown in FIG. 47, the equipment control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste processing, ),

(593, 594,595) of several marine nuclear hydroelectric power plants constituting the construction machinery in the marine environment, the marine nuclear power plant for the marine power plant control of hull position movement control, (859c) equipment consisting of a transportation transportation unit (811c) construction machines of a hull position moving construction machine of a nuclear power generation facility unit (811)

It is installed on the front surface of the ball constituting the air front 859c facility and the role of providing the gravel 812 of the ball not to flow down is set up in the stacking and saturation,

Nuclear waste disposal for marine resources equipped with movement control and disassembly assembly of marine nuclear hydroelectric power plant lifting consoles, and control of reactor facilities of nuclear power plant composed of pressurized water type double structure reactor facility (1)

The combination structure of the air front 859c, the eject 859d, the ball 859e, and the cutting tee 859f constituting the reactor facility of the nuclear power plant is provided with the components of the power transmitter of the dozer of the construction machine, The nuclear waste treatment plant for nuclear power plants is composed of a pressurized water type double structure reactor facility (1) and a construction equipment of the transportation transportation section (811c) of the hull position moving construction machine of the nuclear power generation facility (811)

As shown in Fig. 47, in the ejector 859d equipment constituted by the construction transportation machines 811c of the hull position moving construction machine of the nuclear power generation facility 811,

It is called a tailgate and is located on the back of the ball and serves to push out the gravel in the ball and to construct a space that is large enough to load the gravel.

In the yoke constituting the construction machine,

It is a member that combines the ball 859e with the tractor.

The amount of work of the scraper constituting the construction machine (braking type scraper)

Wherein, Q: In view once soil carrying load capacity, f: Sat amount conversion coefficient and E: is classified as cycle time: Crested's working efficiency and C _m of the buffer.

As shown in Fig. 47, in the grader 862l equipment constituting the construction machine,

It is equipment used for civil engineering and mainly used for stopping work. It is equipment to pick ground by scraping the ground by installing blade (blade). It is equipment called a planter of earthworking machine. It is used for finishing the ground smoothly In application and specification, the indication of use and performance is indicated by the length of blade (blade) and it is explained as below table.

As shown in Fig. 47, the power transmission order constituting the construction machine will be described as the following table.

As shown in Fig. 47, the parking brake of the motor grader 862 constituting the construction machine holds the lower shaft of the transmission and is externally contracted.

The power transmission procedure will be described in the following table.

As shown in Fig. 47, in the propelling angle and cutting angle of the blade constituting the construction machine, as shown in the following table,

The cutting angle is the angle at which the blade cutting edge is inclined with respect to the cutting ground, and is small at the cutting operation. The angle between the center line of the grinder and the blade is small in the hard land and is about 70 ° to 90 ° in the stopping operation. The angle between the grader and the clayboard is adjusted to 45 ° and 60 ° when the soil is pushed to the side and 90 ° when the clay finish is finished.

As shown in Fig. 47, the capacity of the blades constituting the construction machine will be described with reference to the following table.

단. Q : 블레이드 용량(m³) B : 블레이드 폭(m) H : 블레이드 높이(m) 조향장치의 최소 회전반경

(단. L : 축 거리. : 킹 핀. : 외 측 바퀴 각 ) 차등기구가 없는 이유

only. Q : Blade capacity (m ³ ) B : Blade width (m) H : Blade height (m) Minimum turning radius of the steering system

( L : Axis distance: King pin.: Outside wheel angle) Reason for not having a differential mechanism

As shown in FIG. 47, it is possible to improve the finishing accuracy and improve the efficiency by improving the straightness of the work constituting the construction machine, and to move the hull position of the floating pickpockets (593,594,595) of several marine nuclear power plants The motor grader 862 constituting the control and disassembling assembly has a structure in which a nuclear waste treatment for a marine resource is carried out by a combined structure. The double structure nuclear water reactor of the pressurized water type is installed inside the main body 1 of the nuclear power plant 811, Transportation section 811c, and construction machines.

Marine nuclear waste treatment for pressurized water type double structure nuclear reactor facility (1) Internal structure of nuclear power plant (811), hull position transfer Construction and Transportation of construction machinery (811c) Air cleaner (859c) And a disassembling assembly of the ball 859e and the cutting tee 859f to the ejection 859d of the nuclear power plant 811. The power transmission device parts of the construction machine dozer are connected to the hull position moving construction machine The transportation section 811c, and the construction machines.

(811) HYUNDAI HYBRID MOVEMENT CONSTRUCTION AND CONSTRUCTION OF CONSTRUCTION MACHINERY (811c) Shovels and cranes constituting construction machinery are provided in basic form, and various excavation and crane operations are constituted by exchanging various accessories As the machine, the upper rotating body is capable of turning 360 ° and the structure of the excavator (856) of the three major components is explained as follows.

In the classification of the excavator 856 and the external structure of the excavator 856 constituting the construction machine, the transportation transportation portion 811c of the hull position moving construction machine of the nuclear power generation facility unit 811,

According to the classification according to the traveling device, the crawler type and the wheel type are separated into the truck mounted type,

It is easy to operate in a place with large pulling force and narrow place, and it is easy to operate wetlands, limbs and slopes, has excellent stability, is difficult to travel on pavement, has a slow speed of 3.2 km / hr,

The wheel type constituting the construction machine,

It has a good running speed of pavement, bridges, and easy to move the workplace. It has a running speed of 40 km / h r and its working efficiency is 30% ~ 35% higher than that of big roller type.

The truck mounted type, which constitutes a construction machine,

The running speed is about 60 km / h r, but the maneuverability is good, but the work efficiency is low.

In the classification according to the operation method of providing the construction machine of the transportation transport section 811c of the hull position moving construction machine of the nuclear power generation facility unit 811,

It is divided into small type and medium type, while small type is divided into small type and heavy type type by air type and electric type in manual type and hydraulic type. , A shovel with a bucket capacity of 0.6 m ³ or less, and a medium-sized bucket with a capacity of 3 m ^{3 and a} crane anchorage capability of up to 10 t.

The performance display method of the excavator 856 for providing the construction machine of the transportation transportation section 811c of the hull position moving construction machine of the nuclear hydroelectric power generation facility unit 811 includes the backhoe 856a, the power shovel 856b, the drag line 856c ) And the capacity (m) of the clam shell 856e bucket, and the earth drill 856d constituting the construction machine is indicated by the excavation diameter, and the file driver 882 constituting the construction machine is represented by the capacity And the crane 861 indicates the maximum hoisting load in ton and calculates the workload of the shovel 856b, the backhoe 856a, the drag line 856c, and the clam shell 856e constituting the construction machine The equation is as follows.

The hull position of the nuclear power plant (811) Transport transportation part (811c) of the construction machine The backhoe (856a) distribution machine of the construction machine to provide the construction machine,

The backhoe (856a) constituting the construction machine is used for excavation lower than the working position and is used for the foundation excavation of the river and the building. It can be loaded on the conveying equipment higher than the machine while excavating the lower side than the trench digging machine. The backhoe 856a is suitable for disaster prevention and prevention piping line installation for preventing large-scale forest fires,

The power shovel that constitutes the construction machine is suitable for excavation higher than the working position in circular shape. It is used for cliff drilling.

According to the comparison with the mechanical rope type which is a feature of the hydraulic excavator for preparing the construction machine of the transportation transportation part 811c of the hull position moving construction machine of the nuclear power generation equipment part 811,

First, the structure is simple,

Second, the front is easy to exchange and travel,

Third, it was easy to repair and operate the machine, and the end was better than the machine rope type on all sides.

47, in the drag line 856c constituting the construction machine of the transportation transportation section 811c of the hull position moving construction machine of the nuclear power generation facility section 811 constituted inside the main body 1,

The drag line 856c, which constitutes the scraping,

It was said that it had a large working radius and it was easy to underwater excavation. Next, it was used to excavate the ground lower than the ground, and then it was used for the harvesting of the river and it was not suitable for hard soil or gravel picking at the end.

The earth drill 856d constituting the construction machine of the transportation transportation part 811c of the hull position moving construction machine of the nuclear power generation equipment part 811,

And it is suitable for the installation of a pier hull 592 at the lower end of the holding tank at the pier hull 591 at the upper end of the pillar tank. The crane constituting the construction machine is a machine used for loading heavy objects, constructing high construction, installing a hook instead of a bucket, and lifting a heavy object. The pile driver 882 constituting the construction machine is a pile It is used for putting sheet files, it is suitable for pier mounting by pillar,

The clam shell 856e constituting the construction machine was a clam shell device suitable for excavation at a certain place such as underwater excavation and explosion work. It was used for deep excavation in a narrow place under the ground, , It is used for loading gravel, sand, and soil on a dump truck. However, it is not suitable for hard ground excavation. The trencher constituting construction machinery is suitable as a machine for digging a trench (811) Transmission and Transport of Construction Equipment (811c) The working range of the excavator for the construction equipment is as follows: When the tip of the bucket tooth is lowered to the lowest position, The maximum excavation radius (= maximum working radius) is the maximum horizontal distance of the bucket tooth from the center of the circle drawn when turning, and the maximum dump height is the The structure and function of the skimmer (856f), which is a ground elevation and constituting a construction machine, is a construction equipment in which the bucket is moved by the force of a chain along a boom on a swing platform and slides down the surface of the ground. It is suitable for thin excavation in a narrow place, , It is used for thin excavation in a small place where it is difficult to operate as a large machine. Therefore, the nuclear waste treatment for marine resources is carried out. And a transportation transport section 811c of construction machines.

The structure and function of the Ripper and Luther (856g) constituting the construction machine include the transportation transportation part (811c) of the hull position moving construction machine of the nuclear power generation equipment part (811)

It is used in the case where the ground is hard and rigid and it is difficult to excavate. It is attached to the back of large bulldozer and is suitable for digging hard ground using 23 foot saw blades by its own weight. In its use, It was used for concrete pavement and hard rock removal in the removal of rocks or pomegranates.

As shown in FIG. 47, the construction transportation machine 811c of the hull position shifting construction machine of the nuclear power generation facility 811 constituted inside the pressurized water double structure nuclear reactor facility main body 1 for processing the nuclear waste for exclusive use in the offshore source, The crane (crane, 861)

It is called as a crane according to the equipment. It is used for lifting and lowering of heavy objects, crushing work by using other working devices, heavy use for collection of waste iron and building construction, and moving and transporting of earth, stone and equipment used in civil engineering construction Hooks, clamshells, and drag lines are installed on the front of the body, and are used for general purposes. The structure and basic three-part names are explained as follows.

As shown in FIG. 47, the construction transportation machine 811c of the hull position shifting construction machine of the nuclear power generation facility 811 constituted inside the pressurized water double structure nuclear reactor facility main body 1 for processing the nuclear waste for exclusive use in the offshore source, In the structure and name 861a of the crane 861 constituting the structure, the name of each part of the crane or crane structure constituting the construction machine, as shown in the drawings except for the hook 18,

The upper frame 861h and the lower frame 861i are connected to the extension cable 861b and the breech 861d on the load system 861c and the May rope 861f and the boom hoist rope 861g on the boomboxes 861e, The hoist rope 861j and the front drum 861k are provided with intermediate drums 861l and 861m and the rear drum is provided with counterbalances 861n to provide a coupling structure.

The hull position of the nuclear power plant 811 The transportation crane 811c of the construction machine The cable crane 861o, which constitutes the construction machine,

All six of the following crane devices 861q and 861r and shovel devices 861r and shovels 861s and 861t devices and scrapers 861u devices and pylons 861v) to provide a marine nuclear hydroelectric power plant with a pressurized water reactor facility for nuclear waste disposal,

The nuclear power plant 811, which consists of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste disposal, which provides movement control and disassembly and assembly of the hull position of the floating ocean tractor (593,594,595) of several marine nuclear power plants, (811c) Marine power plant body dock providing construction machinery Marine nuclear power plant constituting the upper part of the deck of the ship (SDU) Construction machinery of the hull locomotion control equipment of the nuclear power plant Reactor facilities of the nuclear power plant As shown in FIG.

Moving hull position of nuclear power plant (811) Transport transportation part of construction machine (811c) The standard method of displaying the performance of the construction machine is to display the maximum hoisting load in tonnes. The following table shows.

The hull position of the nuclear power plant 811, the transportation section of the construction machine 811c, the work equipment of the six cranes for constructing the construction machine,

First, the crane (hook) is used for general cargo handling, loading and unloading of cargo, and the clam shell is used for loading and unloading of soil, vertical hoisting, dirt removal, underwater excavation, It is suitable for hopper operation and deep hole digging operation. Shovel is suitable for soil excavation, excavation of slope, earth loading of vehicle, foundation of road, drag line (drag line) It is suitable for the embankment construction work, the drainage construction work, the flat excavation and the loading of the soil to the underwater work vehicle, and the trench hoe (trench hoe)

It is suitable for drainage work, burial work, excavation work, mining work,

The file driver (pillar) is used for pillar-laying work on the foundation work of the building, and for the pagomatic hatching of the bridge, and the above-mentioned six cranes are the main equipment for assembling the nuclear power plant.

As shown in FIG. 47, the construction transportation machine 811c of the hull position shifting construction machine of the nuclear power generation facility 811 constituted inside the pressurized water double structure nuclear reactor facility main body 1 for processing the nuclear waste for exclusive use in the offshore source, The operating angle of the boom is as follows.

The minimum limit angle is 20 (but the backhoe is not limited to the minimum limit angle), the maximum limit angle is 78 °, the maximum safety angle is 66 ° 30 'and the normal working angle is 45 ° to 65 °.

And as the weight of the object increases, the length of the boom becomes shorter and the angle becomes larger as the crane works.

Classification of cranes is classified into crawler type and truck type. Classification by traveling device is as follows.

Moving hull position of nuclear power generation facility (811) Transportation transportation part of construction machine (811c) The type of use for construction machine is separated as follows and the function of drag cranes is as follows.

The structure of the tower crane is used for the construction of the steel frame of the high-rise building, the loading and unloading of the material, and the loading and unloading of the harbor. It is a crane equipped with a head type truss. It has been widely used in high-rise buildings and construction sites where the height is required. The structure and function of the hydraulic crane,

A transportation transportation portion 811c of the hull position moving construction machine of the nuclear power generation facility unit 811, and a boom,

It is possible to expand and contract up to 510m, and its rollover load is usually 310 tons. Its usage is used for loading and unloading work of port, civil engineering work, electric pole work, heavy lifting,

As shown in FIG. 47, the distribution input apparatus constituted inside the main body (1) of the pressurized water type nuclear reactor reactor for ocean nuclear waste treatment, and the floating nuclear reactor (593,594,595) of several marine nuclear power plants constituting the construction machine in the ocean The derrick crane, which constitutes displacement control and disassembly assembly,

The derrick crane is used to put the trolley up by putting a heavy cable on the tower at both ends of the tower. The purpose of the derrick crane, which is made up of concrete or material for the dam construction,

The structure and function of the derrick crane are,

A steel boom is installed at the bottom of the mast by sloping the boom. The machine is used to hoist and move the weights of the weights with the rope passing through the block. The application is used for assembly of the steel frame, foundation work, The ability to hang loads on the beam or the work radius is large, the assembly is easy to dismantle and the loading and unloading work. Movement of heavy objects. The three-angle derrick, which constitutes the steel assembly work,

It is suitable for roofing work of narrow place or building and does not need foundation. If it is installed on wheel, it is easy to move, so it is used for pile hammer work, bridge construction and harbor unloading. (1) Dispensing and dispensing equipment consisting of the internal body (1) The hull positioning of the floating relays (593,594,595) of several marine nuclear power plants constituting the construction machinery in the ocean It is connected to the construction machines of the hull locomotion control to provide control and disassembly.

As shown in FIG. 47, the distribution input apparatus constituted inside the main body (1) of the pressurized water type nuclear reactor reactor for ocean nuclear waste treatment, and the floating nuclear reactor (593,594,595) of several marine nuclear power plants constituting the construction machine in the ocean The tractor cranes constituting the hull position shifting control and disassembling assembly,

The crane is attached to the upper body of the shovel excavator first, and the following outriggers keep the safety and prevent the load from being applied to the tire, thereby preventing wear and tear from being caused by tires and spring loads The overhead traveling crane (= door type crane)

The crane is equipped with a running rail on the ceiling. It is used for the production and processing of concrete beams. The fixed type is used for loading work in factories and warehouses. However, it is not used for construction works. I use it a lot.

As shown in FIG. 47, the distribution input apparatus constituted inside the main body (1) of the pressurized water type nuclear reactor reactor for ocean nuclear waste treatment, and the floating nuclear reactor (593,594,595) of several marine nuclear power plants constituting the construction machine in the ocean The chain block 648, which constitutes the hull position movement control and disassembly assembly,

It can be lifted up to 15 tons by gravity for loading and unloading. Brake and limit switch are the safeguard for crane hoisting and punching work.

As shown in FIG. 47, a distribution input device constituting an inside of a marine nuclear power plant having a pressurized water reactor for processing nuclear waste, a marine nuclear power plant, (811c) of the nuclear power plant (811) constituting the hull position movement control and disassembly assembly of the lifting plant of the nuclear power plant (593,594,595) The maritime cranes constituting the construction machinery of the hull displacement control of the floating consoles (593, 594, 595) of several marine nuclear power plants constituting the SDU,

Transportation and hypothesis of large steel structures of bridges. It is used for the transportation and installation of super-large facilities, for the transportation and installation of offshore structures,

A hydraulic crane 885 including a hydraulic crane 885 and a crane 888 having a cable crane and a clam shell attachment to a drag crane 887 and a tower crane 886 and a tower crane 886 constituting construction machines The name 886a of each part of the Gai derrick structure,

A boom 886d and a boom 886e are connected with a turn buckle 886f and a public network 886g to the guide deck 886b and the main side 886c,

The triangle 886h, which constitutes the construction machines,

The boom 886i and the boom 886j comprise boom foil 886k and leaks 886l,

In the structure 887a of the drag cranes of the drag cranes 887 constituting the construction machines,

A boom cable 887h and a cable roller 887i and a boom hoist 887d are attached to a hoist cable 887b and a dump cable 887c and a letter cable 887f and a cable roller 887g to a lower boom 887e, The cable 887k is connected to the cable 887j and the parallel weights 887m are connected to the cable drum 887l,

In the structure of the crane 888 having a clam cell attachment constituting construction machines,

The boom tube 888h and the rack 888b are attached to the upper frame 888d and the rack frame 888f and the rope guide 888g to the clam-cell bucket 888c and the lower frame 888e on the holding line 888a and the opening- The boom hoist rope 888j and the front drum 888k are connected to the bridle 888i by the rear drum 888l and the parallel weights 888m,

The nuclear power plant (811) consisting of the inside of the main body (1) of the pressurized water reactor type nuclear reactor waste water treatment type pressurized water source dedicated to the ocean source constituting the hull position of the floating body of the marine nuclear power plant (593,594,595) ) (811c) Construction machinery to provide the construction machinery to the marine power plant Body dock Adjustment of the hull position of the marine auxiliaries (593,594,595) of several marine nuclear hydroelectric power plants at the upper part of the hull deck (SDU) Of construction machines.

FIG. 39 through FIG. 47 are schematic diagrams illustrating an embodiment according to the configuration of a pressurized water double-structure reactor installation for a nuclear waste treatment for marine resources.

As shown in FIG. 48, the equipment control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment, ) Provides for the production of power to show the configuration of the double pipe structure piping line control side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant,

A loader 857 constituting a construction machine, a forklift 858 and a trailer 860a of a dump truck 860 and a construction machine connecting structure,

It is a construction equipment which is called a loader and equipped with a shovel device on the front of the tractor to load gravel, sand and soil on the dump truck.

First, the standard bucket capacity is expressed in m ³ as the performance specification.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- In the sorting of the loader 857 constituting the loader 857,

The crawler type loader 857a (long crawler type = infinite crawler type = crawler type = shovel blower) as a classification by the driving method can perform work in a tough swamp or sandy soil by installing a bucket in front of a crawler tractor, The wheel type loader 857b (wheel type = tire type = wheel type) is equipped with a bucket in front of the wheel type tractor. It has excellent maneuverability in a flat working place, The semi-infinite crawler loader has one track of the front and rear wheels,

It is equipped with tires on the other side, which compensates for the shortcomings of infinite track and wheel type. The rail type loader (857c) is a device that can travel on rails and loads in tunnels and mines.

The following table shows the classification by the loading system constituting the construction machine in the transportation section (811c) of the hull position moving and construction machine of the nuclear power generation equipment section (811).

The following table shows the loading method of the loader 857 constituting the construction machine in the transportation section 811c of the hull position moving construction machine of the nuclear power generation facility unit 811.

In the other loader 857 equipment constituting the construction machine in the transportation transport unit 811c of the hull position moving construction machine of the nuclear power generation facility unit 811,

The Merck Loader, which makes up the construction machinery, is widely used in tunnel construction, and is used to load demolished debris from excavation works on a car,

The payloader that constitutes the construction machine is used to load the dumped material to the dump truck (860). It should be operated as slowly as possible and should not be raised during no-load operation,

The rail type slack loader constituting the construction machine is a dedicated medium load for loading slag blown up in the tunnel or tunnel excavation work on the conveyance car. In the continuous type loader constituting the construction machine, the gathering arm loader is used for various tunnels, It is used for residential land composition and limestone mining. Screw excavator that constructs construction machine is used for underground excavation work of city area, soil loading work in factory or ship, and bucket wheel X-car is used, And the skid loader is a loading machine suitable for working in tunnels and tunnels.

And is connected to the transportation unit 811c of the hull position moving construction machine of the nuclear power generation facility unit 811 by distribution and input devices constituting the construction machine.

In the kind of the dump truck 860 constituting the construction machine,

The rear dump truck constituting the construction machine is a truck which loads the load by tilting the luggage compartment backward, and the dump truck (860) constituting the construction machine is used for the truck which tilts the luggage by sideways And the bottom dump truck 860 constituting the construction machine is used for trailer dump trucks where the lower part of the jib can be opened and the load can be lowered. In the three-room open dump truck constituting the construction machine,

It is a truck that can load in three directions. The calculation formula of the dump truck is shown in the following table.

Calculating the required number of trucks:

Calculate truck workload:

here,

표시하고,구배저항(W_g)은

상기와 같으며,구동력(W _s) 은

상기와 같았다.여기서,

The driving resistance of the dump truck 860 has a formula for calculating the driving force for the rotational resistance and the gradient resistance, and the rotational resistance W _r

, And the gradient resistance (W _g )

As described above, the driving force (W _s )

As described above,

The hull position of the nuclear power plant (811) can be shifted to a special off-road truck for short-haul transportation by having a dumpter that constitutes a construction machine in the transportation section (811c) of the construction machine. It is used when the carrying distance is more than 1 km as follows,

It was used for the construction of the tunnel constructions of the seawall, the size is expressed as the weight (t o n) indicating the pulling force,

The tractor and trailer (860a) is a machine that transports a trailer (860a) with a bulldozer and a roller of a heavy object or a heavy load or a construction machine by a tractor, and the traveling device of the tractor is a crawler type, a half crawler type, It is classified.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- Is a machine that carries a cargo by arranging a steel tower on both sides of the mountain and connecting the cables and arranging a carrier every 60 m. It is not restricted by topography and road conditions, It was easy. It is used to transport materials of aggregate and cement in dam construction,

The wagon, which makes up the construction machine,

It is similar to a motor scraper, but it can not carry the soil by magnetic force. It is a machine that carries the soil from the loading machine. The tractor driven wagon is towed by the tractor. front. It is also called a full trailer (860a) with an axle and wheels attached to the rear end.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- (858) which constitute the forklift 858,

Equipment that is common to automobiles and widely used in warehouses and paddocks indoors and outdoors. This is effective for short-haul transportation and loading and unloading of hardened products. The standard display shows the capacity (in tonnes) that can be lifted (middle of 1 ton or more), and the characteristic feature is that the tilt lever installed in the cockpit The master can be tilted forward 56 ° (referred to as the front wrist), backward 10 ° 12 ° (referred to as the back wrist), with a maximum height of 4500 mm and a minimum of 3000 mm (maximum amount)

In the forklift (858) equipment constituting the construction machine, the minimum radius (angle of steering of the wheels inside 65 ° 75 °) is very small, the pressure of the hydraulic piston is set to 110130 kgf / cm ² pressure, The steering apparatus of the fork lift truck 858 is provided with a rear-wheel-drive-type steering wheel and provided with a master bundle installed to operate at hydraulic pressure (hydraulic pressure of 70130 kgf / cm ² ), and the fork is raised 150 m from the ground In addition,

The travel distance is less than 250m, and the front wheel is installed directly on the frame. The rear wheel does not have suspension spring, but the large one uses suspension spring.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- (858), which is suitable for the operation within 250m. The height of the fork during driving is 150200mm for the fork when the cargo is loaded.

The inclined land transportation is that the fork part (front part) is directed to the upper part and moves backward when the inclined point cargo is transported,

And a forklift (858) facility that adjusts and disassembles the hull position of the marine plant (593,594,595) of several marine nuclear power plants.

As shown in FIG. 48, the conveyor 633 that constitutes a construction machine is used in the transportation portion 811c of the hull position moving construction machine of the nuclear power generation facility 811 and is mainly used for transportation of materials and concrete It is widely used because it is easy and economical to install.

Large conveyors, which make up construction machinery,

It is used for transportation of sand, soil, gravel and crushed stone. At the same time, screw conveyor is used for sand, cement and concrete conveying. Belt conveyor is most widely used for soil, crushing and aggregate transportation. Size: ton Potable conveyor is used for the transportation and collection of sand gravel,

Construction vehicles are made up of special-purpose transport vehicles, such as illegal landing and uni-mogue hoisting, and at the same time, illegal landing is a wheel-type front-wheel drive vehicle capable of transporting in difficult conditions such as mud, sand and unevenness. , And can be widely used in various fields of civil engineering, snow removal and road maintenance. Hoisting is connected to a double structure nuclear power plant with a nuclear waste treatment for marine resources composed of heavy construction equipment.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- (863) equipment with a voltage device, a compaction machine with two or more sleek drum rollers as wheels, also known as a voltage machine, and the final work of construction of roads, embankments, airfields and runways It is a construction equipment to prepare the road surface.

In the specification of the roller 863, the weight of the roller is expressed in tone, and when the standard of the roller 863 is 815 tons, the self weight is 8t on and the bell- .

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- The rollers 863 constituting the rollers 863 are separated into a voltage type by an impact type and a pressing type by a vibration type.

As shown in the above table, a construction machine is constructed in the transportation section 811c of the hull position moving construction machine of the nuclear power generation equipment section 811, which is constituted inside the pressurized water double structure reactor facility main body 1, An additional load (weight weight) of the urine site is called an additional load, which increases the voltage capability by loading an additional load when the voltage capability is small due to the weight of the roller itself,

The additional load, which constitutes the construction machine,

Iron, water, and sand. The tire roller is provided with an injection as necessary for the water tank,

The machine, the tandem, the tamping roller,

Increase voltage capability by injecting additional load on wheels.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- In the sorting by the pressurizing method constituting the pressurizing method,

The voltage type compaction machine that constitutes a construction machine is separated into a road roller, a tire roller, and a tamping roller. The impact type compaction machine that constitutes a construction machine is separated by a rammer and a tamper, and a vibration type compaction machine A vibrating roller 863a and a soil compactor 863b.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- And the use of the machine roller 863c is used for the crushing (gravel) base layer, the road compaction, the bedrock, and the initial compaction of the asphalt pavement. Lt; / RTI &gt;

It is a differential gear that uses a differential gear to slow down the speed of the inner ring for smooth turning when turning a curve. It is mounted at the center of the rear axle and drives both wheels at different speeds when the curve is turned.

As shown in FIG. 48, the construction of the nuclear waste water treatment type double structure reactor facility main body 1 for marine nuclear waste treatment, construction of the nuclear water hydraulic power plant 811 in the transportation transportation part 811c of the hull position moving construction machine, The use of the tandem roller 863d, which constitutes the machine,

It is suitable for compaction of clay and clay soils and is used for finishing of asphalt pavement and finishing work of asphalt pavement. The order of power transmission is in the order of engine main clutch transmission forward, reverse gear, differential gear type reduction gear rear wheel, And the two-axis tandem and the three-axis tandem are provided with a cylindrical cylinder of a flat steel cylinder and a three-axis tandem as the driving drum, and the compaction width can be widened separately from the operation of the front and rear wheels.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- The use of the tamping roller 863e,

It is used to repair the weak soil. The tamping roller 863e is provided with a plurality of projections in the form of a plurality of protruding structures, which are rotated by a rotating shaft Provide compromise.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- In the tire roller 863f,

The tandem roller is equipped with a tire instead of steel wheels, and there is a pulling formula and self-propelled,

For the purpose of constructing a construction machine,

The airway pressure of the tire is 1.510kg / cm ^2, and the feature is that the traveling speed is very high.

Thus, the roller by centrifugal force is used to concentrate the surface by centrifugal force on its own weight, and the vibrating roller is suitable for compaction of crushed stone, gravel, earth, asphalt and concrete by vibrating the compaction wheel by vibrating the vibrator. The weight of the equipment.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- The rammer is provided with a compaction foot on a two-stroke cycle engine body of a small internal combustion engine, and the tamper changes the explosion force of the gasoline engine to torque, and then the crankshaft is reciprocated It is designed to transfer to the compaction board through the elasticity of the spring and is suitable for narrowing the narrow places and roads,

The soil compactor 863b, which constitutes the construction machine,

A compaction machine comprising a small gasoline engine and a vibration generating device combined with a flat plate vibrator,

Compared to weight, it has a large compaction effect and is suitable for sandy soil, and it is inappropriate for clayey soil.

The equilibrium is the line pressure due to the width (maximum width) of the rollers compaction width in one pass (k g / cm), which is the ground weight of the wheel divided by the width of the wheel.

As shown in FIG. 48, a construction machine (not shown) is attached to a transportation transportation section 811c of a hull position moving construction machine of a nuclear power generation facility unit 811 constituted inside a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste- A distributing and inputting apparatus construction machine of a nuclear reactor constituting a nuclear reactor,

(593,594, 595) of several marine nuclear power plants in the offshore that make up the construction machinery are equipped with the marine power plant facilities of the hull position shifting control. The soil transporting unit 811c of the hull position moving construction machine of the nuclear power generation equipment unit 811 is provided with a soil stabilizer 864 which is the same as the road safety equipment constituting the construction machine. road. It is an economical compaction stabilization method for airfield construction. It is a stable processing construction machine that can finish all kinds of work in real work at one time.

Accordingly, it is possible to precisely place the hearth and the bedrock material on the site,

The nuclear power generation facility unit 811, which is constructed inside the main body 1 of the pressurized water double-structure reactor facility for marine resource-specific nuclear waste treatment, Construction Machinery Nuclear Power Plant Nuclear Waste Treatment Department (811a) Location of Ship Structure Construction Machinery Transport Transport Section (811c) Construction of Marine Power Plant Parts of Marine Construction Several tanks of marine nuclear power plants (593,594,595) (593,594,595) Nuclear power station equipment consisting of the upper barge hull (591) and the bottom tank barge hull (592) consists of distributing and inputting devices for the construction machinery that provide movement control and disassembly assembly. have.

49, the facility control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment, ) Is a marine hydro-nuclear power generation production control unit 811b that constitutes the power production constituted by the double pipe structure piping line regulation side 238 of the nuclear waste disposal of the nuclear power plant.

And a concrete batching plant (865) constituting a construction machine position control of the hull locomotion control of the marine runway readers (593, 594, 595) of several offshore marine nuclear power plants constituting the marine power plant body dock hull deck upper part (SDU)

The concrete hopper 865a constituting the concrete batching plant 865 and the symmetry hopper 865e and the scale frame 865f and the storage bin 865f to the water tray 865d and the regulating plate 865c to the conveying apparatus charging chart 865b 865g to the cementing chute 865k and the bucket elevator 865j to the turnhead 865i and the cement silo 865d to the transporting cement chute 865k and the recording device 865m and the circular mixer 865n to the conveying cement chute 865k, 865o) and scour conveyor (865p), it is possible to arrange the hull position of the marine small, medium and large sized marine nuclear power plant (593,594,595)

(593, 594,595) of double-structure reactor block tank (598) of marine nuclear power plant composed of the inside of main body (1) (928), Nuclear Waste Treatment Double Structure Block Tank Bridge (929), Double Structure Block Tank Bridge (937) and Nuclear Waste Treatment Double Structure Block Tank Marine Tunnel Traffic System (941) A nuclear power plant with a double structure reactor with double-structure block tank dust collector, equipped with a plurality of distribution shafts and discharging devices for discharging the possible connection structure, Is composed of a nuclear waste treatment dual structure block tank dust collector.

As shown in Fig. 49, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

Concrete pump (869) equipment consisting of construction machinery,

It is convenient for conveying concrete in a limited space such as a bridge in a tunnel and inside of a building. The pump is a mechanical type and a hydraulic type. There is no particular restriction on the installation place and the installation is simple. It was easy to handle, easy to repair, and economical. It was designed to transport high - rise buildings and long - distance concrete.

As shown in Figure 49, a concrete pump (869) type has inde hydroformed expression truck loading type in a removable and mechanical diaphragm expression tall buildings used to (more than 100m), and standard displays are hourly delivery capacity (m ³ / hr) The components of the displayed, piston-type concrete pump consist of a concrete injection hopper, a suction and discharge valve, a piston, and a cylinder.

Concrete pump (869) composed of construction machinery is used for movable type and mechanical type liquid pressure type and truck type type. Diaphragm type is used for high rise building (more than 100m). The standard indication is expressed in hourly delivery capacity (m ³ / hr) The components of the concrete pump consist of a concrete injection hopper, suction and discharge valves, pistons, and cylinders.

As shown in Fig. 49, in a concrete casting machine constituted by a construction machine,

The concrete finisher 866 is a finishing machine for laying concrete, placing the concrete as a laying machine, laying it as a laying machine, and joining it with a vibrator, followed by finishing the concrete slab surface by moving the finisher in the transverse direction .

As shown in FIG. 49, the concrete finisher is a structure in which the load on each part of the machine is small, the machine is simple, and the machine wear and noise are small. The standard marking shall be prepared by disassembling and assembling the internal structure of the pressurized water type double reactor nuclear reactor facility (1), which is treated as a standard width (m)

(593, 594,595) of the marine nuclear power hydroelectric power plants constructed inside the main body (1) of the pressurized water type double reactor reactor facility, (928), nuclear waste treatment dual structure block tank bridge (929), and nuclear waste treatment dual structure block tank marine tunnel traffic equipment (941). A dual structure block tank with a plurality of distribution shafts and distribution input devices for discharging the marine nuclear waste water from a marine nuclear power plant with a dust collector, And a tank dust collector.

As shown in FIG. 50, the facility control unit 811a of the floating position control equipment 811a included in the nuclear power plant unit 811 constituted inside the pressurized water type double structure reactor facility main body 1, ) Is a marine nuclear power generation production control unit 811b that provides power production showing the configuration of the double pipe structure piping line control side 238 of the nuclear waste disposal of a nuclear power plant.

A double tube structure of a nuclear waste treatment plant of a nuclear power plant, and a marine nuclear power generation production control section 811b constituting power production of the block piping line regulation side (238). An elemental ocean nuclear hydroelectric power plant dock constituting the operation of a nuclear power plant having a distribution input unit. A plurality of marine nuclear power plants floating on the upper deck (SDU) of the ship. A dispensing input device construction machine that configures the machine position adjustment,

(593, 594, 595) of several marine nuclear power plants constituting the construction machinery in the marine environment, the marine nuclear waste treatment of the marine nuclear power plant facilities to control the displacement of the hull. (811a) in the nuclear power generation equipment section (811) includes a facility control section (811a) for the moving and construction equipment of the floating hull construction hull, a nuclear waste treatment channel (941) and a double structural block tank dust collector, the distribution shaft constituting the pressurized water type double structure reactor main body (1) is distributed and the nuclear waste treatment for the ocean source is distributed. To the inside of the outer block tank, the insertion of the pressurized water double structure reactor facility, which is an inner block tank,

Nuclear Waste Treatment for Offshore Nuclear Hydroelectric Power Plant with Double Structure Block Tank Dust Collector Nuclear power plant facilities of the floating nuclear power plant (593,594,595) of several marine nuclear power plants constituting a pressurized water double structure reactor facility,

Marine nuclear waste disposal treatment Pressurized water double structure reactor facility Main body (1) The hull position of the nuclear power generation facility (811) which constitutes the inside of the ship Main body (d) The ship upper part (SDU) of the marine power plant body dock with the transportation transportation part (811c) The asphalt finisher 871, the asphalt spreader 872 and the perforator 872 constituting the position control with the construction machine of the hull locomotion control of the floating ocean readers 593, 594, 595 of several oceanic marine nuclear power plants constituting the off- An asphalt mixing plant 870 consisting of a boom 882a, a diesel hammer 883 and a construction machine connection structure 876, a file driver 882, a boom 882a,

Asphalt Mixing Plant (870) An aggregate feeder consisting of a facility, a dry heating device and a mixer asphalt feeder, and the movable type having a prime mover is not only used for road pavement but also for asphalt A machine for manufacturing mixed materials and its equipment, and an exhaust dust collector is a device for constituting centrifugal separation using steam, dust, combustion gas or dust generated from a vibration screen generated in a dryer drum,

The standard marking is expressed in terms of hourly production (ton / hr) of the asphalt mixture (ascon).

The equipment of the concrete spreader 867 constituted by the construction machine is,

It is a packing machine that evenly distributes the raw concrete sprayed on the pavement board. It is used to transport concrete from a truck mixer or a dump truck while riding in front of a concrete finisher,

It is indicated by the standard width (m)

The types of asphalt pavers are classified into screw type and box type,

(1) of the pressurized water type double structure reactor facility (1), which is divided into an asphalt mixing plant (870), an asphalt finisher (871), an asphalt spreader (872), an asphalt cover and an asphalt spray, (811a) of the nuclear power plant nuclear waste disposal unit (811a) and the transportation transport unit (811c) of the hull locating construction equipment to the marine power unit deck upper part (SDU) ) Hull position shifting construction machines.

In this type, weighing and mixing methods are formed by batch method and continuous method, and the installation method is fixed type and paying method.

Electronically and semiautomatically and manually, the application is asphalt heating for aggregate drying and asphalt mixing. The composition consists of a feed hopper, an aggregate drying device, an exhaust dust collector, a hot elevator, a vibrating screen, a mixer and an asphalt cake weighing device .

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

Asphalt finisher (871) equipment comprising construction machinery,

Asphalt mixing plant is boiling more than 160 ° g of asphalt mixture to form aggregate of aggregate on the road. It is used for asphalt pavement in airport runway and highway asphalt pavement, And the specification mark is expressed by the maximum packaging width (m) and the packaging capacity (ton / hr), and the screed constituting the mechanism of the asphalt finisher 871,

It is a plate that smoothens the mixed material sprayed on the road surface,

The living hopper, which consists of a construction machine,

It is a container for storing mixed material (asphalt) carried by a dump truck with a hopper of more than 5 tons installed on the front of the equipment,

The feeder, which consists of a construction machine,

Is installed on the bottom of the hopper and sends the mixture to the spreading screw,

The bumper is installed on the front of the screed and is used to increase the thickness of the packaging material to the thickness required for the mixed material sprayed on the road surface.

Asphalt spreader (872) equipment consisting of construction machinery,

Equipment to boil asphalt and sprinkle it on the road surface for the first time. In other words, it is a sprayer that blows asphalt on the road surface. The type is self-propelled, gear pump type, solution pressurized type and mounted type, and the specification mark is expressed by maximum spraying width (m) and tank capacity (m ³ ).

The asphalt cover is a construction equipment that continuously keeps the asphalt mixture for the highway and the asphalt spray is the equipment to heat and dissolve the asphalt, asphalt emulsion and tar by the oil burner and pressurize the road surface.

It is a device that performs various work while gas is running on the hearth, and mixes and mixes the surface by adding and mixing water. It is a device to tighten and harden the surface. The standard display is expressed by the capacity (m ³ ) of the fluid tank. The efficiency of the sprayer was good, and it is easy to adjust the depth of digging the ground.

The diesel pile hammers (883), which are classified as hogging and anti-aircraft (877)

It is a machine that constitutes a hammers with the explosive power of a 2-cycle diesel engine. It is twice as fast as a vibrating hammer and a steam hammer of the same size. This method is based on the fact that when the ram is raised by the starter, The explosion force and the striking force of the ram are transmitted to the pile and the ram is sprang up again by the repulsive force. At this time, the exhaust and the suction The action is also performed, and the falling, the blowing and the explosion are repeated again, so that the continuous hunting operation is possible.

Its structure consists of a ram that moves up and down the cylinder in the cylinder, an anvil inserted in the lower part of the cylinder, a fuel pump and a fuel injector, and a cylinder-cooling water tank device.

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

A starter 903 is attached to a lead 896 on the left side of the diesel pile hammer 883 constructed by a construction machine and a ram 895 is fixed to a lower portion of the cylinder 126 at a right upper portion of the starter 903, A fuel pump 900 is disposed below the cam 901 in the fuel tank 902 and a helmet 899 is formed below the pump 900. A file 899 is attached to the lower surface of the helmet 899 The file operation proceeds.

Its standard specification is to indicate the weight (in tonnes) of the ram, which is used to stamp wood, concrete and steel pipe files. Its characteristics are shown in the table below

The outline of the column hammer (= column pile hammer) is a machine that sends steam or compressed air into the cylinder and continuously repeats the upward and downward movement of the piston to put the column by the ram at the bottom of the piston rod,

In the type of column hammer composed of construction machine,

The outline of the steam hammer is to use the expansion energy of the steam to drive the piston. The standard mark is expressed by the weight of the piston (ton)

It is characterized by its complicated structure, difficult maintenance and maintenance, and high maintenance cost. It is used to put pile in hard and dense soil. It is guided to lead and has single acting type and double acting type. to be.

The outline of the vibration hammer is hammered or pulled by the vibration power, and the frequency is more than 500 times per minute. The standard mark is expressed by the output of the motor (kW) and the excitation force, and the drop hammer is the metal block by the wire Was to fall on the head of the file and put the file with its striking power and it was suitable when the equipment cost and operation cost were to be reduced when the same conditions were used for a small amount of installation in a remote place among the basic use machines.

The advantages and disadvantages of the construction equipment of this construction machine are as follows.

The first advantage was that the operation of the hammer was simple, and the equipment was small in size, so that the cost was low, and the adjustment of the drop height made it possible to increase the striking energy.

Second, the disadvantage was that the piling of files was slow and there was a danger of damaging the files, and it was easy to damage the surrounding buildings due to vibration during work and it was impossible to work underwater.

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

The upper portion of the lead 896 of the file driver 882 body is constituted by the adapter 906 and the wire rope 19 on the front boom 904 and the crane boom 651 on the front of the crane, 905) was attached.

The file driver 882, constituted by the construction machine,

The barge hull (591) is mounted on the upper deck deck, and then the file (898) is performed by fixing the equipment in the deck deck working position.

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

Diesel hammer composed of construction machine, steam hammers and drop hammers on vibration hammers are collectively referred to as drop hammers or diesel hammers when laying files, and the equipment is installed on the crane boom. Refer to the table below .

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

The file 898, composed of the construction machine,

A separate carpile 898 for fixing is attached to the lower base post of the deep sea so that the concrete pier can be easily installed on the bottom of the seabed with the saddle formwork 617 for the pier.

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

The air compressor 875, which is composed of a construction machine,

Compressed air is sucked and compressed by atmospheric air to make high pressure, and it is used for various purposes in various construction work. It is composed of driving device, compression device and other accessories.

Here, the drive device is a gasoline or diesel engine that supplies the power for operating the compressor. In addition, the volume construction type compressors were mainly used for construction,

For this purpose, quarrying works are carried out using drill rigs,

Split operation,

The clay excavation is to excavate hard rocks on the hard clay obtained from the ground, and to destroy the concrete and asphalt with the brakes.

As shown in FIG. 50, a distribution input apparatus construction machine constituted by the inside of a marine nuclear hydroelectric power plant equipped with a pressurized water reactor facility for nuclear waste disposal,

Painting in concrete vibration and logging operations, tire inflation and equipment cleaning, and construction air compressors are large.

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

Compressors in this category are classified into reciprocating piston type rotary compressors and rotor type compressors by screw type compressors and centrifugal type turbo type compressors. And the portable system can be used while simply moving the compressor.

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

Air Cleaner Low Pressure Cylinder Intermediate Cooler High Pressure Cylinder Air Tank The standard indication is expressed as air volume per minute (m ³ / min), expressed in actual air volume, 210 cfm is produced as 210 cubic feet of compressed air per minute (ft ³ / min) And the parts of the air compressor are composed of piston, cylinder and pressure regulating valve on the intake and exhaust valves.

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

The function (role) of the main part of it is explained as the following table.

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

A detailed description of the puncturer 876 equivalent to a rock drill is described as follows.

The perforator 876 constituted by the construction machine is a machine for punching a rock or a ground, and is operated by an air compressor or hydraulic pressure. The impact type is excavated by the impact energy of the blade, and the excavation speed is fast but its depth is low .

Mostly compressed air is used, and this shocked rod is operated by this compressed air, and the rock is crushed by the impact force. The structure is simple, easy to handle, and compressed air is easy to use, And the excavation speed is slow or deep.

In the standard specification, the big roller type shows the weight of the rock drill and the air consumption per minute (m ³ / min), and the jumbo type of crusher is expressed by the number of roll rolls and the number of rock drums (end) k W) and the tunnel excavator is indicated by the maximum excavation dimension (mm).

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

In its kind, sinker is the latest type of rock drill with soundproofing, suitable for hole drilling in rock, various swing cuts, and semi-downward operation of the tunnel. In other words, it is a small-sized machine that can be operated by manpower, and operates by the force of air.

The drifter, which consists of a construction machine,

It is a powerful perforator that is suitable for punching large holes in excavation work, quarrying work and dam excavation.

By means of a manual or automatic conveying device, a suitable pressure is applied to the bit to drill,

In a feed device composed of a construction machine,

It is a chain type and a screw type, and the stopper is a machine that punches from the horizontal to the sky and is suitable for cutting vertical gang up.

Brakes, which consist of construction machinery,

It is used for the crushing of concrete roads, building and strong foundation, and has strong crushing power with low consumption of air.

It is mainly used by attaching to the hydraulic backhoe excavator,

Rock crackers, which consist of construction machinery,

It is a device that crushes rock and concrete with hydraulic pressure in places where gunpowder can not be used.

As such, the hand hammer is effective for narrowing and secondary crushing operations, and is easy to use because it is soundproofed. It is also called a jack hammer. It is a small type of rock drill that is movable and maneuverable by manpower. It is mainly used to drill holes downward.

As shown in FIG. 50, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

Construction of nuclear drill Drill drill on drill Drill on drill and crawler Drill on drill and pick hammer Treatment of nuclear waste for marine resources Waste water type dual structure Reactor facility Main body (1) Nuclear power generation facility (811 (811a) Marine Dock Body Dock Seagoing location showing the construction machine position control arrangement of the hull displacement control of the floating dock (593,594,595) of several marine nuclear power plants in the upper part of the hull deck (SDU) The boom 882a and the diesel pile hammers 883 to the pile driver 876 and the pile driver 882 on the asphalt finisher 871, the asphalt spreader 872, (1) Nuclear power plant part (811) consisting of internal hull position moving construction machinery control part (811a) Oceanic foot Small body is composed of a dock deck upper hull (SDU) input to a construction machine dispensing marine source only nuclear waste disposal pressurized water nuclear reactor plant having a double structure to the devices connected to the.

51, as shown in FIG. 51, the facility control section of the floating displacement control hull position moving construction machine included in the nuclear hydroelectric power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment 811a,

Marine power plant dock Includes a distribution input equipment construction machine that controls the position of the nuclear power plant construction machinery of the hull locomotion control of several marine power station flood control consoles (593,594,595) in the upper part of the deck (SDU)

(593, 594, 595) of several marine nuclear power plants constituting the construction machinery in the offshore. Distribution control device for the control of hull position movement of the marine nuclear power plant. The nuclear waste disposal unit 811a included in the nuclear power generation facility unit 811 constituting the nuclear power generation facility 811 is connected to the nuclear waste disposal marine tunnel transportation apparatus 941, which is the control shaft 238 of the hull position moving nuclear power plant facility, Dedicated Nuclear Waste Treatment Pressurized Water Type Double Structure Reactor Facility (1) Dispensing both sides of the distribution side inside of the main body to provide a pressurized water reactor for nuclear waste disposal. The internal block tank insertion is provided inside the outer block tank outside the structural reactor facility,

Nuclear Waste Treatment of Offshore Nuclear Power Plants with Dual Structure Block Tank Dust Collectors Nuclear power plant facilities of a floating nuclear plant (593,594,595) of several marine nuclear power plants constituting a pressurized water dual structure reactor facility,

The dredger (879), which constitutes the nuclear hydroelectric plant facility,

The red 879i and the engine room 879j are connected to the blast tank 879g and the blast pump 879h to the red shear 879e and the spot 879f in the spot docker 879c and the cab or the adjustment chamber 879d, The left and right front spots 879q and 879d are provided on the spot winch 879o and the bucket 879p on the bucket driving device 879m and the rear spot 879n constituting the dive dredger 879k and the grab dredger 879l, A plurality of construction machine connecting structures constituting the winch 879s and the belt conveyor 879u and the grapple 879v are connected to the dewar 879r and the anchor storage 879t by the nuclear waste water treatment double- An oil drilling machine 908 connected to an upper portion SDU of a marine power plant body, which is included in a hull position moving construction machine control portion 811a of a nuclear power generation facility 811 constituting the inside of the facility main body 1, The submarine mineral intake sampling machine 911 and submarine mineral collection robot 912 are connected to the periscope mining net 910 through a periscope 91 3) and a rubber balloon 914 with a wire rope chain 915 and a double structure piping line automatic pneumatic valve transport device 916 and a core drill 917 Construction machine connection structure of submerged minerals And constitutes collection of manganese nodules 909.

As shown in FIG. 51, in a distribution input apparatus construction machine constituted by the inside of a marine nuclear power plant equipped with a pressurized water reactor for nuclear waste disposal,

Conventional dredgers constituting a construction machine,

It is the equipment that works for digging the soil in the water. Fermentation. In order to increase the water depth of rivers and waterways and to maintain water depth, we work on landfilling of shared water surface and basic construction of shaft construction such as rock wall and breakwater. Classification of dredger is divided into classification by type and ability, , The pump type constituting the construction machine is a non-viscometric type with the rated output of the drive engine and the bucket type constituting the construction machine is the non-viscometric type with the rated output of the main engine and the dipper type constituting the construction machine is the bucket capacity (m ³ ), and that the grab form of the construction machine is non-response to the flat capacity (m ³ ) of the grab bucket.

As shown in Fig. 51, the distribution input apparatus construction machine constituted inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment,

The pump dredger (879a), which is divided into electric and diesel type steam turbine type and gas turbine type, which constitutes the structure and use of the dredger,

The construction and use of the dredgers that make up the construction machinery are equipped with a low-head pump line to transport soil to a toe line or to suck up soil and water when the delivery pipe is difficult to install or the long distance is long, It is used for dredging or landfill construction,

The working range of the hull moving range is from 70 ° to 90 °, and the standard mark is indicated by the rated output (P S) of the drive engine.

As shown in FIG. 51, in the distribution input apparatus construction machine constituted by the inside of the main body 1 of the pressurized water double nuclear reactor facility for ocean nuclear waste treatment,

The construction and use of the bucket dredger 879b, which constitutes the construction machine,

The soil is dredged with dredged soil by using a bucket conveyor in continuous submersible sand dredging. The dredged soil is transported by a toe line and used for the dredging of large-scale passageways and anchorage. The types are continuous and intermittent. The standard marking is indicated by the continuous rated output (PS) of the main engine. The characteristics of the dredger (879b) are shown in the table below.

As shown in FIG. 51, in the distribution input apparatus construction machine constituted by the inside of the main body 1 of the pressurized water double nuclear reactor facility for ocean nuclear waste treatment,

The structure and use of the dredger dredger 879c, which constitutes the construction machine,

It is used for dredging strong and hard ground or broken rock. The standard indication is indicated by bucket capacity (m ³ ) and its characteristics are explained as below table.

The collection of submarine mineral manganese nodules (909)

The hull position moving construction machine control unit 811a of the nuclear power generation equipment unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment and the transportation transportation unit 811c of the hull position moving construction machine, The submarine mineral intake sampling machine 911 and the submarine mineral collection robot 912 are connected to the periscope 913 through the crude drilling machine 908 and the seabed mineral deposit net 910 connected to the upper part SDU of the body of the offshore power plant dock, ) And rubber balloon (914) with wire rope chain (915), double structure piping line automatic pneumatic valve transport device (916) and core drill (917) Nodules 909 can be collected.

As shown in FIG. 52, the equipment control unit 811a of the floating construction harness 810a included in the nuclear power plant 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment, ) Includes a marine nuclear power generation control unit 811b that provides power production showing the configuration of the double pipe structure piping line control side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant,

Distributing input device Distribution structure of a marine plant of a marine nuclear power plant equipped with a double structure block tank dock for regulating hull position movement of floating ocean tractor (593,594,595) of several marine nuclear power plants constituting the construction machinery in the ocean (811) Nuclear power plant (811a) inside the main body (1) Nuclear waste (811a) Moving hull position of the nuclear power plant (811a) Nuclear waste (941) for treatment of marine tunnel and nuclear waste treatment for marine resources, and distributing both sides of the distribution side constituting inside of the main body (1) of pressurized water for treatment of nuclear waste for marine resources, A pressurized water type double structure reactor installation is inserted into the double structure block tank dust collector,

As shown in FIG. 52, in the nuclear power plant facilities of the marine plant (593, 594, 595) of several marine nuclear power plants constituted inside the main body (1) of the pressurized water double-

The structure and use of the grab dredger 879d, which is constituted by the distribution dispensing apparatus of the nuclear reactor,

This equipment is used to dredge a small-sized lane or anchorage by using a special crane equipped with a clam shell on the ship. The standard mark is expressed as grab bucket capacity (m ³ ) .

As shown in Fig. 52, a construction machine constituted inside the main body 1 of the pressurized water type double structure reactor facility for processing a nuclear waste-only nuclear waste,

(593,594,595) of the marine nuclear power plant composed of the distribution equipment of the nuclear reactor facility (593,594,595) Moving the hull position of the nuclear power plant (811) to the transportation transport part (811c) of the construction machine The construction and use of grab dredger 879l, which makes up the construction machine position control of the hull locomotion of the SDU,

This equipment is used to dredge small ships or anchorage by using a special crane equipped with a clamshell on the ship. The standard marking is indicated by the grab bucket capacity in cubic meters (m ³ ) Explain as follows.

As shown in Fig. 52, is a distribution dispensing apparatus construction machine constituted by the inside of a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste for exclusive use in an ocean source.

The collection of submarine mineral manganese nodules (909)

A number of construction machinery connection structures treat nuclear waste for marine resources. Pressurized water type double structure reactor facility. (1) Lifeline of several marine nuclear power plants in the ocean (593,594,595). Hull location of nuclear power plant (811) The submarine mineral intake sampling machine 911 and the submarine mineral collection robot 911 are connected to the drilling machine 908 and the submarine mineral deposit net 910 connected to the upper part SDU of the ship's body, (915) and wire rope chain (915) on the periscope (913) and the rubber balloon (914) on the pipe line (912) Dual structure piping line Automatic pneumatic valve transport device (916) and core drill (917) (909) of seabed mineralogy manganese nodules.

As shown in FIG. 52, in the distribution input apparatus construction machine constituted by the interior of the main body 1 of the pressurized water double nuclear reactor facility for marine nuclear waste treatment,

The structure and use of the grab dredger 879d, which is constituted by the distribution dispensing apparatus of the nuclear reactor,

It is used to dredge a small-sized lane or anchorage by using a special crane equipped with a clam shell on the ship. The standard mark is indicated by the grab bucket capacity (m ³ ) Explain as follows.

As shown in FIG. 52, in the distribution input apparatus construction machine constituted by the interior of the main body 1 of the pressurized water double nuclear reactor facility for marine nuclear waste treatment,

And a nuclear power plant facility having a double structure block tank dust collector constituted by a distribution input device of a nuclear reactor facility,

Marine nuclear waste disposal treatment Pressurized water double structure reactor facility Main body (1) The hull position of the nuclear power generation facility (811) which constitutes the inside of the ship Main body (d) The ship upper part (SDU) of the marine power plant body dock with the transportation transportation part (811c) (593,594,595) of the marine nuclear power plant of the pressurized water type double-structure reactor facility for ocean nuclear waste treatment for the offshore marine resources constituting the control of the position of the hull of the marine nuclear power plant,

As shown in Fig. 52, is a distribution dispensing apparatus construction machine constituted by the inside of a pressurized water type double structure reactor facility main body 1 for processing a nuclear waste for exclusive use in an ocean source.

The collection of submarine mineral manganese nodules (909)

(1) Internal structure of the nuclear power plant (811) of the internal structure Construction control of the ship (811a) Marine power plant Body dock Crude oil connected to the upper deck part (SDU) of the marine power plant A wire rope chain 915 is attached to the periscope 913 and the rubber balloon 914 in the drilling machine 908 and the undersea mining net 910 in the submarine mineral intake collecting machine 911 and the submarine mineral collection robot 912, (916) and double-structure piping line automatic pneumatic valve transport equipment (916) and distribution equipment of construction equipment (917) Construction machine connection structures are to construct submarine mineral manganese nodules (909).

A number of construction machinery connection structures are used for nuclear waste treatment for marine resources. Pressurized water type double structure reactor facility (1) Nuclear power generation facility consisting of inside (811) Nuclear power nuclear waste treatment unit (811a) And 811c, and the inner block tank is inserted into the inner block tank of the nuclear power plant and the nuclear reactor facility by a crane,

(1) Internal structure of the nuclear power plant (811) of the internal structure Construction control of the ship (811a) Marine power plant Body dock Crude oil connected to the upper deck part (SDU) of the marine power plant A wire rope chain 915 is attached to the periscope 913 and the rubber balloon 914 in the drilling machine 908 and the undersea mining net 910 in the submarine mineral intake collecting machine 911 and the submarine mineral collection robot 912, (593, 594, 595) of a number of offshore nuclear power plants in the offshore, equipped with the construction machine connection structures, and the dual structure piping line automatic pneumatic valve transport device (916) and the core drill (917) (1) Nuclear Hydroelectric Power Plant (811) Consisting of Nuclear Power Plant (811) Nuclear Power Plant (811) Nuclear Power Plant The nuclear waste treatment unit 811a is connected to the nuclear waste disposal marine tunnel transportation device 941, which is the control side of the nuclear power plant facility. The two sides of the distribution side are distributed and a crane is provided inside the double-reactor type double-reactor facility for processing the nuclear waste for marine resources having the double structure block tank dust collector,

Treatment of Nuclear Waste for Offshore Nuclear Waste Treatment A number of marine nuclear power plants (593,594,595) composed of a double-walled pressurized water reactor are equipped with double-walled nuclear reactors for marine resources of a nuclear power plant. It is composed to be able to collect.

As shown in FIG. 53, the equipment control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment, ) Is a marine nuclear power generation production control unit 811b that provides power production showing the configuration of the double pipe structure piping line control side 238 of the nuclear waste disposal of nuclear hydroelectric power plant.

Distribution input device Nuclear waste disposal for marine resources constituting control of hull position movement of floating ocean tractor (593,594,595) of several marine nuclear power plants constituting construction machinery in the ocean Pressurized water type double structure reactor facility Main body (1) (811) Nuclear waste disposal unit of nuclear power plant (811a) Moving hull position of nuclear power plant Nuclear waste disposal, marine tunnel transportation device (941) which is the control side of nuclear power plant facility and double body nuclear reactor facility ) To distribute the inner block tank insertion into the double structure block tank dust collector by distributing the both sides of the distribution shaft side constituting the inside of the double structure block tank dust collector, The equipment is equipped with a construction machine crane,

(593, 594, 595) of several marine nuclear power plants included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for ocean nuclear waste treatment, as shown in FIG. 53 At nuclear power plant facilities,

Marine nuclear waste treatment for pressurized water type double structure nuclear reactor facility for marine resources The main body of nuclear power plant (1) is located in the nuclear power plant (811) The crusher 874 constituting the connection structure of the construction machine position adjusting crusher 874 of the hull locomotion control of the floating consoles 593, 594, 595 of several marine nuclear power plants constituting the SDU,

A shredder 874e constituting the construction machine crusher 874 and a feeder hopper 874c and a vibration grease repeater 874d are attached to the chassis frame 874b. And a crusher 874 as a connection structure of a vibration screen 874g and a drum elevator 874h in a secondary jaw crusher 874f located in the vicinity of the second jaw crusher 874f and used for compaction of aggregate layers in road and concrete construction.

As shown in FIG. 53, the distribution input apparatus construction machine in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

It is used for crushing and grinding. It is used mainly for the production of aggregate. It is going to go through the process of screening the mining ore for mining of underwater.

Thus, the types of crushers are separated into primary, secondary, and tertiary crushers. Explanations of the respective parts of the primary crusher will be described as follows.

As shown in FIG. 53, the distribution input apparatus construction machine (1) included in the nuclear power generation facility unit (811) constituted inside the main body (1) of the pressurized water type double structure reactor facility having a double structure block tank dust collector, Quot;

Joe Crusher, which consists of construction machinery,

As a machine to be crushed by compressive force, rocks are inserted between the jaws on both sides, and one side is fixed, and the other side is operated, and the stone is crushed by the price pressure at this time, So that it comes down in the discharge direction.

Such a construction machine jaw is made of a structure capable of crushing any hard rock pomegranate with strong force.

As shown in FIG. 53, the distribution input apparatus construction machine (1) included in the nuclear power generation facility unit (811) constituted inside the main body (1) of the pressurized water type double structure reactor facility having a double structure block tank dust collector, to be.

The construction machine is made of cast iron or steel, and consists of a frame lower eccentric shaft and a drive gear, and the upper part has a cone-shaped crushing chamber.

The crusher is a crusher which has a hard crushing head on the vertical crushing shaft and is first crushed while rotating and then discharged to the bottom crushing chamber.

The crusher constructed by the construction machine is less vibration than the jaw crusher and has the advantage of continuous crushing. It has the upper part of the machine as the discharge port and the lower part as the discharge port, so that the grit input hopper is installed to the dump truck There is an advantage that it can be loaded as it is.

The hammer crusher of the impact crusher is provided with a large number of discs on one rotating shaft, and when a rectangular hammer is hung around the hinges to rapidly rotate the hammer crusher, the stones are struck to be crushed by the striking force at this time will be.

53, as shown in FIG. 53, the nuclear waste treatment unit for dual-structure nuclear reactor main body 1 of the marine nuclear waste treatment type, which is included in the nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1, (1) is a distributing and dispensing equipment construction machine.

The crusher of the second crusher, which consists of a construction machine,

An umbrella shape is placed on the short vertical spindle, and the mantle head is put on the frame.

This structure is somewhat complicated because it is crushed by the impact action, and there is almost no slip in which the crushed stone flows down as it is, and the crushing ratio is relatively large. Impact force and compressive force are used.

Compared to Zaireetori crusher, the cone is short, the size of the supply port is small, and the outlet gap size is the largest size, so that the standard product can be produced.

The hammer mill crusher's double roll crusher is suitable for mass production of certain aged aggregates.

The two hard rolls are fixed on separate horizontal shafts and the spacing can be adjusted freely. The rolls are arranged in parallel, but the rolls are rotated in opposite directions so that the rocks are held between them, And is crushed. This roll has the main function of compression crushing and discharging and is widely used in the production of packing aggregate.

As shown in FIG. 53, the distribution input apparatus construction machine included in the nuclear power generation facility unit 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

The rod mill of the third crusher 874 constituted by the construction machine was to produce fine aggregate of 5 mm or less and the rod mill and the ball mill constituted by the construction machine,

As a machine for producing crushed stone as fine aggregate, a rod of short round rod is put into a forced round drum,

In this case, fine aggregate is continuously supplied with water, and the drum is rotated to be pulverized and then flowed out. In this case, the particle size is relatively uniform, and when the water is small, it is finely crushed. When the water is small, Big. Wheat with water is wet, and dry without water is generally wet.

As shown in FIG. 53, the distribution input apparatus construction machine included in the nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine resource exclusive nuclear waste treatment is constituted by a ball mill Is different from that in which a steel ball is rotated in a cylinder instead of a rod mill to obtain a new aggregate.

Its standard specification is to display the crushing capacity per hour in tonnes (TPH (ton per hour)].

As described above, a crusher is used as a machine for crushing and reducing crushed stones, and is used for all crushing operations. It is mainly used for aggregate production. The power source 46 of the engine generator 226 serves as a marine tunnel transport device 941 ) Of the nuclear power plant (811) consisting of a double structure reactor (1) inside a pressurized water treatment plant for the nuclear waste treatment for a marine resource, A submarine mineral intake sampling machine 911 and an undersea mining collecting robot 911 are connected to an oil drilling machine 908 and a seabed mineral deposit net 910 connected to the upper portion SDU of the body of the marine power plant dock, (915) and a wire rope chain (915) to a periscope (913) and a rubber balloon (914) in a pipeline line 912 and a double structure pipeline line automatic pneumatic valve transport device 916 and a core drill 917 (909) seawall minerals manganese nodules collected by mechanical connection structures.

The rod mill of the crusher 874, constituted by the construction machine,

Since the ball mill produces less than 5 mm of fine aggregate, the ball mill is a machine for producing broken rocks as fine aggregates, and the new aggregate crushed stone is connected to the connection structures of the nuclear power plant (811) And is configured to form a water double structure reactor installation.

Its standard specification is to display the crushing capacity per hour in tonnes (TPH (ton per hour)].

As shown in FIG. 53, a crusher is made and supplied as a crushing machine to crush the ore contained in the nuclear power plant 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source-only nuclear waste treatment Is configured to be used for a limited period of time before completion of the marine tunnel traffic device 941, which is used for all crushing operations and is mainly composed of the power sources 46 of the engine generator 226 used for aggregate production,

A plurality of construction machinery connection structures, and a nuclear waste disposal treatment for marine resources, a pressurized water double structure reactor facility, a hull locating structure of a nuclear power generation facility (811) constituted inside the main body (1) The submarine mineral intake sampling machine 911 and the submarine mineral collection robot 912 are connected to the periscope 913 and the submarine mineral collection netting 910 by the crude oil drilling machine 908 and the undersea mining trough net 910 connected to the upper portion SDU of the power plant body dock hull deck Wire rope chain (915) with rubber balloon (914) Double structure pipeline Automatic pneumatic valve transport device (916) and core drill (917) Distribution equipment of construction machine Submerged mineral manganese nodule 909) A machine for crushing and reducing gemstones, the rod mill of the crusher 874 is a ball mill constituting the production of fine aggregate of 5 mm or less,

As shown in FIG. 53, the rod mill and the ball mill included in the nuclear power plant 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source-only nuclear waste treatment produce crushed stone as fine aggregate And consists of pressurized water reactor facilities for the treatment of nuclear waste at a marine nuclear hydroelectric plant with a dual structure block tank dust collector to form a new aggregate crusher.

As shown in Fig. 54, the facility control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source nuclear waste- ).

The marine nuclear power generation production control unit (811b) constituting the double pipe structure piping line control side (238) of the marine nuclear power plant equipped with the pressurized water type double reactor reactor facility for the marine nuclear power plant has a double structure block tank dust collector In the marine nuclear power generation production control section (811b) constituting the double pipe structure piping line control side (238) of the pressurized water type double structure reactor facility for the marine nuclear power plant of the marine nuclear power plant having the nuclear waste treatment (811b) constituting the double pipe structure piping line regulation side (238) constituting the double pipe structure piping line control unit (238) constitute the elemental marine nuclear power plant dock hull deck upper part SDU) to control the hull position of several marine nuclear power plant flood control stations (593, 594, 595) An elemental marine nuclear power plant dock constituting a pressurized water reactor double-structure reactor facility for ocean nuclear waste treatment that constitutes position control. Hull position movement control of several marine nuclear power plant flotation stations (593, 594, 595) And Nuclear Power Generation Facilities Nuclear waste treatment for marine resources constituting control of position of construction machinery Elementary ocean nuclear hydroelectric power plant constituting pressurized water type double structure reactor facility Dock The number of marine nuclear hydroelectric power plants constructed at the upper part of deck of ship (SDU) (593, 594, and 595), and the double-structure reactor installation for pressurized water treatment for nuclear waste treatment for ocean resources constituting the control of the position of the nuclear power plant construction machinery,

As shown in FIG. 54, a marine nuclear power plant with a hull position shift control of a floating ocean tractor (593, 594, 595) of several marine nuclear power plants composed of a marine nuclear power plant having a pressurized water double- (593,594,595) of a number of marine nuclear power plants consisting of distributing and inputting devices of nuclear reactors constituting a nuclear reactor facility, the nuclear waste treatment for marine resources constituting the reactor facilities of marine nuclear power plants, Nuclear Power Generation Facilities (811) Consisting of Nuclear Power Plant (1) Inside Nuclear Power Plant (811a) Nuclear Power Generation Facilities (811a) Waste Treatment Double-structure reactor water pressure type double-structure reactor block (1) One pressurized water reactor nuclear waste processing facility for marine nuclear power hydroelectric plants equipped with dust collectors provide a hull shift adjustment and nuclear power plants for insertion into the interior pressurized reactor facility male dual structure with cranes and construction machinery,

Hull position control and nuclear power plant construction Several nuclear power plants (593,594,595) of nuclear power plants constituting the construction equipment are equipped with the nuclear power plant facilities and are constructed inside the cylinder (126) used as a construction vehicle or a conveying machine of the conventional technology level In the shaft bar portion

A high pressure pump in front of the cylinder 126 constituting each seal 156, a crank 248 connected to the high pressure hose 190, the coupling 29 and valve devices, And is assembled with a link stand (249) used as a connecting device, and is connected to a transportation transport section (811c) of a hull position moving construction machine of a nuclear power generation facility unit (811) constituted inside the pressurized water type double structure reactor facility main body Constitutes the construction machine position control of the hull displacement control of the marine auxiliaries (593, 594, 595) of the several marine nuclear power plants constituting the upper part of the dock deck (SDU)

The cylinder and the piston constituting the hydraulic cylinder 623 body, which includes the construction machine connecting structure of the disassembly coupling of the previous cylinder 126 as the heavy construction machines,

The load ring piston 822 constituting the hydraulic cylinder 623 and the slide ring 826 and the di bushing 827 to the bush seal 824 and the wed ring 825 to the piston seal 823 A backup seal 830 is provided on the O-ring 828 and the load seal 829 and a multistage seal 834 is formed on the multistage seal 832 and the multistage seal 833 on the load and back seal 831, And a piston ring 836 and a piston ring 837 are provided on the periphery of the piston 127 and the inside of the cylinder 126 so that the high pressure valve and the low pressure valves of the hydraulic pump, And the hydraulic hoses are connected to each other by electric motor, hydraulic tank and hydraulic hoses to provide water storage tanks for treating nuclear waste and marine tunnel traffic equipment, and construction equipment for marine hydroelectric dam facilities. And the nuclear waste treatment for the marine resource. The pressurized water type double structure nuclear reactor facility Constitutes the body of the cylinder 623,

The cylinder body is provided with a pressure pipe 14, a reed 35, an elbow elbow 44 and a flange 28, which are parts of a connecting device, 474 and the hydraulic hose 190 while at the same time the coupling 29 constitutes male and female threads.

Nuclear waste disposal for marine resources Nuclear power plant (1) Internal pressurized water reactor (811) Nuclear waste disposal unit (811a) Moving hull position Nuclear waste disposal (941) and dual structural block tank dust collectors, the two sides of the distribution side constituting the pressurized water type double structure reactor facility main body for processing the nuclear waste for the offshore source are distributed to the marine vessel having the double structure block tank dust collector A nuclear power plant's nuclear waste treatment for marine resources is provided by a construction vehicle or a conveying machine for inserting a pressurized water double structure reactor unit into a double structure block tank dust collector,

The shaft bar constituting the inside of the cylinder 126 used as a construction vehicle or a conveying machine of the conventional technology level equipped with the nuclear power plant facilities of the floating ocean tractor (593, 594, 595) of several marine nuclear power plants constituting the construction vehicle or the conveying machine furnace

A high pressure pump in front of the cylinder 126 constituting each seal 156, a crank 248 connected to the high pressure hose 190, the coupling 29 and valve devices, (2) Construction of nuclear power plant (811) consisting of pressurized water type double structure reactor facility main body (1) treated with nuclear waste for marine resources by a construction vehicle or a conveying machine while assembled with a link stand (249) (811c) of the machine constitutes the control of the position of the hull of the marine nuclear power plant (593,594,595) of the ocean at the upper part of the hull deck (SDU) of the marine power plant body dock,

The cylinder body is provided with a pressure pipe 14, a reed 35, an elbow elbow 44 and a flange 28, which are parts of a connecting device, 474 and the hydraulic hose 190 while at the same time the coupling 29 constitutes male and female threads.

As shown in Fig. 54, in the hydraulic equipment for distribution dispenser apparatus constituted inside the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste for exclusive use in the offshore source,

With respect to the definition of hydraulic pressure, the hydraulic pressure is the mechanical energy that is converted into the pressure energy of the fluid by the hydraulic pump using the power and stored in the hydraulic oil. The pressure is controlled by the control valve, the flow rate The advantage of hydraulic pressure, which means an apparatus or a system for converting three basic control elements of switching (direction control) to mechanical energy again through a hydraulic cylinder or an actuator of a hydraulic motor,

(Force, direction, speed) and control by precise movement and quiet operation and reversal, which is possible to start with large load, Performance and excellent heat release performance.

As shown in Fig. 54, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

In the disadvantage of such a hydraulic pressure, the hydraulic system is constituted by low efficiency due to the danger due to the use of the high pressure and the change of the working condition due to the temperature change due to the foreign substance being sensitive to the contamination of the surrounding environment by the waste oil.

The hydraulic system constituting the hydraulic device includes:

First, the power supply and control and output sections can be divided, the power supply section supplies the system with the flow rate,

The most important components of the hydraulic system are:

The prime mover is provided with a prime mover and pumps, which provide the mechanical power required to drive the pump. In industrial systems, the prime mover is generally used as an electric motor,

In the case of a vehicle such as an excavator or a farm machinery, the prime mover is an automobile engine, and the pump obtains mechanical power from the prime mover and converts it into a flow of fluid with pressure.

The hydraulic system constituting the hydraulic device includes:

The power can be divided into power supply, control and output parts, and the power supply part supplies the system with the flow rate. The most important parts are the prime movers and pumps, which provide the mechanical power needed to drive the pump In the case of a vehicle such as an agricultural machine in an excavator, a prime mover is an automobile engine, and a pump obtains mechanical power from a prime mover and converts it into a flow of fluid with pressure .

As shown in Fig. 54, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

The output device of the hydraulic system includes an actuator (actuator) and a load, and the actuator serves to move the load by converting the power of the fluid into mechanical power, while the actuator is a cylinder (linear actuator) And a hydraulic system output device for the case of a hydraulic motor (rotary actuator) that generates the hydraulic pressure.

As shown in Fig. 54, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

The control unit is located in the middle of the hydraulic system, and the components include a directional control valve, a pressure control valve, and a flow control valve.

For example, the direction of motion of the actuator can be adjusted by directional control of fluid flow, such as when the cylinder advances or retracts.

As described above, controlling the pressure of the fluid is controlling the force of the output, while controlling the flow rate constitutes the control of the velocity of the actuator.

As shown in Fig. 54, the distribution input apparatus construction machine constituted inside the pressurized water double structure reactor facility main body 1 for the marine nuclear waste treatment,

The pressure source consists of a tank for collecting the required amount of oil, a hydraulic pump for pumping the oil from the tank to the inside of the circuit, and safety valves for protecting the power source. However, Pump to gear and vane Piston pump to motor and tank to relief valve Shut-off valve to pressure gauge (Heat-exchange) to thermometer to filter Suction line to pressure line and return line At the same time, the controller is described as shown in the following table.

As shown in Fig. 54, there are constituted a pressure control valve for regulating the pressure of oil, a direction switching valve for switching the flow direction of the oil and switching the operating direction of the actuator, and a flow control valve for adjusting the operating speed The pressure control valve is a counterbalance valve for the relief valve and the relief valve and the unbalanced valve for the sequence valve and the unbalanced valve. The directional control valves are 2/2 and 3/2 to 4/2 and 4/3 to 5/2-way valves, The control valve consists of orifice and operating speed control,

The configuration of the hydraulic device is explained as shown in the following table.

As shown in FIG. 54, the construction machine of the distribution input apparatus hydraulic unit constituted inside the main body 1 of the pressurized water type double structure reactor facility for processing the nuclear waste for exclusive use in the offshore source,

(1) Nuclear waste disposal for pressurized water type double-walled nuclear reactors (1), which constitutes the reactor facility of marine power plant facilities for controlling the hull position movement of floating marine plants (593,594,595) of several marine nuclear hydro- Nuclear Power Generation Facilities (811) of Internal Nuclear Power Plant Nuclear Waste Treatment Unit (811a) of the Nuclear Power Plant Nuclear waste treatment, which is the control side of the nuclear power plant facility, is composed of a marine tunnel equipped with a marine tunnel transportation device (941) Dedicated Nuclear Waste Treatment Pressurized Water Type Double Structure Reactor Facility (1) A double structure nuclear reactor facility equipped with a dual structure block tank dust collector for distributing both sides of the distribution side constituting the inside of the pressurized water type nuclear reactor facility The double structure block tank is provided with a construction machine crane inserted into the dust collector,

At the nuclear power plant facilities of the floating ocean tractor (593, 594, 595) of several marine nuclear hydroelectric power plants making up the construction machinery,

The actuating part is a rocking motion in the linear motion and the rotation motion and is described as the following table.

First, the cylinder of linear motion is linearly pressed or pulled.

Secondly, the motor of the rotary motion profits the heavy object with the wire.

Third, the oscillating motors of the oscillating motion rotate at a certain angle. Table 1-2 describes the operation of the power and pressure oil in the hydraulic system as shown in the table below.

The units of mass and force and the pressure and power of the main physical quantity and the physical quantity of the unit are described in detail in the following table.

First, in physical quantities, physical quantities are properties of an object, that is, states or processes that can be measured. For example,

The velocity, speed, pressure, time, and temperature are the physical quantities, the colors are not physical quantities, the length is Me et (m), the mass is K i l o g r a m (k g)

The time is normalized to S econd (s) and the temperature is normalized to K elvin (K) or C elsius (° C). The major physical quantities in the hydraulic system, ie force, area, flow rate, can do.

S I defines k g as a unit of mass.

Second, in terms of mass, mass is generally used in terms of weight, and cubic steels with a mass of 1 kg on Earth have a mass of 1 k g.

Thirdly, in terms of force, mass describes the mass unit with its own properties, independent of gravitational acceleration, and the unit of force is determined in relation to gravitational acceleration (N ewton, 1643-1729) ㅧ acceleration ( F = m ㅧ α ), force = kg ㅧ m / s ² This is simply called [N], which is defined as 1N = 1k g m m / s ² .

In the pressure in fourth, pressure is the "pressure to be applied to the unit area of the object, the force" and the unit in the [kg _f / cm ^2] of metric engineering units so far or [kg _f / m ^2] is primarily used But in the future it will have to use the SI unit [N / m ² ], P a.

As described above, with the transportation transportation unit 811c of the hull position moving construction machine of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste for marine resources only, The previous cylinder 126 showing the construction machine position adjustment arrangement of the hull locomotion control of the floating consoles 593, 594, 595 of the several marine nuclear power plants in the ocean at the upper deck section (SDU), and the bossable plunger of the plunger pump 148 The pump 148b and the radial plunger pump 148c are connected to the construction machine connection structure. The dual structure block consists of the double-structure reactor installation of the marine nuclear power plant for the marine nuclear power plant equipped with the tank dust collector.

As shown in FIG. 55, the equipment control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source nuclear waste- ),

The dual hydrocarbons of the nuclear power plant nuclear waste hydrotreatment power production control unit 811b, which provides the power production showing the construction of the block piping line control side 238, is equipped with a dual structure block tank dust collector, The marine nuclear power generation production control unit 811b for providing power production showing the construction of the double pipe structure piping line control side 238 of the nuclear waste disposal of the nuclear power plant of the power plant is provided with a double structure block tank collector Dedicated Nuclear Hydroelectric Power Plant Dock constituting a pressurized water reactor type nuclear reactor facility for dumping of raw nuclear waste water Several hydroelectric power plants of hull locomotion control system of several marine nuclear power plant flood control consoles (593,594,595) constituting the upper part of deck of hull deck (SDU) Nuclear waste disposal for pressurized water type double structure nuclear reactors Control of hull position movement of marine nuclear power plant (593,594,595) and disposal of nuclear waste for marine resources Nuclear power plant (811) constituting pressurized water double structure reactor facility (811) Nuclear power plant nuclear waste disposal unit (811a) (941), which is the control side of the facility, and the distribution side composed of the inside of the main body (1) of the pressurized water type nuclear reactor waste treatment facility for marine resources, is provided and a double structure block tank dust collector The construction of a double-structure reactor facility for the marine nuclear waste treatment of a marine nuclear power plant is inserted into a dual structure block tank dust collector as a construction machine crane,

At the nuclear power plant facilities of the floating ocean tractor (593,594,595) of several marine nuclear power plants making up the construction machinery,

The cylinder body includes a high pressure piping 14, a reed 35, an elbow elbow 44 and a flange 28, which are separated from each other by a hydraulic pump so as to be separated from the hydraulic pump, (29), which constitute a coupling to the hose (474) and the hydraulic hose (190)

Nuclear waste disposal for marine resources equipped with a male and female screw thread connection Double structure nuclear reactor facility of the pressurized water main body (1) Lifeline of several marine nuclear power plants in the ocean (593,594,595) Hull of nuclear power plant (811) (811c) of the marine power plant with the construction transport machinery (811c) of the marine structure composed of the upper part of the ship's deck (SDU) and the lower part of the deck (SDL) A cylinder (126) constituting a construction machine position control of a hull locomotion control of a hydro-electric power station's flood control console (593,594,595), and a pressurized water reactor arrangement for processing nuclear waste, Marine Nuclear Hydroelectric Power Plant Dock The hydro-power foot of the marine dock top control (SDU) of several marine nuclear power plant flood control stations (593, 594, 595) (593,594,595) of several marine nuclear power plants constituting elemental marine control of facility construction machinery, and control of hull position movement and nuclear waste treatment for marine resources. (811) Nuclear waste disposal unit of nuclear power plant (811a) Moving hull position of nuclear power plant Nuclear waste disposal, marine tunnel transportation device (941) which is the control side of nuclear power plant facility and double body nuclear reactor facility ), A double structure reactor type nuclear water waste treatment type water pressure type dual structure reactor equipped with a double structure block tank dust collector is installed into a double structure block tank dust collector and a construction machine crane is provided,

(1) In the ocean, there are several marine nuclear power plants in operation. (593,594,595) Nuclear power plant (811) Nuclear power plant (811) (811c) of the construction machinery Body dock of the marine power plant Several marine marine vessels composed of the upper part of the deck (SDU) and the lower part of the deck of the deck (SDL) Cylinder (126) constituting construction machine position control of hull position movement of a nuclear hydroelectric plant (593,594,595) Construction machine of disassembly construction Construction machine of marine nuclear power plant with double structure block tank dust collector with connection structure .

56, the facility control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source nuclear waste- ),

A double tube structure of a pressurized water reactor for nuclear waste disposal The marine nuclear power generation production control section (811b) constituting the regulating side (238) of the piping line control side includes a marine nuclear reactor equipped with a pressurized water double- Elemental marine power plant dock with nuclear power plant Several marine hydroelectric power plants (593,594,595) constructed on the upper deck of the hull (SDU) Nuclear waste treatment Pressurized water type double structure reactor facility The hull position of the nuclear power plant 811 of the floating consoles (593, 594, 595) of several marine nuclear power plants constructed inside the main body (1) (593,594,595) of several marine nuclear power plants located in the upper part of the ship's deck (SDU) of the marine nuclear power plant body dock Piston motors (885a), the value of the pressure connection structure of the construction machine Chi cylinder 126 and the hydraulic cranes (885) constituting the construction machine position control of the movement control is generally compared to the atmospheric pressure.

As shown in Fig. 56, the distribution input apparatus construction machine of the nuclear waste processing nuclear reactor waste disposal reactor constructed in the pressurized water type double structure reactor facility main body 1 for marine nuclear waste processing,

Atmospheric pressure is the atmospheric pressure, which is called the atmospheric pressure.

1a tm = 760m m H g (water temperature main height) = 10332k g _f / m ² = 1.0332kg _f / cm ²

= 10.332m A q (height of water) = 101325N / m ² = 1.0 1325b ar

As shown in FIG. 56, the gauge pressure is a pressure measured by a gauge and is a pressure measured based on the local atmospheric pressure.

As shown in Fig. 56, the absolute pressure is a pressure measured based on the complete vacuum.

As shown in Fig. 56, the distribution input apparatus construction machine of the nuclear waste disposal reactor facility,

In the fifth power,

Work is defined as the amount of energy consumed and is calculated as the product of the distance traveled because of the applied force and force ( W = F S ). Suppose you need 300 N of force to move an object 40 m. In this case, the work is W = 300N ㅇ 40m = 1200N ㅇ m [J]. However, the idea of work alone can not tell how fast the object has moved. Was this done in 10 or 5 seconds? That is, power takes into account how fast energy is consumed. By dividing the work by the time it took, you get the expression for the power.

For example, if the work is N m m and the time is in seconds, the power will be N m m / s. In general, P is used for capital letters, while the lower case p is symbol of pressure , Where s / t is replaced by speed υ in the above equation.

For example, if the force is N, the velocity is m / s, a unit of power is the o N m / s. Power is also expressed by horsepower. The conversion relation between these two units is as follows.

As shown in Fig. 56, the distribution input apparatus construction machine of the nuclear waste processing nuclear reactor waste disposal reactor constructed in the pressurized water type double structure reactor facility main body 1 for marine nuclear waste processing,

Since the change relation between the units is applied to the equation, the force is N and the velocity is m / s. Therefore, the equation should not be used as any other unit while limiting the use of the unit. In the international system, power is used as a unit of watt (W att; W). Since W is a small unit, it is usually expressed in kilowatt (k W) 1000W) into equation (1.2), the following equation used in the international system of units is obtained.

As shown in FIG. 56, the k W symbol is used to indicate that the unit of the value calculated in the above equation is kilowatt (k W). The unit applied in Eq. (1.3) is F (force) N, and υ (velocity) is m / s.

As shown in FIG. 56, the flow of the fluid and the flow of the friction in the Bernoulli equation and the principle of Pascal's principle and the pressure transfer to the static statics of the fluid are described in detail as follows in the continuity equation of a simple fluid dynamics used in a hydraulic machine.

In the continuity equation, the continuity equation applies the law of mass invariance to the flow of fluid, which means that the fluid in the closed path of the closed curve is not created or destroyed on the way.

As shown in FIG. 56, the distribution input apparatus construction machine of the nuclear waste disposal reactor apparatus constituted inside the main body 1 of the pressurized water type double reactor facility 1 for processing the marine nuclear waste,

When the flow in the conduit I la steady flow, and the fluid does not take into account the compressibility, set the arbitrary cross section ① and ②, which is orthogonal to the tube, and each of the average flow velocity in the cross-sectional υ ₁ υ _2, a stage area A ₁ A ₂ , density is ρ ₁ ρ ₂ , and the amount of fluid flowing through each cross section per unit time must be the same according to the law of mass invariance. That is, if the mass is m ,

은 임의의 점에 있어서 관로를 지나는 질량 유량이다. And here,

Is the mass flow rate through the pipeline at any point.

( ₁₎ Since masses passing through a point in unit time are ρ ₁ , A ₁ , and υ ₁ , the above equation becomes

As shown in Fig. 56, the distribution input apparatus construction machine of the nuclear waste disposal reactor facility,

으로 되며 이 Q를 유량이라 하고 관로 속을 지나는 유체의 유량은 어느 단면에 있어서나 일 정하다는 것을 나타낸다. 즉 유압에서는 유량이란 "단위 시간에 이동하는 액체의 양"을 말하며 토 출 량으로 표현하고 있고,유량은 통상적으로 기호 Q로 표시하고 단위는 ℓ/m i n. c c/s e c 으 로 표시하며 유속은 "단위 시간에 이동하는 유체의 거리"를 말하는 것으로 위 식으로부터

When the fluid is uncompressed, ρ = C onst .

And this Q is called the flow rate, and the flow rate of the fluid passing through the pipe shows that it is fixed at a certain section. In hydraulic pressure, the term "amount of liquid moving in unit time" is expressed as the discharge amount, and the flow rate is usually expressed by the symbol Q , and the unit is expressed as l / mi n. cc / sec, and the flow rate refers to the "distance of fluid moving in unit time" from the above equation

And is expressed in units of m / s.

As shown in Fig. 56, the distribution input device construction machine of the pressurized water type double structure reactor facility for the nuclear waste treatment for marine resources,

In the Bernoulli equation,

The Bernoulli equation describes the relationship between the total energy of the noncompressible fluid and the hydraulic fluid is nearly noncompressible, so the Bernoulli equation can be used for hydraulic systems and the fluid energy can be expressed in three forms.

First, fluid energy (due to height and protagonist) = W h

The following pressure energy (due to pressure) = W ㅇ

Next kinetic energy (due to velocity) = W ㅇ

 As shown in Fig. 56, the distribution input device construction machine of the pressurized water type double structure reactor facility for the nuclear waste treatment for marine resources,

The above three energy units are Nm. If there is no energy coming in or out from a system in any system, the energy at any two points must be the same.

Since W is common to each term, the following equation is obtained by dividing it.

This is a Bernoulli equation that expresses all of the energy contained in a fluid per unit weight, so if one of the three energies increases, the energy of one or both of the other two energies decreases, so that the sum of the three energies is equal Balance.

As shown in Fig. 56, the hydrostatics of fluid is proportional to the pressure of hydrostatics, regardless of the shape of the vessel. Therefore, it can be expressed as the product of the specific weight of the fluid and the head.

p = rh (1.6)

As shown in Fig. 56, the distribution input apparatus construction machine of the nuclear waste processing nuclear reactor waste disposal reactor constructed in the pressurized water type double structure reactor facility main body 1 for marine nuclear waste processing,

Nuclear power generation facilities (811) constituting a pressurized water reactor facility for the treatment of the nuclear waste of the marine environment of the marine plant (593, 594, 595) of several marine nuclear power plants constituting the construction machinery in the sea, ) Nuclear waste treatment Marine nuclear waste disposal facility (941), which is the control side of the nuclear power plant facilities, and both sides of the distribution side composed of the inside of the main body (1) A pressurized water reactor facility for nuclear waste disposal is installed in a double structure block tank dust collector as a construction machine,

Nuclear Waste Treatment for Offshore Nuclear Power Plant At the nuclear power plant facilities of the marine plant (593,594,595) of several marine nuclear power plants constituting the pressurized water double structure reactor facility,

Nuclear waste disposal for marine resources Pascal water double structure reactor The principle of Pascal, which is composed inside the main body (1)

When a fluid is pressurized by a force (a force of a person, a force of a machine, or a force in a sealed container), the pressure applied to the fluid is transferred to another object of the same magnitude in all directions. Pascal is the person who uncovered it, and it is called "Pascal's principle." He uses this principle in a pneumo-hydraulic device, and the pressure on the surface where the stopped liquid is in contact with each other acts perpendicularly to the contact surface. The magnitude of the pressure acting at one point on the liquid is the same for all directions, and so is the principle of Pascal, since the pressure applied to a portion of the liquid stopping in a sealed container is transmitted to all parts simultaneously with the same intensity.

As shown in FIG. 56, when a liquid is put in a closed container and a force F is applied from above, the liquid has a property of not decreasing the volume even when compressed, so that the liquid has a force against the force pressing it from above. This is called the reaction force, and the reaction force of such liquid is called the pressure ( p ).

The pressure in the vessel is the force F divided by the area A of the piston.

단, 실린더 내 액체의 높이 차에 의한 압력의 차이는 p값에 비해 매우 작으므로 무시할 수 있다.As shown in Fig. 56, the principle of pressure transfer is such that, when the liquid is filled in the cylinder and the forces of F ₁ and F ₂ are applied to the piston cross-sectional areas A _{1 and} A ₂ , If there is no friction between the piston and the cylinder, there is no leakage from this part, and there is no energy loss due to the transfer, the pressure generated in the two cylinders can be expressed by the following equation.

However, the difference in pressure due to the height difference of the in-cylinder liquid is negligible as it is very small compared to the p value.

From the above equation

Is obtained. That is, the force is proportional to the cross-sectional area of the piston. Since A ₁ is smaller than A ₂ , a force F _{2 that} is sufficiently larger than F ₁ is obtained. Hydraulic presses and hydraulic presses use this principle.

Embodiment of the hydraulic intensifier, the surface area is in connection by the rod to the other two pistons when the action of the pressure p ₁ on the piston area A ₁ is transmitted to the small piston force F ₁ is via the load acting on the force the cross-sectional area A ₁ Therefore, the pressure p ₂ is increased and the friction loss is neglected.

The pressure in the pressure intensifier is inversely proportional to the area of the piston.

As shown in Fig. 56, the distribution input apparatus construction machine of the nuclear waste processing nuclear reactor waste disposal reactor constructed in the pressurized water type double structure reactor facility main body 1 for marine nuclear waste processing,

The fluid flow is generally called the internal flow, where all interfaces of the fluid flow are solid surfaces, and this flow is largely divided into laminar flow and turbulent flow, and laminar flow is the dominant flow of viscous force over inertial force, In other words, if the velocity is small and the velocity is viscous, it satisfies Newton's viscosity law. In contrast, the turbulent flow is the dominant flow over the viscous force. In general, the flow in a hydraulic system is a laminar flow.

 As shown in Fig. 56, the distribution input device construction machine of the pressurized water type double structure reactor facility for the nuclear waste treatment for marine resources,

As shown in the table above, friction and flow are lossy when hydraulic energy is transferred through piping. The friction is generated by the fluid itself and the inner wall of the pipe, and the hydraulic energy that generates heat is converted into thermal energy. At the same time, the loss of hydraulic energy refers to the pressure loss of the hydraulic fluid. Since the hydraulic fluid has pressure loss in all the structures in the hydraulic facility Since loss is due to friction of the flow medium and pressure loss in the structure that changes to thermal energy is sometimes deliberately generated, the pressure loss that generates heat in the structure is not desirable, As the fluid in the pipe runs in the direction of the arrow, the pressure in the direction of flow gradually decreases because it is heated by the structure.

As shown in Fig. 56, the distribution input device construction machine of the pressurized water type double structure reactor facility for the nuclear waste treatment for marine resources,

Thus, the hydraulic pump is divided into the power and efficiency of the pump in relation to the hydraulic pump overview and the relationship between the discharge amount and the pressure.

The equipment that converts the mechanical energy supplied from the prime mover into hydraulic energy and increases the hydraulic energy level of the hydraulic oil to apply energy to the hydraulic system is called a hydraulic pump. The pump is classified as a cost saving pump and a volume type pump.

The non-volatile pump is a centrifugal pump, an alternating-current pump, an axial pump, and a spraying pump, in which the energy conversion is performed in a state that the energy is not blocked, and there is a certain relationship between the discharge amount and the pressure.

A positive displacement pump is a pump that discharges a certain amount of fluid each time the axis of the pump rotates. Since the discharge amount is constant regardless of the load pressure and the discharge pressure is determined according to the load pressure, if the load becomes excessive, In the hydraulic system, the hydraulic pump sucks the low-pressure hydraulic oil in the tank by applying the pump operation, and energizes the low-pressure hydraulic oil. Then, the high-pressure hydraulic oil is sent to the closed operation portion again, The work or energy applied to the hydraulic oil by the pump operation is given by the following equation: work = (force) ㅧ (displacement) = (pressure) ㅧ (Displacement) ㅧ (displacement) = (pressure) ㅧ (exclusion volume).

과 같이 된다.The work done in unit time, ie, power or power,

.

 As shown in Fig. 56, the distribution input apparatus construction machine of the nuclear waste processing nuclear reactor waste disposal reactor constructed in the pressurized water type double structure reactor facility main body 1 for marine nuclear waste processing,

Table 2-1 shows the relation between the discharge amount and the pressure according to the classification of the hydraulic pump as shown in the following table.

위 표와 같이, 유압 펌프의 토출량은 입력축을 1회전 시킬 때 토출구로부터 내보내진 작동 유의 체적으로 나타내며,예를 들어 32c c/r e v라면, 1회전당 토 출 량이 32c c라는 것이며,

As shown in the above table, the discharge amount of the hydraulic pump is represented by the volume of the operation oil discharged from the discharge port when the input shaft is rotated once. For example, in the case of 32 cc / rev, the discharge amount per one revolution is 32 cc,

When the hydraulic pump is driven at a speed lower than the speed, there is a &quot; lowest rotation speed &quot; at which a predetermined discharge amount can not be maintained. When the hydraulic pump is rotated beyond the speed, the life is shortened to an extreme end, This is because the hydraulic pump can be driven at any speed within the range of the minimum and maximum rotation speeds, and the flow rate of the working oil discharged from the discharge port is increased in proportion to the rotation speed. Therefore, a hydraulic pump of 32 cc / rev is operated at 1500 rpm The flow rate from the discharge port is 48,000 cc / min (48 t / min) which means 1500 cc of 32 cc, ie, '48,000 cc is flowed in 1 minute'. That is, If the discharge amount of the hydraulic pump are therefore denoted as 48ℓ / min, the pressure at the discharge port 5kg _f / cm ^2, so there is actually very low flow rate obtained from the measured discharge amount and the calculated (theoretical flow rate) It is a considerable approximation.

In the hydraulic pump, the "maximum operating pressure", which means that the internal leakage increases and the life span is significantly shortened when the pressure of the discharge port becomes higher than the numerical value, is determined. Therefore, a plurality of contact portions of the metal surface and the metal surface are provided in the hydraulic pump A working oil is required to lubricate that part and the internal leakage can not be removed because this purpose is used.

Therefore, the internal leakage becomes larger (almost proportionally) as the pressure of the discharge port becomes higher, and at the maximum operating pressure, the leakage amount becomes 5% to 10% of the theoretical discharge amount. 95% to 90%. The numerical value indicating what percentage of the actual discharge rate at which the actual discharge rate is the theoretical discharge rate is called volumetric efficiency.

In general, when the volume efficiency is simply expressed as the volume efficiency at the maximum operating pressure, if the internal leakage is 5% of the theoretical discharge amount, in other words, if the actual discharge amount is 95% of the theoretical discharge amount marked in the pressure), volumetric efficiency was 95%, and in the pump power and efficiency, as the suction pressure of the hydraulic pump ^{_{p s [kg f / cm 2}} ], the SAT output pressure ^{_{p d [kg f / cm 2}} ] And the discharge flow rate is R [m ³ / s], the pump power generated by the pump (the horsepower that is effectively transmitted to the fluid) L _p can be obtained as follows.

( L _p = pQ [kg _f m / s]) (2.1)

Where p = p _d - p _s is the pressure difference between the outlet and inlet of the pump, but usually p _s is atmospheric pressure and p = p _d .

 If the output unit is expressed as k W or p s

to be. In addition and as a unit of p kg _f / cm ² when the units of Q ℓ / min pump is powered,

Theoretical power (liquid power) L _{th applied} to the hydraulic oil by the pump when it is assumed that there is no leakage loss in the pump,

( L _th = p Q _th [kg _f m / s]) (2.4)

Here, p kg _f / cm ² is the pump discharge pressure, Q _th [m ³ / s] is the theoretical discharge amount, and the power (axial power) transmitted from the prime mover to the pump shaft is L _s

Here, ω [l / s] is the angular _{velocity, T th [kg f / cm} 2] is the torque required to rotate the pump, N [rpm] is the rotation number of a pump is all of the energy received through the axis from the prime mover Is defined as a measure of the extent to which the pump converts the energy received through the shaft into useful energy because some of it is lost to loss and the remaining energy comes from hydraulic oil.

여기서 η는 펌프의 전 효율이다.

Where η is the total efficiency of the pump.

 As shown in Fig. 56, the distribution input device construction machine of the reactor facility for nuclear waste disposal constituted inside the pressurized water double structure reactor facility main body 1 having the double structure block tank dust collector,

The hydraulic actuator constituting the pressurized water double structure reactor facility for ocean nuclear waste treatment,

This is a generic term for a hydraulic device that performs mechanical work by generating reciprocating motion or rotational motion of the output shaft by compression. It is divided into three types: a hydraulic motor (rotational motion of a shaft), a hydraulic cylinder (linear motion of a shaft), and a pivoting actuator Table 4-1 shows the types of hydraulic actuators.

As shown in Fig. 56, the distribution input device construction machine of the nuclear reactor facility constituted inside the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste for marine resources only,

Distribution equipment of the reactor installation In the hydraulic motor constituting the construction machine,

A hydraulic motor is a device that converts pressure energy into rotary motion. In principle, hydraulic oil is supplied to the suction side of the hydraulic pump, but since the efficiency is not good, there is a slight difference and the pump rotates only in a certain direction Although it is normal, the hydraulic motor can rotate in any direction. Therefore, the characteristics of the hydraulic motor are compared with the AC motor which performs the same rotational motion as follows.

It is very easy to change the rotational speed of the continuously variable transmission and the forward / reverse rotation, and it is very easy to start and stop, the inertia is good and the followability is good, the response is fast and it is suitable for the elements of the control part and servo mechanism of automatic control. However, since the hydraulic device itself is driven by a motor, its use is limited. In the hydraulic motor type, the flow rate required to make one rotation of the motor is changed to a constant value, so the former is a constant capacity hydraulic motor, Is referred to as a variable displacement hydraulic motor.

As shown in FIG. 56, is a distribution input device construction machine for a reactor facility for nuclear waste disposal constituted inside a main body (1) of a pressurized water type double structure reactor for ocean nuclear waste treatment.

Distributing device of reactor plant The structure of the gear motor that constitutes the construction machine,

It is almost the same as the gear pump. The supplied pressure oil acts on the tooth surface to generate the torque to rotate the output shaft. The gear is generally used as a spur gear. It is simple in structure compared to other motors, and is compact and lightweight. It is difficult to manufacture and it is disadvantageous that the torque output and the rotation speed become large at a low speed of less than 100 rpm and can not be used. The overall efficiency of the gear motor is about 70 to 80 [%] and the rotation speed is about 1000 to 3000 rpm.

As shown in Fig. 56, the distribution input apparatus construction machine of the nuclear waste processing nuclear reactor waste disposal reactor constructed in the pressurized water type double structure reactor facility main body 1 for marine nuclear waste processing,

Distributing device of reactor plant The vane motor that constitutes the construction machine,

It is the same as the vane pump in structure. It has the advantage of constant output torque, reversible, continuously variable transmission, harsh operation and lighting when the supply pressure is constant, so the maximum working pressure is 70bar, the power is 5 ~ 30p s, 1 800rpm, and the speed limit of 200rpm at the lowest has little variation of the output torque and generally has a disadvantage in that torque fluctuation increases because the efficiency is poor at low pressure or low speed.

As shown in Fig. 56, in the piston motor,

Piston motors are often called plunger motors or rotary piston motors. They are almost the same in structure as piston pumps. They have both axial and radial types. Axial piston motors have both axial and swash plate motors.

As shown in Fig. 56, the distribution input device construction machine of the pressurized water type double structure reactor facility for the nuclear waste treatment for marine resources,

A radial piston motor is a type in which several or ten or more pistons are radially arranged on a shaft to rotate the shaft while reciprocating in the radial direction. The force generated by the pressure applied to the piston by the eccentric or eccentric cam of the cylinder block is converted into torque The piston motor is divided into a multi-stroke type in which a torque is generated by several reciprocating piston motions for one revolution by using an eccentric type multi-

Like the piston pump, both the constant capacity type and the variable capacity type are available for each type.

As shown in Figure 56, in the output and efficiency of the hydraulic motor, the pressure oil to the pressure flowing into the motor ^{_{p 1 [kg f / cm 2}} ], the pressure oil to the pressure flowing out of ^{_{p 2 [kg f / cm 2}} ] And the flow rate of the supply pressure oil is Q [cm ³ / min], the power input to the hydraulic motor is calculated as follows.

The output is calculated by the torque and the angular velocity.

Where n is greater Torr [kg _f o m] in which the motor output-side rotational speed [rpm], T is delivered to the load on the motor output side. Therefore, calculating the efficiency of the motor in relation to input and output

The size of the hydraulic motor is expressed as q (cm ³ / revolution) pressure per revolution, Q = q ㅧ n _o , assuming no internal leakage of the motor , and λ = 100% If the pressure of the oil is 0 ( p ₁ = p )

 From the above equation,

가 된다.Therefore, the torque efficiency

.

Where n _o is the number of revolutions on the assumption that there is no internal leakage in the motor and T _o is the maximum torque or theoretical torque at which pressure pressure p can occur.

 As shown in Fig. 56, as advantages of the hydraulic motor in its pros and cons,

It is able to stop quickly and easily compared with an electric motor, and it is able to obtain a wide range of continuously variable speed, and it is small, light and powerful, and it has good resistance to high speed due to excellent resistance to breakdown. It is easy to control by the type pump or metering (valve which means a throttle valve and improves the flow rate), safety device for overload is easy, and it is convenient for torque control machine such as winder for wire or wire Lt;

As described above, the power generation and production section 811b of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine resource exclusive nuclear waste treatment is connected to the upper end portion (SDU) of the marine power plant dock hull deck (593,594,595) of the marine nuclear power plants in the offshore area (593, 594, 595) constituting the construction machinery position control of the marine nuclear power generation production control unit construction machinery connection structure, It is composed of facilities of hydraulic motors for distributing and dispensing equipment of water type double structure reactor facility.

As shown in FIG. 57, the facility control section 811a of the floating position control and construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste processing, ) Includes a marine nuclear hydroelectric power production control unit 811b that provides power production showing the configuration of the double pipe structure piping line regulating side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant

The hull location of the nuclear power plant (811) of the marine plant's several marine nuclear hydroelectric power plants (593,594, 595). Construction of a marine hydroplaning power plant (811b) Construction of a marine hydroplaning power plant Construction of a marine hydroplaning power plant Construction of a marine hydroelectric power plant Construction of a marine hydropower plant And dual-structure reactor facilities for marine nuclear waste treatment of marine nuclear hydroelectric power plants with dual structure block tank dust collectors.

As shown in FIG. 57, in the equipment control section 811a of the float-fed hood locomotion moving construction machine included in the nuclear power generation facility section 811, a double pipe structure block pipe line adjustment side 238 (811b) of the Ocean Hydro-Nuclear Power Generation Production Control Unit (SDU), which constitutes an elemental marine power station dock hull deck upper part (SDU) constituting a marine nuclear hydroelectric power plant equipped with a pressurized water double- (593,594,595) of the marine power plant of the several marine nuclear hydroelectric power plants constituting the construction machinery position control, the marine power plant body dock hull Marine Nuclear Hydroelectric Power Production and Manufacturing Division (811b) at the upper deck (SDU) Construction (655) and AC (656) The head tank 189 having electric power and the introduction pipe 191 and the cylinder 126 and the piston or piston pump 127 and the bulb body 660 and the battery and the battery 671 are connected to the hydraulic hose 190 The connected construction machinery connection structure consists of double-structure block reactor double-structure reactor facilities equipped with marine nuclear waste water treatment plant of marine nuclear hydroelectric power plant with double structure block tank dust collector.

According to the present invention, even in a 10-meter-deep sea area, the sinking raft or a marine vessel depending on a typhoon and a wavy wave, and a deep sea region having a depth of about 10 km, In the submarine, the aquifer generators are combined with the dam hydroelectric generators,

A double structure block tank formed by combining power plants of all other power plants of the middle turbine of a thermal power plant; a control side, a distribution side and a connection side of the nuclear power plant 811 constituting the inside of a marine nuclear hydroelectric power plant having a dust collector; And a device for permanently disposing of nuclear waste having a half-life for preventing nuclear radiation contamination. The apparatus for disposing the nuclear waste has a long half-life period.

Hereinafter, detailed description will be given of the water quality and water quality of the cooling water for the marine nuclear hydroelectric power plant (7) equipped with the pressurized water double-structure reactor facility for marine nuclear waste treatment and the cooling water supply water.

The water that is exposed on the surface of the earth, such as river water or lake, is called surface water, and the water that is submerged in the ground like a well is called ground water. The average water temperature is 16 ° to 17 °, and water quality is good for cooling and industrial water because of the difference in water temperature due to seasonal changes. To use,

Since river water is abundant in quantity, it is purified and used widely as tap water in large cities. Water and water are 3 ° to 8 ° in winter, 25 ° to 28 ° in summer, and it is not suitable for photography,

The quality of water depends on the pests and germs contained in the water, and turbidity, color, taste, odor, etc. are different. Therefore, if it exceeds the allowable content, it is prohibited to use it. Germs are a cause of disease and pests are minerals that exceed the standard value, which adversely affect cooking and laundry. The hardness of water is expressed based on the content of minerals such as calcium carbonate in water. That is, when calcium carbonate is contained in water by a factor of a million, this is called 1 (p.p.m. part per milion).

Drinking water should be in the range of 90 to 110 (ppm) and should not exceed 300 (ppm). Water should be divided into soft water and soft water depending on the hardness. Water below 90 ppm is called soft water Lt; / RTI &

The water 654 includes a nuclear power plant 672 for providing explosion prevention of the nuclear reactor constituted by the reactor water facility waterproofing water 7 of the nuclear power plant with the hard water 654a and the heavy water 654b or the pressurized heavy water 654b. A double structural nuclear reactor having a dual structure block tank dust collector having an air tunnel 672a of a double structure type nuclear reactor, Consists of.

As shown in FIG. 58, the lifting plumbing (593, 594, 595) of several marine nuclear hydroelectric power plants constructed inside the main body (1) of the pressurized water double- (811) of the offshore power plant of the marine power facility of the marine nuclear power plant,

A nuclear waste treatment for a marine nuclear power plant, a pressurized water type double structure reactor facility, a nuclear power generation facility 811, a nuclear waste disposal unit 811a, and a transportation transportation unit 811c The two sides of the distribution side constituting the distribution system of the nuclear reactor facility are allocated and the hull position moving construction machinery is provided and the inside of the dual structure block tank dust collector is disposed inside the nuclear power plant ocean nuclear waste processing water nuclear power plant equipped with pressurized water double- Having a hydropower plant,

In the nuclear waste water treatment type double structure nuclear reactor equipment for marine resources constituting the marine nuclear hydroelectric power plant having the pressurized water reactor facility for the nuclear waste treatment,

The inner block tank 596 equipped with a dual structure block tank 598 and the buoyancy control tank of the empty space of the outer block tank 599 are positioned outside the floating ocean readers 593,594 and 595 of several marine nuclear hydroelectric power plants in the ocean. A nuclear waste treatment dual structure block tank marine tunnel transport device 941 with a pin connection shaft 606 and a lug pin 608 for coupling lugs 607 to the marine tunnel transport device 941 and several marine nuclear hydroelectric power plants (593, 594, 595) are identical to those provided for folding tabletop legs and unfolding devices, and barge hulls, which constitute the marine nuclear hydroelectric plant,

The barge hull constituting the same type of table table,

The table-top table equipment identical to the holding tank 590 of the barge hull is provided with barge hull assembling apparatuses that can freely fold and unfold the table table legs by manpower to prevent sinking of the barge hull, Of the barge hull assembly.

The holding tank 590, which constitutes the assembly device for the barge hull,

Hydraulic cylinder 622 and hydraulic cylinder door 624 for barrel hull assemblies are installed in the hydraulic rotary cylinder 620 and the hydraulic cylinder 623 so that the assembly form is prepared at the sea level. (593,594,595) of hydroelectric power plants of several marine nuclear hydroelectric power plants providing storage control, and a holding tank (590) connected to the distribution distributing device and buoyancy control tank of the dam construction machine drilling hole (936) (593,594,595) of several marine nuclear hydroelectric power plants in the ocean.

As shown in FIG. 58, in a nuclear hydroelectric plant constituting a distribution input device of a pressurized water double-structure reactor facility for processing an ocean nuclear waste,

The buoyancy adjusting butterfly valve 622 and the buoyancy adjusting butterfly valve 622 having a connection structure to the solenoid valve 76 provided in a connection structure with the buoyancy adjusting tank of the barge hull constituting the nuclear hydroelectric plant are provided,

(SLU) position in which the barge hull assembly is provided from the ocean while providing the on-time main switch button 66 operation of the main switch button 66 for the solenoid valve start switch button constituting the butterfly valve 622 opening The barge hull 591 at the upper end of the holding tank and the barge hull 592 at the lower end of the holding tank are coupled to each other through a connecting structure of the holding tank 590 to freely lower the holding tank 590 of the barge hull, The installation operation is spread out in the ocean,

Buoyancy provided to the buoyancy hull by a buoyancy control tank attached to a barge ship hull with a hull attached to a sea level upper end portion (SLU) having a coupling connecting structure on one side of both sides of the holding tank (590) A solenoid valve 76 for opening the buoyancy adjusting butterfly valve 622 with a connection structure for the regulating butterfly valve 622 and the solenoid valve 76 and a main switch button for the start switch button for the start switch button (66) operation,

The empty space for diving control on the barge hull is provided with barge hull assembling devices for expanding and closing the hydraulic cylinder door 624 by the operation of the hydraulic cylinder 623 and assembling the nuclear hydroelectric power plant equipments Respectively.

As shown in Fig. 58, in a nuclear hydroelectric plant constituting a marine nuclear hydroelectric power plant having a double structure reactor plant for pressurized water treatment for nuclear waste treatment for marine resources,

The barge hull, in which electrolytic water is stored in an empty space for diving control,

While buoyancy is lost, diving slowly into the water first,

A holding tank 590 with a block tank mating portable lug 607 of the hull of a barge hull and a pin connecting shaft 606 for lug mating with a portion of a single vertical working lug 605 on one side of the vertical lug 607, The holding column 590 pipe bridge 928, which is horizontal while the doors for the hydraulic cylinder 624 are fully closed while the structure is coupled by the operation of the hydraulic rotary cylinder 620 and the hydraulic cylinder 623,

The barge hull and the lug 607 are provided with a connection structure at one side of the vertical lugs 607 in a state where the buoyancy hull of the barge hull constituting the pipe bridge pier 928 assembly is not lost, The bottom tank barge hull 592 of the holding tank is equipped with the barge hull assembling apparatuses at the bottom of the sea while slowly submerging with the barge hull in the water at the position of the connecting shaft of the tank 590. At the bottom of the sea surface, And is configured to form an assembly form of a power plant facility.

As shown in FIG. 58, in a nuclear hydroelectric plant constituting an offshore nuclear hydroelectric power plant having a pressurized water reactor for nuclear waste treatment,

Each stowage tank (590), which is not connected to the barge hull,

The upper end of the strut tank upper barge hull 591 constitutes a stern portion of each connecting strut tank 590 which is not connected to the barge hull 590,

A positional shift control is provided in a vertical state on the upper surface of the sea surface in a state where the positional movement adjustment is completed in the vertical state,

The connection shaft position of the connecting shaft of each holding tank (590) and the supporting tank top barge hull (591) is connected to the submersible and semi-working submergence line (637), the barge line and the tug line (636) (877) equipped with a ship crane, a ship crane, a ship crane, a ship crane, a ship crane, a ship crane, an anti- Construction of the installation base for anti-sinking flood prevention equipment with automatic connection structure of cancellation Construction of marine nuclear hydroelectric power plant equipped with construction machinery and nuclear waste disposal facility, marine tunnel traffic facility facility and double-structure reactor facility for marine resource- and,

(593,594,595) distributing and input devices of several marine nuclear hydroelectric power plants of the ocean by putting the position movement control device and the inflation control device into the nuclear hydroelectric power plant facilities, (624) for the hydraulic cylinder by the operation of the cylinder (623), and the expansion and the disconnection of the door (624) for the hydraulic cylinder and assembly of the nuclear power plant .

As shown in FIG. 58, in a nuclear hydroelectric plant constituting an offshore nuclear hydroelectric power plant having a pressurized water reactor for nuclear waste treatment,

(590) of the barge hull connected to the side of both sides of the holding tank is provided with a buoyant hull connecting block lug (607) of the barge hull provided in the ocean constituting the facility of the nuclear hydroelectric power plant, (593, 594, 595) of several marine nuclear hydroelectric power plants provided with a holding block tank capable of adjusting the positional movement of the hull at a constant angle from 0 DEG to 350 DEG vertically and horizontally in a holding tank (590) Nuclear Waste Treatment for Offshore Oceans in the Ocean Barge Line for Marine Hydroelectric Power Plant Equipment to Provide Peace to the Nation by Providing Overcoming Natural Disasters Consecutively to Natural Disasters Consisting of Pressurized Water Type Double Reactor Facility (591) The power transmission portion 811d for transmitting hydraulic power to both the fore and aft ends of the central portion of the plurality of inner block tanks 596 is provided inside Provided to a marine power plant having a nuclear hydraulic marine source only nuclear waste disposal pressurized water nuclear reactor plant, and a double structure,

As a position of the upper end portion SDU of the double structure barge hull 591 at the upper end of the holding tank 590 in which the adjustment shafts constituting the power transmission portion 811d are inserted,

A guide rail 618 located on the upper end SDU of the ship's deck is installed on the left and right sides of the deck deck and a crane 861 of 5000 ton capacity is formed on the guide rail 618, Barge ship hull assemblies to form the assembly form of nuclear power plant facilities at sea level.

As shown in Fig. 58, in a nuclear hydroelectric plant constituting a marine nuclear hydroelectric power plant having a double structure reactor plant for pressurized water treatment for nuclear waste treatment for marine resources,

In the safety place where the crane 861 provided with the renovations of the nuclear power generation facility is installed, a dual structure large-sized sliding hatch cover 153 is installed as a double or triple structure, and a hydraulic cylinder 623 is provided at one side of the above- And a hydraulic cylinder 623 for adjusting the position of the respective adjusting sides. The barge hull 591 at the upper end of the dual structure holding tank and the barge hull 592 at the lower end of the dual structure holding tank ) And the holding tank 590 to disassemble the portable tank lug coupling control pin connecting shaft 606 and the lug 607 and the lug coupling shaft coupling bolt 603 and the lug coupling shaft coupling nut 604, and the nuclear power generation nuclear waste treatment unit 811a of the nuclear hydroelectric power generation facility 811 that provides the position adjustment of the respective control sides and the transportation transportation units 811c of the construction machine, ,

In the oceanic oceanic hydroelectric power plants in the ocean, the floating plant (593, 594, 595)

Double structure block tank 598 double structure block tank pipe bridge 928 and nuclear waste treatment dual structure block tank pipe bridge 929 and dual structure block tank pipe bridge 937 and nuclear waste treatment dual structure block tank marine tunnel A plurality of distribution side distributing and discharging to a connection structure capable of disassembling and disassembling the connection shaft of the traffic device 941 and double structure barge hull 591 at the upper end of the holding tank of each adjustment side, The inner block tanks 596 are connected by a connection structure,

On each distributing side of the inner block tank 596,

A nuclear power generation nuclear waste treatment unit 811a of the nuclear power generation facility unit 811, a power generation and production unit 811b that generates power, a traffic transportation unit 811c of the construction machine, and a power transmission unit 811d that transmits power (811e), electronic control equipment construction machine control unit (811f), and screw control unit (811g) are installed in the nuclear power generation facility (811) of the nuclear power plant to assemble the nuclear power plant facilities And to reform the nuclear hydroelectric power plant.

As shown in Fig. 58, in a marine nuclear hydroelectric plant equipped with a pressurized water reactor for nuclear waste processing constituting a distribution input device of a nuclear reactor waste treatment facility,

From the perspective of the producer, it is the connection structure of the connection shaft of the nuclear waste disposal double structure block tank marine tunnel traffic device (941) to constitute the operation of the nuclear power plant of the nuclear power plant,

Efficient Nuclear Power Plant Operation of Nuclear Waste Treatment for Offshore Nuclear Power Plant Double-structured nuclear reactor facility is connected to the electronic control and control system of hydroelectric power plant to improve the nuclear power generation facility to regulate the flow of power, The double structure barge hull (591) is equipped with distributing and dispensing devices for adjusting the position of the hull which excludes natural disasters of the ocean as a disaster prevention device, while having the connection structure to the distribution side provided with the individual valves and the pumps, It is structured to make the renovation of the nuclear power plant composed of the assembly form of the hydroelectric power plant facilities.

As shown in Fig. 58, in a nuclear hydroelectric plant constituting a marine nuclear hydroelectric power plant having a double structure reactor plant for pressurized water treatment for nuclear waste treatment for marine resources,

Double structure Block tank Nuclear waste treatment for marine resources with dust collectors Pressurized water type double structure reactor facility Main body (1) Nuclear waste treatment double structure block tank built in. Several marine marine tanks connected with marine tunnel traffic device (941) The flood control stations (593, 594, 595) of the nuclear hydro-

A large hydroelectric power generator 944 included in a control shaft of a hydroelectric power generator of a marine sheath hydroelectric power plant 943 which is an eco-friendly pollution-free energy of a marine power plant, and supplies the kinetic energy of gravity, And the turbine (267) to convert to rotational energy in accordance with rotation,

The propeller 146 and the turbine 267 device of the large hydroelectric power plant 944 constituting the marine seesaw hydroelectric power plant 943,

Due to the difference between water intake facilities and water supply facilities, it is also possible to provide electric power production at the bottom of the rotary hydroelectric power plant, while maintaining the interval of 0.5Km,

Double structure block tank (598) connecting the books Double structure block tank structure with bridge structure tank bridge pier (928) and nuclear waste treatment double structure block tank bridge (929) and nuclear waste treatment dual structure block tank Marine tunnel transport device The connection of the power cable 71 for operating the electric train 771 to the upper portion of the guide rail 618 provided in the inside of the nuclear waste disposal marine tunnel communication device 941,

And a power transmission unit 811d that is connected to the power transmission line 775 and receives power from the power generation and manufacture unit 811b of the nuclear power generation facility unit 811 to transmit power to the industrial site.

In the nuclear hydraulic power plant equipment constituting the power transmitting portion 811d,

A large hydroelectric power generator 944 included in the control side of the hydroelectric power generator of the marine seesaw hydroelectric power plant 943 constituting an alternative to the maintenance of the nuclear hydroelectric power plant equipment, Structure The barge hull (591) is equipped with the distributing and input devices of the position control of the barge hull (591) which excludes the natural disaster of the sea by disaster prevention device, and it is constructed so as to renovate the nuclear hydroelectric power plant in the assembly form of the nuclear hydroelectric power plant facility. .

As shown in Fig. 58, in a nuclear hydroelectric plant constituting a marine nuclear hydroelectric power plant having a double structure reactor plant for pressurized water treatment for nuclear waste treatment for marine resources,

Holding tank Tank upper barge hull (591) Holding tank (590) at the center of deck deck center Switch located at the center of the center This valve, which is closed when the valve is ON and closed when the valve is OFF, The pilot valve 622 and the solenoid valve 76,

When the switch button-on, the door is opened, and the door 624 for the hydraulic cylinder closed when the switch button is turned off,

Submarine ground excavation is provided by a core drill 917 at the bottom of the sea where the holding tank lower barge hull 592 is located,

In the dough room where the borehole 936 is excavated with the core drill 917 and the borehole 936 is excavated on the ground surface to prevent the release of harmful gas into the borehole 936,

Natural loess 158 is kneaded with a mixing equipment mixer 649. After the crude oil 841 and natural gas 922 are collected, natural loess 158 of the dough mixed with the mixer 649 is excavated A borehole (936) Gap (15) Fills the void space,

As shown in FIG. 58, in a nuclear hydroelectric plant constituting a pressurized water double structure reactor facility for nuclear waste disposal,

The double structure barge hull 591 has a disconnection structure composed of large hydroelectric generators 944 included in the control side of the hydropower generator of the marine sheath hydroelectric power plant 943, (591) barge ship excluding the natural disaster of the sea. It is constructed as an assembly form of a nuclear hydroelectric power plant connected to the distributing and input devices of the position control, .

As shown in FIG. 59, the facility control section 811a of the floating position control and construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source nuclear waste- ),

The hatch cover 153, which is composed of safety equipment at the time of equipment replacement,

It is a construction machinery equipment provided with a connection structure on the distribution side while providing equipment replacement by a hydraulic cylinder (623), and a nuclear power plant hull is a distribution and input device for adjusting the hull position that excludes natural disasters in the sea. ) Fixed,

(877) to provide a fixed wing crank (846) to the seabed and a plurality of marine nuclear hydroelectric power plants connected to the nuclear waste treatment dual structure block tank marine tunnel traffic device (941) (593, 594, 595) and equipped with distributing and dispensing devices for hull position adjustment, and fixation of nuclear power plant facilities to the ocean is provided.

Nuclear waste disposal for marine resources (2) Pressurized water double structure reactor facility (1) Several marine nuclear hydroelectric power plants on the upper part of the sea surface (SLL) having a distribution structure connected to the inside of the main body (1) are equipped with floating levitation equipment (593,594,595).

The steel plate (597) of the high-tension steel plate (597) is provided with the butt joint welding in a certain size with the nuclear hydroelectric plant and the reactor control process, and the welding improvement surface, which is the shape of the various welded joint grooves, The double-structure reactor installation for pressurized water treatment of nuclear waste for ocean source, which constitutes the design through manual design,

A first auxiliary steel section 600 for a block tank, which is cut by a laser underwater cutting and computer cutting, is connected to a laser underwater cutting computer control section through a computer network input 68 constituting a design dimension of a nuclear power plant facility by a memory 70, The second auxiliary steel plate 601 for the block tank, the snap hole 602, the block steel tower 116, the vertical partition wall 605, the portable lug 607, the horizontal partition wall 609, the partition wall manhole 610, The manhole manhole cover 152 and the machining hole 615 of the hatch cover 153 and the block tank large flange 614 and the elongated hole 616 of the portable lug 607, The same double tube structure tank bridge pier construction type saddle form frame 617 and the band saw blade 621 and the reinforcing steel plate 165 constitute the laser cutting machine for the nuclear waste treatment for the marine source, In addition,

A double structure block tank 598 having a high-strength steel plate 597 and a roll forming machine constituting a welding improvement surface of the nuclear power plant equipment and processed to have a standard length of 500M is attached to a large flange 614 ) And a nuclear waste treatment dual structure block tank A plurality of large hydroelectric generators (944) providing a combination with a marine tunnel transport device (941) are constructed inside a pressurized water double structure reactor facility main body (1) (593,594,595) of several marine nuclear hydroelectric power plants in the ocean.

As shown in Fig. 59, in the nuclear hydroelectric plant of the nuclear waste treatment and pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment,

(1) Inside of several marine nuclear hydroelectric power plants constructed in the ocean (593,594,595) The crude oil-borne drilling machine (908), which constitutes the connection structure on the distribution side, silver,

And a core drill 917 coupled to and disconnected from a pipe rack 854 for providing a pump connection for crude oil constituting the crude oil drilling machine 908,

A sprinkler 185 of a worm crank 846 constituting an anchor bolt 133 replacing an anchor bolt 133 which provides a safe anchorage as a mooring device of floating care consoles 593, 594, 595 of several marine nuclear hydroelectric power plants of the ocean, The hull constituting the hydraulic cylinder 623 located at the center of the small bed 616 with the connection structure at the lower end of the holding tank 590 is anchored to the sea floor by the anchor replacement crank 846, In addition,

A wreck crank 846 attached to the lower part of a pier of a pier, and a piercing rod 185 fixed to a borehole in the undersea surface of the pier are connected to a hydraulic cylinder 623 ) &Lt; / RTI &gt; actuation 848,

(593,594,595) of marine nuclear hydroelectric power plants at sea to provide hull anchoring control by adjusting the direction of the feeder chain 185 with the hydraulic cylinder 623 actuator 848, Nuclear waste disposal for marine resources, which provides movement control and disassembly assemblies of hull positions of floating oceanic plants (593,594,595) of several marine nuclear hydroelectric power plants in the ocean on each control side composed of pressurized water double structure reactor facility main body (1) (2) Construction of double-structure nuclear reactor with pressurized water reactor (1) Lifting of several marine nuclear hydroelectric power plants constituting internal nuclear reactor facilities to control position of the reactor (593,594,595) Construction of hull position control equipment of nuclear power plant (811) And a dispensing apparatus of the transport section 811c.

As shown in Fig. 59, in the disaster prevention apparatus facility constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

Marine nuclear waste disposal treatment Pressurized water double structure reactor facility (1) The floating ocean paddy field (593,594,595) of several marine nuclear hydroelectric power plants at the sea level above sea level (SLL) (611) to the left and right sides of the inner center of each launching platform for mounting the satellite launching platform (643) and the space rocket launching platform (646) on the left side of the block pylon (116) It has installed a space rocket (612), which is stronger than the atomic bombs that provide global military disasters such as war, terrorism, nuclear tests and missile launches. Located in the surrounding area,

The image of the surrounding area of the Korean peninsula The establishment of Photoshop and the economic downturn, including the global economic crisis, the unemployment crisis and the natural disaster, to overcome the crisis and solve the unemployment crisis, In addition,

In the land, the international community leaders set up rules to prevent the production of all in-flight commercial weapons without any reason or excuse between the countries, and the establishment of peace-preserved message photoshop (955), which is stronger than nuclear bombs, In addition,

Nuclear waste disposal for marine resources Nuclear waste water treatment type double structure nuclear reactor facility (1) The marine environment of each control shaft constituting the inner part of the marine nuclear power hydroelectric power station (593,594,595) (1) Nuclear power generation consisting of internal (593,594,595) inside the small, medium and large sized marine nuclear hydroelectric power plants constituting internal nuclear reactor control And a transportation transport section 811c of the construction machine of the hull position adjustment of the equipment section 811. [0052]

As shown in Fig. 59, in the disaster prevention apparatus facility constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

The development of space science and the creation of a peaceful global village without space for conflict between the two countries, regardless of whether they are powerful or weak, Nuclear waste treatment double structure block tank equipped with disaster prevention equipment The disaster prevention equipment that constitutes the connection with the marine tunnel traffic device (941)

Nuclear Waste Treatment in the Global Village Dual Structure Block Tank Marine Tunnel Transportation Equipment (941) Treatment of Nuclear Waste for Offshore Yuan while Providing Facilities Pressurized Water Type Dual Structure Nuclear Reactor Facilities (1) Nuclear Power Generation Facilities Including Internal Nuclear Power Generation Facilities (811) On the deck of the upper deck of the deck deck at the upper part of the sea surface (SLU) of the waste treatment section (811a), the load distribution of the pipe bridge object is provided to provide exchange of cultural knowledge information, Provided by the water pressure of the sea water,

(1) Inside the main body (1) of the pressurized water reactor for nuclear waste treatment for marine resources for the operation of marine power plant and for the operation of marine power plant by providing the position adjustment of the hull where the renovation is made, (593, 594, 595) of several offshore nuclear hydroelectric power plants that are configured to control the position of the nuclear reactor units constituting the nuclear power plant (811). .

As shown in Fig. 59, in the disaster prevention apparatus facility constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

(811) Nuclear power plant construction (811) Nuclear power plant control facility (811e) Nuclear power plant construction that controls the flow of reactor facilities of nuclear power plant of distribution side constituting disaster prevention facility The double tubular structure control nozzle 10 in the form of a net constituting the nuclear reactor facility,

(10) for coupling the T-shaped elbow in the form of a cross in a cross shape constituting the nozzle structure (10) of the double tube structure to the upper side of the sea surface, 593) At the top of the deck deck, a 15M long fire hose (9) is provided with a crosshair type control nozzle (10), and spread to the side of the deck deck like a net at the bottom of the sea surface,

In the fire fighting vessel 40 constituting the connection with the control hose,

Controlling Pump Operation Machine When the internal air compressor (80) is operated, air is supplied to the receiver tank (145) through the hose (109) to provide a predetermined amount of the compressed and stored piping line,

In the control hose (9) spread like a net to the deck deck side part, a high-pressure air pressure ejection jet is provided in the control nozzle (10)

The location of the hull, which is designed to prevent damage from seabed marine products from harmful red tides and to renovate the nuclear hydroelectric plant facilities while preparing harmful red tide dispersal along with the sediments of the seabed, Hydroelectric Power Generator Installed for Operation and Marine Environment Industrial Nuclear Waste Treatment for Industrial Power Generation Pressurized Water Type Dual Structure Nuclear Reactor Main body (1) Several nuclear power plants of the marine nuclear power plants And a distributing and dispensing device of the transportation section 811c of the construction machine of the hull position adjustment of the nuclear power generation facility 811 constituting the inside of the flood control console 593,594,595.

As shown in Fig. 59, in the disaster prevention apparatus facility constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

An emergency disaster facility consisting of equipment of marine cleaner function,

(593, 594,595) of several marine nuclear hydroelectric power plants in the off-shore area to prevent the influx of brine from drinking water intake points downstream of the offshore,

The control gate of the river mouth constituting the disaster prevention system facility,

It is equipped with a hydrologic control membrane to replace the water gate for up and down operation, so that the opening of the water control gate is always provided,

Nuclear waste disposal for marine resources Treatment of pressurized water type double structure reactor facility (1) It is equipped with pressurized water type double structure reactor facilities to control the flow rate of the distribution shaft constituted inside,

As shown in Fig. 59, in the disaster prevention apparatus facility constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

Pirates, such as fish caught in the net making up the disaster prevention facility,

A number of oceanic hydroelectric power plants in the ocean were broadcasted to the world through mass media reports on the capture of peacekeeping troops captured in the net inside the net (593,594,595) inside the net by unmanned cameras (184) It is planned to broadcast the whole world through the media coverage of the scenes in which the people involved in the territorial dispute and those who do not participate in the reduction of the armed forces are put on space rockets and exited from the atmosphere,

In order to trigger war, peaceful preservation of weapons (955), which is stronger than nuclear bombs, has been introduced to the world through the Internet, Nuclear waste treatment dual structure block tank prepared in preparation for war and terrorism Nuclear waste disposal for marine resources within one day with marine tunnel traffic device (941) Distribution system consisting of pressurized water double structure reactor facility main body (1) (593,594,595) of several offshore nuclear hydroelectric power plants in the offshore to regulate the position of the nuclear plant to regulate the flow to the nuclear plant of the shaft. (811c) In all areas where the flow control process to the nuclear plant installation is provided by the dispensing device, To consist.

As shown in FIG. 60, the facility control unit 811a of the floating position control and moving construction machine included in the nuclear power plant 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source nuclear waste- ),

The nuclear power generation facility 811 of the nuclear power generation nuclear waste disposal unit 811a or the transportation conveyance unit 811c of the hull locating and construction equipment 811c of the nuclear power generation nuclear power plant 811a, The construction of a marine nuclear hydroelectric power plant equipped with a pressurized water reactor facility for the treatment of nuclear waste into a dual structure block tank dust collector,

In the nuclear hydroelectric power plant equipment constituting the dual structure block tank dust collector,

The nuclear waste treatment dual structure block tank connected to the pipe bridge 927 constituting the construction machine position control of the hull locomotion control and the pipe bridge 937 is connected to the inside of the marine tunnel transportation device 941 by the crude oil drilling machine 908 ) Are provided as construction machine connection structures,

The floating dishes (593, 594, 595) of several marine nuclear hydroelectric power plants,

A hydraulic rotary cylinder 620 of a rack and pinion type (NRP) as a rotary cylinder, a butterfly valve 622 for controlling the buoyancy of the band guide 621, a hydraulic cylinder, a hydraulic actuator 623, The portable lug 607, the portable lug pin 608, and the large-sized lug 608. The vertical partition wall 605, the portable lug coupling pin connection shaft 606, the portable lug 607, the portable lug pin 608, Flange Connection End Connections to the interior of the junction of the processing hole (615), the construction machinery connection structure, the pipe bridge (928), the pipe bridge (937) and the nuclear waste treatment dual structure block tank marine tunnel traffic system (941) The drilling machine (908) consists of hydroelectric power plant construction machinery connection structure and disassembly coupling, and consists of nuclear hydroelectric power plant facility and distribution equipment of nuclear reactor facility.

61, the facility control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment, ) Includes a marine nuclear power generation control unit 811b that provides power production showing the configuration of the double pipe structure piping line control side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant,

(811) of the nuclear power generation facility (811), and a transportation transport section (811c) of the hull locating construction and construction machine, and distributing both sides of the distribution side constituting the nuclear reactor facility, The construction of a dual-structure block tank dust collector with the input of a marine nuclear power plant equipped with a pressurized water reactor for nuclear waste disposal,

The facilities of marine nuclear power plants constituting marine nuclear hydroelectric power plants equipped with pressurized water reactor facilities for nuclear waste disposal include,

Nuclear power plant (811) Nuclear waste treatment Double structure block tank Marine tunnel construction equipment pipe manufacturing process (705) Connected structure that can be disassembled and connected at marine shipbuilding factory of connection side Manufacture in marine vessel manufacturing department that controls production A marine nuclear power plant equipped with a pressurized water reactor facility for the nuclear waste disposal of the small diameter electric resistance weld pipe 706,

(707) uncoil 708 constituting the pressurized water double reactor reactor facility for marine nuclear waste treatment, and the ring leveling 709, the side trimming 710, and the cutting 725 are connected to the forming 712 ) Process,

Ultrasonic wave and eddy-current test 714 constituting welding and inner and outer bead removal 713 are provided,

The weld heat treatment (715), which constitutes the pressurized water type dual structure reactor facility for ocean nuclear waste treatment,

The cutter 719 and the flattened bench 720 are provided while having the extreme end molding 718 with the air cooling 716 and the water cooling 717 device,

The hot cut 726 and the chamfer 727 and the hydrostatic test 722 are performed in the intermediate load 723 and the induction heating furnace 724 with the calibration tube 722 of the structure tube 721 in accordance with the SRM 725 standard 728, ultrasonic wave, eddy current test 729, and weight and length measuring instrument 730,

The production control is provided at the cooling stand 738 with the screw 732, the cast iron 733, the general piping 734, the zinc plating 735, the galvanized steel pipe 736 and the boiler tube 737,

(706), which is manufactured by a nuclear reactor manufacturing facility of a nuclear power plant,

In the cage-shaped electric resistance welding pipe (739) equipment constituting the reactor facility,

An oil pipeline ultrasonic wave 743 and a crack test 744 are provided in a cage forming device 742 having a coil mugging iron plate raw material 740 and connected to the side trimming 741,

(739), which is manufactured by the Nuclear Power Plant's Nuclear Power Plant's Nuclear Power Plant's Nuclear Power Plant's nuclear power plant to control nuclear waste, To constitute a nuclear reactor facility,

In the large-diameter steel pipe (747) equipment of the oil pipeline for the oil industry in the oil pipeline constituting the nuclear reactor facility,

The manufacturing facilities are provided in the reactor facility manufacturing section of the nuclear power plant having the edge milling machine 748, the three roll banding machine 749 and the post bending machine 750 distribution dispensing apparatus,

A tapered sipe 755 and an outer sipe 755 constituted by dispensing devices provided with an outer weld 754 while providing a welding cut with an allowable soldering 751 and an inner weld 752 and a back fillet 753, 756), an X-ray test 757, a cold expanse 758, and a marking and packaging shipment process 759 as a dispensing device,

The equipment for the non-coated piping 763 of the structural pipe of the uncoiling 761 and the steel pipe pile 762 with the spiral welded steel pipes 760,

An outer blast cleaning 764 constituting a nuclear reactor facility, a primary coating 767 of an inner surface blast cleaning 765 and an inner surface coating 766 and a coating and a coating 768, In addition,

(769) equipment constituting a nuclear reactor facility,

The production of large diameter steel pipe 747 of the steel pipe for oil industry 746 of the oil pipeline is to be provided as a distributing and inputting device of the nuclear reactor facility through the ultrasonic wave and X-ray inspection (770) And,

(1) Internal control of mooring and buoyancy devices installed at the marine nuclear power hydroelectric power station (593,594,595) in the ocean and the control of buoyancy before and after operation of the nuclear power plant. Reactor Facility Tube Manufacturing Process of the Power Plant It is constructed as a connection structure that can be disassembled and coupled at the marine vessel manufacturing factory on the connection side,

A nuclear waste treatment double structure block tank bridge 929 and a nuclear waste treatment dual structure block tank marine tunnel traffic apparatus 941 which constitute a distribution input device of the reactor facility of the nuclear hydroelectric power plant, The distribution side of the tube manufacturing process on the connection side,

The body of the double structure block tank 598, which constitutes the distribution side of the pipe manufacturing process,

The inner block tank 596 located at the center of the double structure block tank 598 and the outer block tank 599 positioned outside the inner block tank 596 are connected to the steel plates 597 of the high- A double structure block tank 598 manufactured and manufactured by a cutting process and a welding process and a connecting structure distributing and inputting device at an industrial site is connected to a distribution input device of a nuclear waste disposal double structure block tank marine tunnel transportation device 941 And a second auxiliary steel plate (601) for a block tank, which is provided with a first auxiliary steel section (600) and a second auxiliary steel section (601) And a large flange 614 body located at the connection side connection structure to the connection position.

A large flange connection flange joint portion machining hole 615 connection portion of the large flange, a cutting tool, a drill lathe and a cutter constituting a large flange 614 positioned as a connection structure,

(625) of a certain size, it is prepared as a reactor facility of a nuclear hydroelectric power plant of a manufacturing process,

(1) Nuclear power generation facility consisting of inside (811) Nuclear waste treatment unit (811a) of nuclear power generation Moving hull position of nuclear power plant Both sides of the distribution side constituting the reactor facility of nuclear power plant And a construction machine of a construction machine 811c for inserting into a nuclear reactor facility. The double structure block tank is connected to the decomposition coupling. The nuclear waste treatment for a marine resource having a dust collector And a marine nuclear hydroelectric power plant with a pressurized water double reactor facility.

As shown in FIG. 61, the marine nuclear power plant (593,594,595) of marine nuclear power hydroelectric power plants constructed in the main body (1) Location of the hull position of the nuclear power plant (811) of the hydroelectric power plant facilities At the facilities of the marine nuclear hydroelectric power plant constituting the construction machine input,

The double structure block tank (598) of iron structure metal constituting the manufacturing and installation of the reactor installation of the reactor plant of the nuclear power plant with the manufacturing process according to the safe design of the nuclear power plant facility is installed in the steel plate (597) of high tensile strength stainless steel In addition,

A high-strength stainless steel steel plate 597 is provided to provide a bending and cutting and conveying process sequence for the pre-marking process,

The double structure block tank 598 is provided with forming cylinders 861 and a conveyor 633 constituting the inputting process in the conveying process and formed by the foaming and roll forming bending machines constituting the thickness of the high-strength stainless steel plate 597, The steel plate 597 made of stainless steel is provided with a bending process comprising a right angle bending (a), a V-type bending (b) and a round bending (c)

And a bending method roller bending machine and three bending roller bending machine. The bending process of the high-strength stainless steel plate 597 and the bending process machine are provided, A transport is provided by a crane and a conveyor 633 and welding is provided to a banding joint portion of the steel plate 597 of the high-strength stainless steel. After that, the transport of the position adjustment is carried out to the overhead crane and the conveyor 633.

61, as shown in FIG. 61, it is possible to control the hull position movement of the floating ocean tractor (593, 594, 595) of several marine nuclear hydroelectric power plants located in the main body (1) of the pressurized water double- Hull position transfer of Nuclear Power Plant (811) of Marine Nuclear Hydroelectric Plant facilities At the facilities of Marine Nuclear Hydroelectric Plant that make up the input of construction machine,

(598) with a welding process to the bending joint of steel plate (597) of high-tensile stainless steel with welder, cutting tool, drill lathe and cutter making up the equipment of marine nuclear hydroelectric plant A large flange 614 located at a connecting portion of a large flange 614 provided with a plurality of stopper steel plates 625 of a predetermined size is installed in the manufacturing process shelf process, And a marine nuclear power plant,

In the double structure block tank 598 of the inner block tank 596 and the outer block tank 599 constituting the position outside the inner block tank 596,

The interior of the inner block tank 596 constituting the inner block tank 596 is placed in the outer block tank 599 and the welding process is completed while adjusting the position of the inner block tank 596 to the overhead crane 861 and the conveyor 633 (593,594,595) of several marine nuclear power plants consisting of a double structure cylindrical connection structure inside a pressurized water type double reactor reactor facility for the nuclear waste disposal of a nuclear hydroelectric power plant, a pressurized water double The reactor is equipped with a structural reactor,

The double structure block tank bridge 928 constituted by the double structure block tank 598 and the nuclear waste processing double structure block tank bridge 929 and the double structure block tank bridge 937 and the nuclear waste processing dual structure block tank 928, A plurality of distribution sides and double structure block tanks (598) for providing discharge to the connection side disassemblyable connection structure connected to the marine tunnel traffic apparatuses (941) are connected to a double structure nuclear reactor facility (705) equipment constituted by the inside of the main body (1).

As shown in FIG. 61, the marine nuclear power plant (593,594,595) of marine nuclear power hydroelectric power plants constructed in the main body (1) Moving hull position of Nuclear Hydroelectric Power Plant (811) of hydroelectric power plant facilities Nuclear waste disposal for pressurized water type double structure nuclear reactor equipment constituting input of construction machine,

A plurality of outer block tanks 599, a first auxiliary steel pipe 600 for a block tank, and a plurality of outer tank tanks for a block tank are connected to the outside of an inner block tank 596 of a double structure block tank 598 constituted by a reactor facility of a marine nuclear hydroelectric power plant. The first auxiliary steel 600 for the block tanks and the second auxiliary steel plates 601 for the block tanks 601, 602 and 603 are provided with the vertical partitions 605, the horizontal partitions 609 and the steel beams 149 of the second auxiliary steel plate 601, And the horizontal barriers 609 and the steel beams 149 and the snap holes 602 and the diaphragm manholes 610 are cut by a computer laser cutter and welded by the welding process And a dual structure block tank 598,

In the equipments of the hydraulic system cylinder door 624 and emergency step stairs 631 constituting the vertical partition 605 and the horizontal partition 609 having the partition wall manhole 610,

And the traffic devices provided by the welding process,

The plurality of stopper plates 625, which are provided as a connection structure for a traffic device at the time of renovation inside and outside with a double structure block tank facility,

It is equipped with press braking type bending machine, bending type roller bending machine and three bending roller bending machine of steel bending and bending machine, bending with steel plate (597) bending and bending machine of high tensile strength stainless steel and,

A plurality of inner block tanks 596 and a plurality of outer block tanks 599 of a double structure block tank 598 constituted by a cap-tight fitting assembly of a double structure block tank 598, A welding process for welding the plug-and-hold assembly of the plug plate 625 without the large-sized flange and the bolting assembly provided in an egg-shape with the upper and lower ends of the double structure block tank and the large- And distribution units equipped with assemblies,

(593,594,595) Dual structural block tank (598) Double structural block tank pipe bridge (928) Nuclear waste treatment facility for marine resources (2) ) And nuclear waste treatment dual structure block tank bridge bridge (929), dual structure block tank bridge bridge (937) and nuclear waste treatment dual structure block tank marine tunnel traffic equipment (941) It is composed of a number of distribution sides and distribution input devices that provide discharge to the connection structure and consists of the reactor structure of the nuclear power plant of the double structure block tank with the double structure reactor of the pressurized water type of nuclear waste treatment for the ocean source.

As shown in FIG. 61, the hull position shifting construction machine input of the nuclear power generation facility 811 of the marine nuclear hydroelectric power plant equipment of the hull locomotion control of the floating ordinance (593, 594, 595) of several marine nuclear hydroelectric power plants In the facilities of marine nuclear power plants,

(593,594,595) of several marine nuclear hydroelectric power plants in the ocean composed of a double structure block tank (598), and the submarine buoyancy control device and the marine tunnel traffic device manufacturing process Disassembled at the marine vessel manufacturing factory on the connection side It is possible to prevent sinking of ship and barge hull and to assemble and install buoyancy control device even at 10 km depth.

Marine hydroelectric generators, which consist of facilities of marine nuclear hydroelectric power plants,

It is equipped with a marine hydroelectric power plant with a capacity of 1000000k w / h and has a capacity of 0.5km, which is composed of a marine hydroelectric power plant. (811) configured to control the nuclear hydroelectric plant and the nuclear reactor facility to constitute the nuclear power plant, and a plurality of generators are formed in the nuclear power plant, and the generated power is produced from the power generation and production unit (811b) of the marine nuclear hydroelectric power plant, (593,594,595) of several offshore nuclear hydroelectric power plants constructed in the main body (1) of the pressurized water reactor type nuclear reactor treatment facility for the nuclear power plant and the nuclear waste treatment for the ocean nuclear power plant while the supply power to the control unit (811d) (928) connected to the double structure block tank bridge bridge (929) and the double structure block tank pipe The bridge 937 is connected to the nuclear waste treatment dual structure block tank marine tunnel traffic devices 941. The connection structure of the connection side is a disassemblable connection structure having a plurality of distribution sides and distribution input devices for providing the discharge, Nuclear Waste Treatment for Nuclear Waste Treatment Nuclear power plant operation of pressurized water type double structure reactor facility is composed of double structure block tank dust collector for nuclear waste treatment.

As shown in FIG. 61, the hull position shifting construction machine input of the nuclear power generation facility 811 of the marine nuclear hydroelectric power plant equipment of the hull locomotion control of the floating ordinance (593, 594, 595) of several marine nuclear hydroelectric power plants At the facility of a marine nuclear power plant,

Voltage substation 690 provided in the power plant and a transformer 96 via the primary substation 691 while being supplied with power (685) produced by a hydroelectric power plant constituting the coupling with the power transmission unit 811d, (593,594,595) of several marine nuclear hydroelectric power plants with a double structure block tank bridge (937) including a large plant (698) with a voltage (684) On the connection side, which provides power 685 to the power supply 705,

Raw material High-strength steel plate (597) Manufacturing Facility, double structure block tank pipe bridge (937) facility and double structure block tank pipe The bridge pier (928) is equipped with a diameter of 5M and is provided in the form of a reducer (35) per 1km of the sea bottom. The diameter of the pipe pier is 5M and the diameter is increased by 1M. In the nuclear hydroelectric plant facilities,

A double pipe structure tank bridge pier construction similar to that of the band guide pivot 621 provided with the semi-submerged operation line 637 and providing the connection of the flange 614 of the large flange 614 provided at the upper part of the deck deck (617) is disassembled and assembled into one set, and nuclear waste treatment for marine resources is carried out. Double-structure nuclear reactor facility of pressurized water type Double-structure block tank pipe pier connected to marine hydroelectric power plant floating house composed of main body (1) Side disconnection unit 928 is connected to the nuclear waste treatment dual structure block tank pipe bridge 929, the dual structure block tank pipe bridge 937 and the nuclear waste treatment dual structure block tank marine tunnel traffic equipment 941, A nuclear reactor with dual structure block tank dust collector and a dual structure reactor with nuclear waste treatment for pressurized water for marine resources, provided with a plurality of distribution sides and distribution input devices for providing exhaust to the possible connection structure And the operation is composed of a dual structure block tank dust collector for nuclear waste disposal.

As shown in FIG. 61, the hull position shifting construction machine input of the nuclear power generation facility 811 of the marine nuclear hydroelectric power plant equipment of the hull locomotion control of the floating ordinance (593, 594, 595) of several marine nuclear hydroelectric power plants At the facility of a marine nuclear power plant,

The abutment type saddle frame (617) abutment which is constituted in the facility of the marine nuclear hydroelectric power plant,

A disaster prevention shelter is provided by providing a counter mooring device for replacing the breakwater 400 in the territory of the territorial dispute while providing attachment of various types of jigs 22 in a symmetrical manner,

A plurality of jig coupling holes 615 and a plurality of jig hooks 185 are connected to the linkage 249 on the body of the various types of jig 22 to form a plurality of jig 22 processing holes 615, The shredding machine 185 has an anchor replacement worm crank 846 having a disassembly and coupling at the same time and a piercing level foundation bottom support 851,

Several anchor replacement worm cranks provided on the side and lower sides of the body of the saddle mold 617 are provided alternatively to the anchor bolts 133 constituted inside the main body 1 of the pressurized water reactor type nuclear water treatment plant The driven pulley 185 of the worm crank 846 is positioned at the center of the key bed 616 provided with the connecting structure at the lower end of the holding tank 590 of the barge hull so as to move the hydraulic cylinder 623 to the actuator 848, In the nuclear power plant equipment constituting the operation by the operation,

The hull is provided with anchorage with anchor replacement crank (846) at the seabed,

When the hull anchoring is canceled, the web cutter 185 fixed to the borehole of the undersurface of the wedge crank 846 attached to the lower part of the pier column is fixed by a hydraulic cylinder 623 actuating action 848, (593, 594, 595) of several marine nuclear hydroelectric power plants in the main body (1) of a pressurized water type double structure reactor facility (1) for treatment of nuclear waste for marine resources, A connection to a nuclear waste treatment dual structure block tank bridge 929 and a dual structure block tank pipe bridge 937 and a nuclear waste treatment dual structure block tank marine tunnel traffic apparatus 941 connected to a pipe bridge bridge 928, A double structure reactor with a double structure block tank dust collector and a nuclear waste disposal system with a pressurized water type dual structure reactor The non-nuclear operation consists of a dual structure block tank dust collector for nuclear waste disposal.

As shown in FIG. 61, the hull position shifting and construction machine input of the nuclear hydroelectric power plant (811) of the marine nuclear hydroelectric power plant equipment for controlling the hull position movement of the floating pickers (593,594,595) of several marine nuclear hydroelectric power plants In the facilities of marine nuclear hydroelectric power plants,

The internal structure of the dual structure reactor (1) for pressurized water treatment for nuclear waste treatment for marine resources, which provides movement control and disassembly and assembling of the hull position of the floating ocean tractor (593,594,595) of several marine nuclear hydroelectric power plants of each control side (593,594,595) of the marine nuclear power hydroelectric power plants that make up the control of nuclear hydroelectric power plant facilities. Tugboat (636) consisting of distributing and dispensing device for hull position control to the transportation section (811c) To move the dual structure block tank 598 to the offshore assembly site,

Double structure block tank (598) At the nuclear hydroelectric plant constituting the sea assembly,

Semi-submerged operation line (637), submerged operation block work (621), and double structure block tank (598) are used for pipe bridge and pipe bridge and marine tunnel transport equipment and several marine nuclear hydroelectric power plants The tugboat 636, which provides movement control and disassembly and assembling of the hull position of the floats 593, 594,

A double structure block tank 598 for submerging buoyant flag rubber balloon 628 and diving position confirming rope 629 constituting a nuclear hydroelectric power plant equipment to ropes with hooks 630 to bind to the hull, The air inlet port state, the electronic control unit valve operation state, and the air hose 109 and the pump hose state are checked to be attached to the outside of the double structure block tank 598 while making the diaphragm rubber balloon 628 medallion (593, 594, 595) of several marine nuclear hydroelectric power plants in the main body (1) of the pressurized water type double structure reactor facility for treatment of nuclear waste for marine resources while preparing for diving and injury function check. Block tank bridge pier 928 and nuclear waste treatment dual structure block tank bridge 929 and dual structure block tank bridge 937 and nuclear waste treatment dual structure block tank marine tunnel traffic equipment 941 A plurality of distributing and dispensing apparatuses for discharging by a disassembly-connectable connecting structure on the connecting side to be connected, and a nuclear power plant having dual structure block tank dust collector, And the operation is composed of a dual structure block tank dust collector for nuclear waste disposal.

61, as shown in FIG. 61, it is possible to control the hull position movement of the floating ocean tractor (593, 594, 595) of several marine nuclear hydroelectric power plants located in the main body (1) of the pressurized water double- The marine nuclear hydroelectric plant is the facility of the marine nuclear hydroelectric plant that constitutes the input of the hull locating and construction machinery of the nuclear hydroelectric power plant (811).

The semi-submerged operation line (637), which consists of facilities of the marine nuclear hydroelectric power plant,

The double structure block tank 598 is secured with the band guide 621 and the hydraulic cylinder key 623 while the barge hull 591 at the upper end of the holding tank is exposed to the upper end of the sea level SLL, In the marine assembly comprising the tank 598,

A buoyancy control butterfly valve 622 and a door 624 for a hydraulic cylinder and a hatch cover 153 for a hydraulic cylinder constituting lifting consoles 593, 594 and 595 of several marine nuclear hydroelectric power plants in the ocean are connected to the tug 636 The cargo ship is equipped with a block pylon (116) composed of a diaphragm type steel pipe (149) and a pipe, and an emergency staircase Transportation is provided to the elevator (631) and the elevator (632)

The iron tower 116, the emergency stairs 631 and the elevator 632 of the nuclear power plant,

And a crane crane lifter 861 while being laid down at the upper end of the barge hull deck deck at the upper end of the holding tank,

In the holding tank lower barge hull 592 of the nuclear power plant constituting the marine assembly,

The upper part of the upper part of the upper part of the upper part of the barge deck deck of the barge on the upper part of the holding tank of the upper part of the sea surface (SLU) is provided with an emergency staircase 631, a bolt , Lug connection Axis joint Nuclear waste treatment for marine resources while providing block-unit block pylon (116) with splitting nut Nuclear waste water treatment plant for pressurized water Double-structure nuclear reactor facility (1) Lifeline of several offshore nuclear hydro- Nuclear waste treatment dual structure block tank bridge 929 and dual structure block tank pipe bridge 937 and nuclear waste disposal dual structure block tank connected to double structure block tank pipe bridge 928 of water tank 593, 594, (941), and a plurality of distributing and dispensing devices for providing the discharge to the disassembly-connectable connection structure on the connection side, and a double structure block tank dust collector It is composed of a double structure block tank dust collector for nuclear waste disposal for the operation of the nuclear power plant for dual purpose nuclear power plant.

As shown in FIG. 61, it is possible to control the hull position shift of the floating ocean tractor (593, 594, 595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the inside of a marine nuclear hydroelectric power plant equipped with a pressurized- (811) of Marine Nuclear Hydroelectric Power Plant Facilities The facilities of marine nuclear hydroelectric power plants, which make up the input of construction machinery,

The emergency stairs 631, the elevator 632 and the mooring tower 644, which are composed of the facilities of the marine nuclear hydroelectric power plant,

At the top of the block tower (116), which consists of the facilities of the marine nuclear hydroelectric plant,

A lightning rod 500 is formed as a metal rod whose tip is sharp to prevent damage to a lightning bolt when a thunderstorm occurs, and a radio sonde 134 provided in an advent of an air conditioner 500 located at the upper end of the lightning rod 500 And provides diary information to the weather station by receiving the weather information transmitted from the satellite 611 of the communication system, while the flood control facility control unit is provided with information such as fire, drought, heavy snow, extreme weather, typhoon, flood and drought, A number of natural disaster prevention measures are provided by a flood control facility adjustment device,

Double-structure block tank pipe pier (928) of dual oceanic nuclear power plant with oceanic nuclear hydroelectric power plant (593,594,595) inside the main body (1) A disassemblyable connection structure on the connection side to the block tank bridge bridge (929), double structure block tank bridge bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic equipment (941) The nuclear plant is equipped with a number of distribution sides and distribution input devices, and consists of a double structure block tank dust collector for nuclear waste disposal, which is equipped with a double structure block tank dust collector, .

As shown in FIG. 61, the marine nuclear power plant (593,594,595) of marine nuclear power hydroelectric power plants constructed in the main body (1) Location of the hull position of the nuclear power plant (811) of the hydroelectric power plant facilities At the facilities of the marine nuclear hydroelectric power plant constituting the construction machine input,

Disposal Prevention and Control Section, which is composed of the inside of the main body (1) of the pressurized water double structure reactor facility for ocean nuclear waste treatment,

In the lower part of the meteorological observation equipment constituting the flood control process to the nuclear power plant facilities,

An unmanned landing camera 184 for unmanned landing and a burner boom 920 for adjusting the position of the adveiner 77 of the meteorological observation equipment are installed inside the basket 42 constituting the pallet boat, (9) equipment constituting a fuel gas supply to the fuel supply hose (694) to the fuel supply hose

The hose 694 of the gas transportation means which is lighter than air by the wire rope 19 and the shackle 23 and the lug 21 is connected to the inside of the disruption hose 9 while the connection is made inside the disaster prevention hose 9, And the air generated in the fire fighting unit 40 and the air compressor 80 at the rear of the water supply shutoff valve is connected to the receiver tank 145 and the air storage tank,

A hydraulic turbine boiler 920 located at the right side of the steel tower 116 of the barge hull block block at the upper end of the holding tank, a high pressure storage tank receiver tank 145 and a large hydraulic power generator 944, In the event of an emergency in the event of the generation of harmful gases in the storage tank and the storage tank and in the separation tank for separation of the harmful gas from the storage tank and crude oil during the collection of the natural gas (922) and crude oil (841) And a dual structure block tank cleaner 794 constituting an emergency recovery with attached filter 190,

Loess soil 158 constituted to fill the drilling space with the loess 158 and the cement 931 after the crude oil 841 is harvested and produced and a mixer machine 73 which is a device for mixing the loess 158 with the cement 931 In the nuclear power plant equipment constituting the nuclear power plant,

A helicopter station (619), a crew work room, a control room, and a crew cabin cabin cabin room are arranged to the left of the block tower (116)

At the left side of the safety control room of the nuclear power plant facilities, a satellite launch pad 643 and a space rocket launch pad 646, which provide satellite 611 and space rocket 612 launch,

The mooring unit located at the outside wall of the deck deck. The berth (638)

(1) a double structure nuclear reactor pressure vessel type nuclear reactor waste water treatment plant dedicated to the offshore source which arranges a satellite (611) and a space rocket (612) in a satellite launch pad (643) and a space rocket launch pad (646) (928), double structure block tank bridge bridges (929) and double structure block tank bridge bridges (937) of the oceanic hydroelectric power plants of the ocean, ) And nuclear waste treatment dual structure block tank Connected to the marine tunnel traffic devices (941), the disassembly-connectable connection structure has a plurality of distribution side and a distribution input device for discharging, Waste Treatment The dual operation of the pressurized water reactor is composed of a double structure block tank dust collector for nuclear waste disposal.

As shown in FIG. 61, the marine nuclear power plant (593,594,595) of marine nuclear power hydroelectric power plants constructed in the main body (1) Location of the hull position of the nuclear power plant (811) of the hydroelectric power plant facilities At the facilities of the marine nuclear hydroelectric power plant constituting the construction machine input,

The air compressor (80) facility, which consists of the facilities of a marine nuclear hydroelectric plant,

The installation is provided on the seabed with a net hose 109 and a nozzle 923 constituted by an air compressor (80) facility to prevent harmful red tide from breeding,

A drilling machine 908 for crude oil in the drilling machine room and a pipe rack 854 for the toothed hammer drill in the crude drill rod are provided with a connecting rotation operation,

A shackle is provided with the crane boom 651 of the wire rope 19 of the overhead crane 861 which provides positional shift control to the shelf of the drilling machine 908,

Drilling machine 908 providing tie-fishing winch 137 and binding The pipe rack 854 facility of 15 meters in length, which provides a position at the top of the rack,

Pipe Rack (854) It is equipped with a stockpile of crude oil at the time of crude oil which is made up of the crude oil which is made up of the equipment (854), and it is equipped with stockpile of crude oil at the sea bottom depth of 10 km at the center of the barge ship hull at the bottom of the holding tank An installation adjustment is provided by a core drill 917 which is coupled to and separated from a drop cord,

Nuclear waste treatment for marine resources Nuclear waste treatment of pressurized water Double structure nuclear reactor facility (1) Dual structure block tank pipe pier (928) of marine hydroelectric power plant floating tank (593,594,595) built inside Nuclear waste treatment double structure block tank bridge ), Double structure block tank bridge (937) and nuclear waste treatment dual structure block tank marine tunnel traffic equipment (941). The system consists of a dual structural block tank dust collector for the treatment of nuclear waste. The dual structure tank reactor is equipped with a double structure block tank dust collector.

As shown in FIG. 61, the hull position shifting construction machine input of the nuclear power generation facility 811 of the marine nuclear hydroelectric power plant equipment of the hull locomotion control of the floating ordinance (593, 594, 595) of several marine nuclear hydroelectric power plants At the facility of a marine nuclear power plant,

(593,594,595) of several offshore nuclear hydroelectric power plants constructed to control the nuclear power plant facilities (593,594,595) Adjustment of nuclear power plant facilities composed of distributing and input device of hull position control to the transportation section (811c) A band guide 621 provided with a hydraulic cylinder key 623 and a hydraulic rotary cylinder 620 equipped with a hand tool hammer and a wrench and a discharge pump and an air compressor 80 provided with a large flange- In addition,

(593, 594, 595) of several marine nuclear hydroelectric power plants in the ocean, constituting the air pressure regulator and the hydraulic regulator in the block tank,

The lug 605 and the lug coupling shaft coupling bolt 603 are provided with a coupling for the portable lug 607 processing hole 615 and the portable lug coupling pin coupling shaft 606 located at each block tank connection portion while providing diving and repetition, A coupling lug pin 608 is provided with threaded and lug-coupled split nut 604 to provide a bond to the machining hole at the bolt thread end,

The pin 608 is broken by a pin, and the nut is fixedly coupled to provide a subsea wiring on the double structure block tank line,

The supply of air to the land is provided by a flexible, high-pressure hose (190) of a cross-type over the sea surface and the seabed by operating the pump and the air compressor (80) before and after the occurrence of the harmful tide,

The disinfection water of the water pressure inside the pump piping line hose is constituted by a regulating device of the upward flow 925 and the downward flow 926 by arranging the water mountain range while discharging the discharge jet water and the radial curtain water film through the nozzle gap.

As the global warming is prevented and global warming is prevented, it is necessary to prepare the transition of the people of the nuclear bomb-producing Party, which is equivalent to harmful red tide, to the reconciliation mood,

The information provided to the unmanned camera 184 is provided to the wireless device radar of the satellite 611 of the computer system combined with the information exchange communication means of the Internet network 50 that peacefully resolves international disputes,

(928), nuclear waste treatment double structure block tank bridge (929), double structure block tank bridge bridge (937) and nuclear waste (593,594,595) of several marine nuclear hydroelectric power plants in the ocean. Treated dual structure block tank having a plurality of distributing and dispensing devices for providing exhaust to a disassemblyable connection structure on the connection side connected to the marine tunnel traffic devices 941 and having a dual structure block tank dust collector Nuclear waste disposal for marine resources The operation of the pressurized water type double structure reactor facility is composed of a dual structure block tank dust collector for nuclear waste disposal.

61, as shown in FIG. 61, it is possible to control the hull position movement of the floating ocean tractor (593, 594, 595) of several marine nuclear hydroelectric power plants located in the main body (1) of the pressurized water double- The transfer of the hull position of the Nuclear Hydroelectric Power Plant (811) of the Marine Nuclear Hydroelectric Power Plant Facility The installation of the marine nuclear hydroelectric power plant, which constitutes the input of the construction machine,

Nuclear waste disposal for marine resources (2) Pressurized water type double structure reactor facility (1) Lifting of several marine nuclear hydroelectric power plants constructed to control the nuclear power plant facilities composed of the inside (593,594,595) Friendly, non-polluting energy hydroelectric generators equipped with a nuclear power plant facility control process consisting of a distributing and dosing device for hull position control with a transportation section (811c), collecting submarine mineral resources while providing electric power to the world- A manganese nodule (909) is prepared in a furnace that melts iron ore immediately after collection,

Nuclear waste treatment dual structured block tanks that control supply of iron ore, crude oil (841) and pollution-free natural gas (922) to the countries of the world Marine trench transport equipment Internal train (771)

(1) Dual structural block tank pipes of oceanic nuclear hydroelectric power plants in the ocean (593,594,595) inside the main body of the pressurized water reactor (1) 928), the disassembly connection on the connection side to the nuclear waste treatment dual structure block tank bridge bridge 929, the double structure block tank bridge 937 and the nuclear waste treatment dual structure block tank marine tunnel traffic apparatus 941 A dual structure for the treatment of nuclear wastes, the operation of nuclear reactors for dual-structure nuclear reactors equipped with dual structure block tank dust collectors, and a dual structure reactor And a block tank dust collector.

As shown in FIG. 61, the marine nuclear power plant (593,594,595) of marine nuclear power hydroelectric power plants constructed in the main body (1) Location of the hull position of the nuclear power plant (811) of the hydroelectric power plant facilities At the facilities of the marine nuclear hydroelectric power plant constituting the construction machine input,

In addition to the establishment of a cooperative apparatus for international economic and economic development,

All military materials and bomb manufacturing experiments are to be held at designated places on the sea,

According to the achievement of the seabed resource reserves, the unmanned camera 184 obtains the winner from the countries and individuals having a high score, and then sets up the display on the conversion monitor 52. In this way, It is equipped with a maritime anti-piracy eliminator and is designed to modify one of the engine propeller (146) and the skewer (147) wing while the pirates are diving into the water together with the pirate ship during engine operation,

Pyrogen and disaster prevention materials, which constitute the facilities of marine nuclear hydroelectric power plants,

In order to maintain the close relationship of the bridge, the communication equipment of the Internet control system before and after the fire, a large number of pumps and pumps electronic control devices, high performance submersible pumps (36), air compressors (80), air storage tanks and wire ropes And a number of frames and mobile transport equipment Helicopter with a connection structure including an adventurous and an airship, while processing the nuclear waste for marine resources. (928), nuclear waste treatment double structure block tank bridge (929), double structure block tank bridge bridge (937) and nuclear waste disposal dual structure block tank connected to floating guard (593,594,595) A plurality of distributing and dispensing devices for providing discharges to the connection-side disassemblyable connection structure connected to the traffic devices 941 Than it is configured to fulfill a dual tank structure block precipitator marine source only nuclear waste disposal pressurized water nuclear power plant operating a dual structure of a nuclear reactor plant having a double structure block dust collector tank for the nuclear waste disposal.

As shown in FIG. 61, the marine nuclear power plant (593,594,595) of marine nuclear power hydroelectric power plants constructed in the main body (1) Hull position transfer of the nuclear power plant (811) of the hydroelectric power plant facilities At the facilities of the marine nuclear power plant constituting the input of the construction machine,

The fire fighting and disaster control device, which constitutes the flood control process for nuclear power plant facilities,

When the fire forming the fire control system is changed to a liquid, the piping nozzle is provided with a nozzle-like gap 15 and a straight line-like gap 15 in the form of a radiation, and the fire water to the formed gap 15 pipe nozzle has a plurality of radiation forms A curtain membrane 39 and a plurality of straight straight curtain membrane films 39, which are provided as a gas for the generation of fire 163, and vertically and horizontally curtain membranes provided for preventing life from dioxin and flame material It is equipped with pump and valve connection structure of electronic control device that constitutes the global village and prevents all kinds of disasters such as forest fire, yellow dust, heavy snow, extreme storm, flood and drought, landslide earthquake (685) as an electronic control pump fire-fighting and disinfection device consisting of fire-fighting and disaster control device in the global village (928) and a nuclear waste treatment dual structure block tank pipe (928) connected to a floating tank tanks (593, 594, 595) of several marine nuclear hydroelectric power plants in the ocean constituting the pressurized water double- A plurality of distributions to provide discharge to a disassemblyable connection structure on the connection side connected to the bridge 929, the dual structure block tank bridge 937 and the nuclear waste disposal dual structure block tank marine tunnel traffic apparatus 941 And a double structure block tank dust collector for nuclear waste disposal, which is equipped with a double structure block tank dust collector and a nuclear waste disposal unit.

As shown in FIG. 62, the equipment control section 811a of the floating position control and construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source nuclear waste- ) Includes a hydro-nuclear power generation control unit 811b for generating power production showing the configuration of the double pipe structure piping line regulation side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant,

(811) of the nuclear power generation facility (811), and a transportation transport section (811c) of the hull locating construction and construction machine, and distributing both sides of the distribution side constituting the nuclear reactor facility, It is necessary to prepare the input of a marine nuclear hydroelectric power plant equipped with a double structure reactor pressurized water type nuclear waste treatment for marine resources, which is composed of a dual structural block tank dust collector,

Nuclear waste disposal for marine resources Nuclear hydroelectric plant facilities that constitute a marine nuclear hydroelectric plant with a pressurized water double structure reactor facility,

The upper tank barge hull 591 and the holding tank lower barge hull 592 are provided with the distribution input unit of the diving preparation ready operation control device located inside the pressurized water double structure reactor facility for the ocean source only nuclear waste treatment, A plurality of lug processing holes 615 constituting a block tank hull disassembly-engaging portable lug 607 provided in a horizontal and vertical type coupling structure at each portion, and an elongated hole 616 for a block tank block unit hull disassembly-and- (606) and a machining hole (615) and a vertical block tank hull disassembly portable lug pin connecting shaft (606), a machining hole (615) and a block tank block unit And a long hole 616 for the hull decomposition coupling position shifting device is provided to connect the connecting portion of the pier holding column 590 and the barge hull 591 at the upper end of each strut tank and the lower portion of the holding tank A plurality of lug pin connecting shafts 606 coupled to a plurality of processing holes 615 provided at respective portions in a vertical form of the branch hull 592 and connected to several lug processing holes 615, The lug pin connecting shaft 606 is removed and the lug pin connecting shaft 606 having a plurality of lug pin connecting shafts 606 is provided so that the sinking ship holding line constituting the dual structure holding tank 598 and the sunken- The line 634 is provided with a pre-dispensing line for dispensing input devices,

A block unit block of a diving control device composed of a connection structure at each part of a barge ship hull, a connection portion at the bottom of each part of a barge hull, an inlet of a butterfly valve 622 for adjusting the buoyancy of the tank hull and a doctor ventilation 585 of the diving control device A hydraulic cylinder for a block tank hull traffic control device, a door (624) and a stopper plate (625), a double structure piping line automatic pneumatic valve transport device (916) and a motor control motor module for engine control (585a and 585b) 106, respectively, so as to prepare for the submerging process, the horizontal type holding tank 590 is converted into the vertical type holding tank 590,

Nuclear waste disposal for marine resources Nuclear hydroelectric plant facilities that constitute a marine nuclear hydroelectric plant with a pressurized water double structure reactor facility,

Double-structured reactors for marine nuclear power plants with preparation for submerging at the lower sea level (SLD) Double-structured reactors (593,594,595) of several marine nuclear hydroelectric power plants constructed in the main body (1) A connecting side connected to a tank pipe bridge 928 and a nuclear waste treatment dual structure block tank bridge 929 and a dual structure block tank pipe bridge 937 and a nuclear waste treatment dual structure block tank marine tunnel traffic equipment 941 And a plurality of distributing and dispensing apparatuses for discharging with a connection structure capable of decomposing and coupling the marine nuclear power plant with dual structure block tank dust collectors, The operation of nuclear power plant is composed of nuclear waste disposal with dual structure block tank dust collector for nuclear waste disposal.

62, as shown in FIG. 62, the hull position of the nuclear power plant 811 constituted inside the main body 1 of the pressurized water double-structure reactor facility for marine nuclear waste treatment, In addition,

The power motor motor main body 192 constituting the distributing side of the regulating side and the central portion circumferential surface portion of the rotating shaft 198 formed on the horizontal center line MBCL of the power motor motor main body 192, A pump to which the guide vane 142 is attached and a piston 127 to be attached to the rotary shaft 198 and a large hydraulic force A main valve 265 on the side of the pump aberration 943a located below the large hydroelectric power generator 944 of the marine seesaw hydroelectric power plant 943 provided with the generator 944 and the main valve 265 on the side of the pump aberrug 943a and the Francis aberger 943c and the Pelton aberger 943b, Internal balance nozzles and turbine 267 The plunger pump 148 to the pump 140 and the propeller pump 146 and the viscous pump 343 to the high pressure piston pump 127 each pump is connected to each pump body casing 141, A plurality of power motor electric motor bodies (192) detachably connected to an inner rotary shaft (198) Type multi-stage pump 8 of several microcomputer-controlled type, and is constructed inside the pressurized water type double structure reactor facility main body 1 for the marine source exclusive nuclear waste treatment,

In the reactor facility of nuclear hydroelectric power plant, where the former crude oil drilling rig is anchored to the anchor, and is configured to be different from the operation in the continental shelf area within 200m depth, the hull fixation is replaced with anchor replacement crank (846) It is a remarkable difference from constructing the anchor of the previous hull fixation in that it constitutes.

As shown in FIG. 63, the equipment control unit 811a of the floating position control equipment 811a included in the nuclear power plant unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source nuclear waste- ) Includes a hydro-nuclear power generation control unit 811b for generating power production showing the configuration of the double pipe structure piping line regulation side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant,

(811) of the nuclear power generation facility (811), and a transportation transport section (811c) of the hull locating construction and construction machine, and distributing both sides of the distribution side constituting the nuclear reactor facility, In the dual structure block tank dust collector, several nuclear power plants are installed,

In the nuclear hydroelectric power plant equipment constituting the pressurized water double structure reactor facility,

Marine nuclear waste disposal treatment Pressurized water double structure reactor facility Main body (1) The hull position of the nuclear power generation facility (811) which constitutes the inside of the ship Main body (d) The ship upper part (SDU) of the marine power plant body dock with the transportation transportation part (811c) (943) to the pipe bridge pier (928) and pipe bridge (937) showing the construction machine position control arrangement of the hull position movement control of the marine tunnels (593,594,595) of several marine nuclear hydroelectric power plants (771) of the marine tunnel transportation equipment, and the construction equipment connection structure to prepare the nuclear hydroelectric power plant facilities of the above-mentioned marine nuclear power plants (593,594,595)

A hydraulic rotary cylinder 620 of a rack and pinion type (NRP) which is a rotary cylinder constituting a nuclear hydraulic power plant facility, a butterfly valve 622 for controlling the buoyancy of the band guide 621, a hydraulic cylinder and a hydraulic actuator 623 A hydraulic cylinder door 624 and a nuclear hydropower plant adjustment device. The vertical partition wall 605 and the pin linking shaft 606 for connecting the portable lug 606, the portable lug 607, the portable lug pin 607, (608) and a large flange connection joint joint portion machining hole (615)

The pipe bridge 928 is connected to the oil drilling drilling machine 908 constituted by the construction machine connection structure pipe bridge 928, the pipe bridge 937 and the marine tunnel transportation device 941 constituting the nuclear hydroelectric power plant facility, Nuclear waste treatment dual structure block tank on pipe bridge (937) Marine tunnel transport equipment internal train (771) equipment, which consists of the interior of marine tunnel traffic device (941)

(771) Construction machinery constituting equipment Marine nuclear waste disposal with connection structure and disassembly and disassembly Combined pressurized water type double structure reactor facility (1) Several marine nuclear hydroelectric power plants Double structure block tank bridge pier (928) and nuclear waste treatment double structure block tank bridge (929), dual structure block tank bridge bridge (937) and nuclear waste disposal double structure block tank of marine tunnels (593,594,595) And a plurality of distribution side and distribution input devices for providing discharge to the connection side of the connection side connected to the traffic apparatuses 941. The operation of the nuclear power plant of the pressurized water type double- And a dual structure block tank dust collector for nuclear waste disposal.

As shown in FIG. 64, the facility control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source nuclear waste- ) Includes a hydro-nuclear power generation control unit 811b for generating power production showing the configuration of the double pipe structure piping line regulation side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant,

(811) of the nuclear power generation facility (811), and a transportation transport section (811c) of the hull locating construction and construction machine, and distributing both sides of the distribution side constituting the nuclear reactor facility, In the dual structure block tank dust collector, several nuclear power plants are installed,

Double Structure Block for Nuclear Waste Disposal A dual structure nuclear water reactor for marine resource processing, which constitutes a tank dust collector,

The holding tank (590) equipment, which consists of a buoyancy control tank and a connection structure,

An inner block tank 596 constituted by a double structure block tank 598 and a buoyancy regulating tank in an empty space of the outer block tank 599 and an outer side located outside the flood control ports 593, 594, 595 of several marine nuclear hydroelectric power plants And is provided with a pin connection shaft 606 and a lug pin 608 for coupling the lug 607 to the nuclear waste treatment dual structure block tank marine tunnel transport device 941 and the marine tunnels of several marine nuclear hydroelectric power plants (593,594,595) The barge hull facility is provided,

(593, 594, 595) of the marine nuclear hydroelectric power plants of the ocean comprising the barge hull arrangement constitute the action of freely folding and unfolding the holding tanks (590) of the barge hull at the sea level location of the barge hull holding tanks (590) Hydraulic cylinder 620, hydraulic cylinder 623, and door 624 for hydraulic cylinder, so that the elevation of the barge hull equipment can be provided,

The buoyancy control butterfly valve 622 and the buoyancy control butterfly valve 622 having a connection structure with the solenoid valve 76 connected to the buoyancy control tank of the barge hull are connected to the main switch button for the solenoid valve start switch button (66) operation of the on-time main switch button (66)

Double-structure block tank pipe pier (928) of dual oceanic nuclear power plant with oceanic nuclear hydroelectric power plant (593,594,595) inside the main body (1) A disassemblyable connection structure on the connection side to the block tank bridge bridge (929), double structure block tank bridge bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic equipment (941) The nuclear plant is equipped with a number of distribution sides and distribution input devices, and consists of a double structure block tank dust collector for nuclear waste disposal, which is equipped with a double structure block tank dust collector, .

64, as shown in FIG. 64, the hull position shift of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste for the marine nuclear power source. The construction of the marine nuclear hydroelectric power plant constituting the construction machine input In addition,

The connecting stern part of each strut tank 590, which is not connected to the barge hull, is connected to the strut tank upper barge hull 591 constituted by the facility of the marine nuclear hydroelectric power plant.

(590) The connection stern and the holding tank upper barge hull (591) are connected to the connecting side. The distribution tank is connected to the connecting device. (637), barge, tugboat (636), and anti-sinking rescue ships, and to distribute construction machinery and marine tunnel traffic equipment for maritime cranes, anti-aircrafts and anti-aircrafts (877) (593,594,595) of sinking prevention type marine nuclear hydroelectric power plants providing automatic manufacturing connection structure of fixing and termination of mooring device by putting device position shift control device and throttle control device,

The construction equipment for the marine nuclear hydroelectric power plant having the pressurized water reactor for nuclear waste disposal and the distribution and input device of the marine tunnel traffic equipment,

(593,594,595) of a number of offshore nuclear hydroelectric power plants. (593,594,595) Dual structure block tank for nuclear waste disposal to discharge the input device. Nuclear power plant for nuclear power plant with dust collector. A holding tank 590 of a barge hull of a coupled connection structure is attached to one side of a holding tank having a block tank combined portable lug 607 of a barge hull provided in the sea while being constructed in the marine state, (590) as a holding block tank capable of adjusting the positional movement of the hull at a constant angle from 0 ° to 350 ° vertically and horizontally. A double structure block tank for nuclear waste treatment. Marine Nuclear Hydroelectric Power Plants Having Water Type Dual Structure Reactor Facilities are constructed in the ocean,

(593,594,595) of several oceanic hydroelectric power plants in the marine environment, while providing natural disasters to overcome natural disasters in succession. (928), double structure block tank bridge bridge (929), dual structure block tank bridge bridge (937) and nuclear waste treatment duplex bridge bridge pipe bridge (928) of floating marine nuclear power plant of several marine nuclear hydroelectric power plants (593,594,595) Structure block tank A marine tunnel with a double structure block tank dust collector with a plurality of distribution sides and distribution input devices for providing the discharge to a detachable connection structure on the connection side connected to the marine tunnel traffic devices 941, Dedicated nuclear waste disposal The dual operation of pressurized water reactor type nuclear reactor facilities consists of a double structure block tank dust collector for nuclear waste disposal.

64, as shown in FIG. 64, the hull position shift of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste for the marine nuclear power source. The construction of the marine nuclear hydroelectric power plant constituting the construction machine input In addition,

The power transmitting portion 811d constituting the hydraulics power transmission to both the forward and aft ends of the central portion of the plurality of inner block tanks 596 to the inside of the hull deck center portion SDM of the barge hull 591 of the marine nuclear hydroelectric power plant, A guide rail 618 located at the upper end portion SDU of the double structure barge hull 591 at the upper end of the holding tank 590 provided with the inserts of the respective adjustment sides is installed at the left and right positions of the deck deck ,

A moving installation inside the barge hull is provided while a crane 861 having a capacity of 5000 tons is provided on the guide rail 618,

In the safety place where the crane 861 constituting the hydraulic equipment refinement passes,

The sliding hatch covers (153) of double structure are installed in double or triple arrangement, and a hydraulic structure is provided on one side of each of the adjustment sides (593,594,595) of a number of offshore nuclear hydroelectric power plants in the ocean, comprising a hydraulic cylinder (623) with a control hydraulic cylinder (623) A connecting side connected to a tank pipe bridge 928 and a nuclear waste treatment dual structure block tank bridge 929 and a dual structure block tank pipe bridge 937 and a nuclear waste treatment dual structure block tank marine tunnel traffic equipment 941 And a plurality of distributing and dispensing apparatuses for distributing the waste water into a connection structure capable of disassembling and disassembling the waste water, Achieve the operation of the nuclear reactor plant with a double structure building block dust collector tank for the nuclear waste it consists.

64, as shown in FIG. 64, the hull position shift of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste for the marine nuclear power source. The construction of the marine nuclear hydroelectric power plant constituting the construction machine input In addition,

(591) at the upper end of the double structure holding tank and a holding tank (590) at the lower end of the double structure holding tank, which are composed of facilities of a marine nuclear hydroelectric power plant, A lug 607, a lug connecting shaft coupling bolt 603 and a lug connecting shaft coupling and disassembling nut 604 are provided on the portable lug coupling pin connecting shaft 606 and a floating position sensor The double structure block tank bridge pier (928), the double structure block tank bridge bridge (937), and the core of the marine nuclear power hydroelectric power station (593,594, 595) Waste disposal marine tunnel traffic device (941) Disconnectable connection structure on the connection side, comprising a plurality of distribution sides constituting the discharge,

The dual structural barge hull (591) at the top of the holding tank at each adjustment side is connected to several inner block tanks (596) inside the SDM of the hull deck (596) A double structure block tank pipe bridge 928, a double structure block tank bridge 937 and a nuclear waste treatment dual structure block 923 of a marine plant of a marine nuclear hydroelectric power plant constructed inside the facility body 1 (593,594,595) Tank marine tunnel traffic equipment (941) The connection structure that can be disassembled and connected with the floodgate (593) of a small marine nuclear hydroelectric power plant that provides discharge through a disassembly-connectable connection structure on the connection side is a small marine nuclear hydroelectric power plant (593) The double structure block tank (598) on the circumferential surface is divided into a hull coupling detachment portable lug (607), a portable lug pin coupling axis (606) and a secondary type of marine nuclear hydroelectric power station (593) of a small-sized marine nuclear hydroelectric power plant, and a hydraulic cylinder (623) with a hull-coupling separating portable lug (607) and a portable lug pin connecting shaft (606) (594) combination of a mid-sized ocean nuclear hydroelectric power plant,

The hull coupling detachable portable lugs 607 and the portable lug pin connecting shafts 606, which are located at the side portions of the floating washing stand 594 of the middle type nuclear hydroelectric power plant,

The hydraulic cylinders 623 constituting the floatation coupler 594 are connected to the float 595 side portions of the large-scale marine nuclear hydroelectric power plant, the hull-coupling detachable portable lugs 607 and the portable lug pin connecting shafts 606 And the hydraulic cylinder 623 is used to provide diving control and separation coupling at sea level,

Nuclear waste treatment for marine resources Nuclear waste treatment of pressurized water type Double structure nuclear reactor facility (1) Double structure block tank pipe pier (928) of floating marine plant (593,594, 595) of several marine nuclear hydroelectric power plants in the ocean and nuclear waste treatment A double-structure block tank bridge pipe (929), a double structure block tank pipe bridge (937), and a waste water treatment double structure block tank marine tunnel traffic device (941). A dual structural block tank dust collector for nuclear waste disposal is constructed to operate the nuclear power plant of dual pressure nuclear water treatment type nuclear waste disposal type water treatment plant equipped with a plurality of distribution side and distribution input devices provided with a double structure block tank dust collector .

As shown in FIG. 64, in the facilities of the marine nuclear hydroelectric power plant constituting the hull position shifting construction machine input of the nuclear power generation facility unit 811,

Buoyancy control butterfly valve (622) constituting suction and discharge of disaster prevention water and buoyancy control valve (624) having a connection structure to solenoid valve (76) constituting the floating water reservoir (593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear hydroelectric plant, The main switch button 66 of the main switch button for the solenoid valve 76 for the start switch button constituting the opening of the regulating butterfly valve 622 is provided so that the hydraulic cylinder 623 is provided in the empty space for diving control on the barge hull, The door 624 for the hydraulic cylinder is opened, the electrolytic water is filled in the empty space for diving control, and at the same time, the barge hull is slowly diving into the water while losing buoyancy,

The lug coupling pin connection shafts 606 are connected to a single vertical work hole portion on one side of a single vertical lug 607 on both sides of the holding tank 590 constituting the block tank engaging portable lug 607 of the hull of the barge A connection structure is provided for connecting the hydraulic cylinders 620 and the hydraulic cylinders 623 to each other to provide a connection while the doors 624 for the hydraulic cylinders are fully closed to perform diving while controlling the movement of the hydraulic cylinders. In the unit of the floating block block tank constituting the facility, decomposition bonds are prepared in the ocean,

(590) Lug hinge sockets (613) located on each side of the tank (590) to provide disassembly and disassembly to treat nuclear waste only for marine resources. Pressurized water type double structure reactor facility (1) (928), double structure block tank bridge bridge (929), double structure block tank bridge bridge (937) and nuclear waste disposal double structure (928) of the floating structure block tank pipe bridge (593,594, 595) Block tank A connection structure for connection to the marine tunnel traffic devices 941. It is provided with a plurality of distribution sides for providing the discharge and a distributing and inputting device and a marine source having a double structure block tank dust collector Nuclear waste disposal The pressurized water double-structure reactor facility consists of a dual structure block tank dust collector for nuclear waste disposal.

As shown in FIG. 65, the facility control section 811a of the floating position control and construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment, ) Includes a hydro-nuclear power generation control unit 811b for generating power production showing the configuration of the double pipe structure piping line regulation side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant,

(811) of the nuclear power generation facility (811), and a transportation transport section (811c) of the hull locating construction and construction machine, and distributing both sides of the distribution side constituting the nuclear reactor facility, The dual structure block tank dust collector is equipped with the input of double pressure reactor type nuclear reactor waste water treatment type double structure reactor facility,

In the nuclear hydroelectric power plant equipment constituting the pressurized water double structure reactor facility,

(593,594,595) Nuclear waste treatment Double structural block tank of marine nuclear hydroelectric power plant constituting double structure pressurized water reactor of nuclear hydroelectric power plant Double structure block tank of marine tunnel traffic device (941) Individual welding (593, 594, 595) of the marine nuclear hydroelectric power plants having the marine safety tool band guide 621 at the top of the sea half-diving operation line for providing connection assembly, Adjustment is provided,

The double structure block tank 598 coupling detachment portable lug 607 and the portable lug pin coupling shaft 606, which constitute the nuclear hydroelectric plant,

The welding connection lines are welded symmetrically with each other while the pin connection shaft 606 is connected to the sea surface at each sea level while the tool block band guide 621 is connected to the semi-diving operation line 637 for the unit structural operation of the double structure block tank 598, And a large flange 614 at the connecting position is provided in units of double structure block tanks 598,

The partial coupling of the double structure block tank 598 constituting the connection flange 614 of the large flange 614 is connected to the band guide 621 and the half diving operation line 621 while providing the line coupling with the lever block 123 and the chain blocks 648. [ (612) of the marine tunnel traffic device (941) connected to the marine nuclear hydroelectric power plant floodplane (6) by welding and flanging the double structure block tank (598) with welders, bolts, The structural block tank 598 is provided with welded joints and flange joints,

Double-structure block tank pipe pier (928) of dual oceanic nuclear power plant with oceanic nuclear hydroelectric power plant (593,594,595) inside the main body (1) A disassemblyable connection structure on the connection side to the block tank bridge bridge (929), double structure block tank bridge bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic equipment (941) The nuclear plant is equipped with a number of distribution sides and distribution input devices, and consists of a double structure block tank dust collector for nuclear waste disposal, which is equipped with a double structure block tank dust collector, .

65, as shown in FIG. 65, the hull position of the nuclear power plant 811 constituted inside the main body 1 of the pressurized water double-structure reactor facility for marine nuclear waste treatment, In addition,

The double structure block tank 598 facility of the marine tunnel traffic device 941, which is connected to the floating consoles (593, 594, 595) of several marine nuclear hydroelectric power plants in the ocean,

At the top of the floating oceanic hydroelectric power station (593, 594, 595) of a small, medium and large sized ocean at the top of the sea level upper part (SLU) constituting the dual structural block tank (598) And a tackle winch 137 provided inside the tie plate 116 to provide a block pylon 116,

The lug connecting shaft coupling bolts 603 constituting the dual structure block tank 598 are coupled to the unit block steel tower connecting connector processing holes 615 to be coupled to the lug connecting shaft coupling nuts 604 by a block unit Block steel towers 116, and an emergency stairway 631 is installed around the upper end of the block steel towers 116,

The emergency stairs 631, which constitute the dual structure block tank 598 facility,

The upper portion of the mooring tower 644 and the mooring position of the airship 78. The crane 861 and the elevator 632 are installed at the bottom of the lower portion of the airship,

Dual structural block tank (598) Treatment of nuclear waste for offshore source from storm surge constituting equipment (2) Pressurized water type double structure reactor facility (1) Disposal of nuclear waste for offshore source The installation position of the marine tunnel traffic device (941) is controlled by installing the marine tunnel traffic device (941) for buoyancy control inside the pressurized water type double structure reactor facility (1) at the position of 40M below the sea surface (SLL) Waste disposal is provided by a pressurized water type double structure reactor facility,

Double-structure block tank pipe pier (928) of dual oceanic nuclear power plant with oceanic nuclear hydroelectric power plant (593,594,595) inside the main body (1) A disassemblyable connection structure on the connection side to the block tank bridge bridge (929), double structure block tank bridge bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic equipment (941) The nuclear plant is equipped with a number of distribution sides and distribution input devices, and consists of a double structure block tank dust collector for nuclear waste disposal, which is equipped with a double structure block tank dust collector, .

65, as shown in FIG. 65, the hull position of the nuclear power plant 811 constituted inside the main body 1 of the pressurized water double-structure reactor facility for marine nuclear waste treatment, In addition,

In the distributing and inputting equipment for the construction machine operation composed of the pressurized water double structure reactor facility for the nuclear waste treatment for the ocean source,

A submarine mineral resource manganese nodule (909) for buoyancy control is provided as a lead weir (107) for diving buoyancy control with a diving position control mobile connection structure of a hull constituting a connection structure of a maritime tunnel transportation device (941) (593,594,595) of several marine nuclear hydroelectric power plants in the ocean, equipped with manganese nodules (909) as the connecting structure of the submersible hull of the barge hull, Manganese nodule 909,

(SLU) of several sea nuclear hydroelectric power plants in the ocean (593,594,595) Upper part of hull deck upper part (SDU) Upper part of marine power generation facility located as a connecting structure Each crane Crane boom to crane boom, crane boom, level maintenance weight (107), and a connection structure with a mooring device and power generation facilities to continuously produce the hydroelectric power of the sea. (593,594,595) of several offshore nuclear hydroelectric power plants constructed within the main body (1) of a pressurized water double structure reactor facility for the treatment of nuclear waste for the ocean source (811b) (811c) so as to control power production of the nuclear hydroelectric power plant,

The distribution input device of the seabed mineral manganese nodule 909, which is composed of a connection structure inside the marine nuclear hydroelectric power plant having the pressurized water reactor facility for treating nuclear waste,

A connecting structure for providing a plurality of hatch covers 153 provided on the outer bulkheads of the respective portions of the body of the strut tank lower barge hull 592 constituting the distributing and inputting apparatus of the manganese nodule 909. The double structure piping line automatic pneumatic transportation A connection structure having a connection structure to the device 916 is connected to the solenoid valve pressure switch of the connection structure solenoid valve 76 while having a connection structure with the buoyancy control butterfly valve 622 of the diving control device of the pipeline, Main switch button for switch button (66) Power cable (71) for connection structure Double-structured nuclear water reactor for marine resource treatment with double-structured nuclear water reactor for connection structure (1) Nuclear hydroelectric power generation And a power transmission control unit 811d for transmitting the power to the control unit 811d,

Double-structure block tank pipe pier (928) of dual oceanic nuclear power plant with oceanic nuclear hydroelectric power plant (593,594,595) inside the main body (1) A disassemblyable connection structure on the connection side to the block tank bridge bridge (929), double structure block tank bridge bridge (937) and nuclear waste treatment double structure block tank marine tunnel traffic equipment (941) The nuclear plant is equipped with a number of distribution sides and distribution input devices, and consists of a double structure block tank dust collector for nuclear waste disposal, which is equipped with a double structure block tank dust collector, .

66, the facility control section 811a of the floating position control and construction machine included in the nuclear power plant section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the offshore source nuclear waste- ) Includes a hydro-nuclear power generation control unit 811b for generating power production showing the configuration of the double pipe structure piping line regulation side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant,

The nuclear power generation nuclear waste processing unit 811a included in the nuclear power generation facility unit 811 and the transportation transportation unit 811c of the hull position moving construction machine are allotted to both sides of the distribution side constituting the nuclear reactor facility, And to prepare for the introduction of dual pressure reactor type double reactor nuclear reactor treatment facility for marine resources into the dual structure block tank dust collector,

Nuclear waste disposal for marine resources Nuclear power plant equipment that constitutes pressurized water double structure reactor facility includes,

Tubular bridges that constitute the nuclear hydroelectric power plant facility Long-haul transport of towers with tugboats Installs a plurality of pipe bridge block tanks for disassembly of the raft line Disassembly and transport in the area Transforming method 500m unit Block tank installation Wiring method Crankshaft (593,594,595) of several nuclear hydroelectric power plants of nuclear hydroelectric power plants connected to bridge structures (929) of dual structure block tank bridges (593,594,595) A plurality of piles (not shown) formed on the outside of the holding tank top barge hull 591 and the holding tank bottom barge hull 592 formed before and after the process of the water surface embedding process, The connection block tanks (590), the top of the holding tank upper barge hull (591), and the connecting portion of the top and bottom of the holding tank are formed at each barge line (607) with a block tank hull disassembly-type portable lug (607), and a lug connection shaft (606) and a lug connection shaft coupling bolt and a screw thread lug connection shaft assembly coupling nut and a portable lug pin connection shaft (606) 608), a water surface disposal treatment process is provided so as to achieve the disassembly and coupling of the reactor facilities of the nuclear hydroelectric power plant,

The processing hole 615 and the long hole 616, which are formed in the portable lug 607,

Horizontal and vertical building structure,

In the nuclear hydroelectric plant facility consisting of the portable lug pin connecting shaft 606 and the portable lug fins 608,

And the bottom of the center of each of the vertical holding tanks 590 on the outer circumferential surface of the inner circumferential inner surface of the holding tank 590 at the center of the upper barge hull of the holding tank 590, And mooring devices,

Borehole excavation is provided by a core drill 917 constituting several pipe racks 854 formed on the undersea surface GLD,

The crankshaft 846 for crankshaft replacement is connected to the hydraulic cylinder 620 and the hydraulic cylinder master cylinder bed 623 to provide a connection structure for the construction machine 970 mounted on the barge at the upper end of the pillar portion of each of the strut tanks and,

The hydraulic cylinder 620 is operated by pushing the wrench crank 846 into the drill hole for drilling the corrugated wrench crank 846 connected to the construction machine 970 so that the wrench crank 846 And a plurality of vertically aligned tool holding paddles 185 having a sharp end and being compressed and expanded inside the excavation hole to be fixed in the ground and fixing the lower end portions of the respective holding tanks to prevent the barge ship from drifting,

Floating auxiliaries (593, 594, 595) of several marine nuclear hydroelectric power plants making up anchor replacement crank (846)

The marine tunnel transport devices, which are composed of the oceanic nuclear hydroelectric power plants of the ocean at the oceanic stations (593, 594, 595)

(1) of the marine nuclear power plant (1) consisting of a dual-structure reactor facility (1) equipped with a shared landfill (944) and a municipal landfill (945) Nuclear waste treatment double structure block tank bridge (929) and dual structure block tank bridge bridge (937) and nuclear waste disposal dual structure block tank Marine (928) and double structure block tank bridge pier (928) of floating plant consignment (593,594,595) A plurality of distributing and dispensing apparatuses for discharging to a disconnectionable connection structure connected to the tunnel traffic apparatuses 941, and a nuclear waste disposal apparatus for a marine resource having a double structure block tank dust collector It consists of a double structure block tank dust collector for the nuclear waste disposal of the nuclear reactor facility operation of the distribution input device of the pressurized water type double structure reactor facility.

As shown in FIG. 67, the facility control section 811a of the floating position control and moving construction machine included in the nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment, ) Includes a hydro-nuclear power generation control unit 811b for generating power production showing the configuration of the double pipe structure piping line regulation side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant,

The nuclear power generation nuclear waste processing unit 811a included in the nuclear power generation facility unit 811 and the transportation transportation unit 811c of the hull position moving construction machine are allotted to both sides of the distribution side constituting the nuclear reactor facility, And to prepare for the introduction of dual pressure reactor type double reactor nuclear reactor treatment facility for marine resources into the dual structure block tank dust collector,

Marine Nuclear Waste Treatment for Offshore Nuclear Power Plant At the marine nuclear power plant equipped with pressurized water double structure reactor facility,

Nuclear waste treatment for marine resources Nuclear waste treatment unit of pressurized water type Double body nuclear reactor facility (1) Nuclear power generation nuclear waste treatment unit (811a) of nuclear power generation facility part (811) constituted inside of the marine nuclear power plant body dock (593, 594, 595) of the several marine nuclear hydroelectric power plants constituting the construction machine position control of the hull position movement control of the floating ocean tractor (593, 594, 595) of several marine nuclear hydroelectric power plants and the vertical partition (605) A connecting lug pin 606, a portable lug 607, a portable lug pin 608, a large flange connection connector joint portion machining hole 615, and a construction machine connection structure,

The number of marine nuclear hydroelectric power stations (593, 594, 595), which make up nuclear hydroelectric plants,

A hydraulic rotary cylinder 620 of a rack and pinion type (NRP) which is a rotary cylinder constituting a floating nutrient 593,594,595 of a marine nuclear hydroelectric power plant, a butterfly valve 622 for buoyancy control of the band guide 621, A vertical partition wall 605 constituted by distributing and introducing devices of a nuclear power plant regulating machine provided with a cylinder or a hydraulic key 623 as a hydraulic cylinder door 624 and a pin connecting shaft 606 for a portable rubber coupling, A portable lug 607, a portable lug fin 608, a large flange connection connector joint portion processing hole 615, and a hydraulic power plant construction machine connection structure,

(593,594,595) Dual structural block tank (598) Double structural block tank pipe bridge (928) Nuclear waste treatment facility for marine resources (2) ) And nuclear waste treatment dual structure block tank bridge bridge (929), dual structure block tank bridge bridge (937) and nuclear waste treatment dual structure block tank marine tunnel traffic equipment (941) A nuclear power plant with a double structure block tank dust collector equipped with a plurality of distribution sides and distribution input devices for discharging to a connection structure, and a double structure block And a tank dust collector.

Figures 55 through 67 are schematic diagrams illustrating one embodiment of a nuclear reactor waste water treatment pressurized water double structure reactor facility according to the present invention.

As shown in Fig. 68, the operation of the nuclear power plant constituting the conventional pressurized water reactor type nuclear reactor 803 is as follows.

In the pressurized water reactor type nuclear reactor facility 803 constituting the nuclear power plant operation,

And is a pressurized water reactor type reactor in which heat is transferred from the core to the steam generator 810 through the water stored at high pressure to maintain a high temperature without boiling.

Steam generator 810 provides a turbine 267 operation to produce electricity,

The pressurized water reactor (803) is the most widely used reactor facility in the world. Pressurized water reactor or water-cooled deceleration water-cooled pressure vessel type Pressurized water reactor.

In the pressurized water reactor type nuclear reactor facility 803,

The hard water constituting the pressurized water reactor has a primary use at P W R,

In the primary system, the primary flow is set at about 315 degrees Celsius. The primary flow pressure is usually 2000 psig, 15 MPa, and 654a at a pressure of 150 times the atmospheric pressure. In most forms of the system, the temperature is 275 degrees Celsius, the pressure is 900 psig, and the water flowing at a pressure of about 6.2 MPa is made into water vapor and sent to the steam turbine 267.

In the case of the commercial pressurized water reactor type reactor installation 803 of the pressurized water reactor type nuclear reactor 803, the amount of the coolant 816 is constant, but the reactor can adjust the flow of the coolant 816, Neutrons (675) are provided to the reactors for facility deceleration,

Many of the water molecules have the same size as the neutrons 675, so as to lower the velocity of the neutrons 675 due to the collision with the neutrons 675,

The neutron "deceleration" is better decelerated as the number of molecules of water molecules increases, and the pressurized cooling water 287 is structured such that the hydrogen atoms in the water molecules control the velocity of the neutrons 675,

The use of water is one of the main safeguards of light water reactors, consisting of a neutron decelerating structure that adjusts the velocity as the water temperature rises, the density of water molecules becomes lower and lower, and the neutron (675) deceleration structure becomes lower Effect is provided,

When the reactor is operated abnormally, the deceleration rate of the neutrons 675 is lowered and the deceleration structure of the neutrons 675 is lowered. This inherent stability is configured to be very stable in the pressurized water reactor type reactor 803.

The pressurized water reactor (P W R)

The pressurized light water reactor pressure is a nuclear reactor facility that uses water as a coolant and moderator. The name of this reactor facility comes from the internal circulation system, which prevents the water from freezing by applying pressure to the water. The pressurized water reactor facility is the most common reactor in the world As a facility, about 230 nuclear installations are used for power consumption, and several hundred nuclear reactors are used for propulsion.

In the case of foreign pressurized water reactors (803), the operation of the reactors from 1954 to 1974 was established, and the first two pressurized water reactors (803) operated T MI-1 and T MI-2 At that time, the construction of new power plants was suspended due to partial core melting in 1979 at T MI-2,

The pressurized light reactor has a core and a fuel assembly of a pressurized nuclear reactor 803, a control rod, a pressure vessel 813, a heat exchanger 658, a primary system, a secondary system, a condenser, a turbine and a generator connection structure. Thereby preparing a reaction operation.

In the conventional pressurized water reactor (P W R, 803) facility,

Fuel to the heat exchanger 658. Heat is transferred to the heat secondary system, which is referred to as the primary steam hot steam generator 810. As a result, A rotation is provided,

In contrast to nuclear power, nuclear power plants provide electricity,

The secondary system is lowered in the condenser 790 and is allowed to enter the steam generator 810 again,

The turbine 267 of the secondary system provides electric power in connection with the turbine generator 772, and the operation of the nuclear power plant provides other work in the greenhouse fish farms and the like.

In the conventional pressurized water reactor (P W R, 803) facility,

Compared with two pressurized light water reactors and other reactors, two pressurized water primary and secondary system turbines (267) are connected to the turbine generator (772) to produce electricity, Hard water) flows.

On the other hand, in a boiling water reactor (BWR), there is no system.

As shown in Fig. 69, in the operation of the nuclear power plant of the conventional pressurized water reactor type nuclear reactor (803)

In the pressurized water reactor type nuclear reactor facility 803 constituting the nuclear power plant operation,

And is a pressurized water reactor type reactor in which heat is transferred from the core to the steam generator 810 through the water stored at high pressure to maintain a high temperature without boiling.

Steam generator 810 provides a turbine 267 operation to produce electricity,

The pressurized water reactor type reactor (803) is the most widely used reactor facility in the world. It is also known as a pressurized water reactor or a hard water decelerating water coolant pressure vessel type pressurized water reactor.

In the pressurized water reactor type nuclear reactor facility 803,

The hard water constituting the pressurized water reactor has a primary use at P W R,

In the primary system, the primary flow is set at about 315 degrees Celsius. The primary flow pressure is usually 2000 psig, 15 MPa, and 654a at a pressure of 150 times the atmospheric pressure. In most forms of the system, the temperature is 275 degrees Celsius, the pressure is 900 psig, and the water flowing at a pressure of 6.2 M Pa is made of water vapor and sent to the steam turbine 267.

In the case of the commercial pressurized water reactor type reactor installation 803 of the pressurized water reactor type nuclear reactor 803, the amount of the coolant 816 is constant, but the reactor can adjust the flow of the coolant 816, Neutrons 675 are provided in the reactor to provide deceleration of the reactor and have a shape similar to that of the thermal reactor design and many water molecules are the same size as the neutrons 675 and collide with the neutrons 675, The neutron "deceleration" is decelerated more as the number of molecules of water molecules is higher, and the pressurized cooling water 287 is structured such that the hydrogen atoms in the water molecules control the velocity of the neutrons 675 The use of water is one of the main safeguards of light water reactors. It consists of a neutron decelerating structure that regulates the velocity as the water temperature rises, the density of the water molecules becomes lower, The neutron 675 deceleration structure is lowered to provide a void effect, and when the reactor is operated abnormally, the deceleration rate of the neutrons 675 is lowered, the deceleration structure of the neutrons 675 is lowered, The stability is very stable in the pressurized water reactor type reactor (803).

The pressurized water reactor (P W R)

The pressurized light water reactor pressure is a nuclear reactor facility that uses water as a coolant and moderator. The name of this reactor facility comes from the internal circulation system, which prevents the water from freezing by applying pressure to the water. The pressurized water reactor facility is the most common reactor in the world As a facility, about 230 nuclear installations are used for power consumption, and several hundred nuclear reactors are used for propulsion.

In the case of foreign pressurized water reactors (803), the operation of the reactors from 1954 to 1974 was established, and the first two pressurized water reactors (803) operated T MI-1 and T MI-2 At this time, the construction of the new power plant was stopped at the result of the partial core dissolution at T MI-2 in 1979, and the reactor and fuel assemblies of the pressurized water reactor facility 803, the control rod, the pressure vessel 813 and the heat exchanger 658 ), A primary system, a secondary system, a condenser, a turbine and a generator connection structure, and the pressurized light-water reactor provides a reactor chain reaction operation.

In a pressurized water reactor (P W R, 803) installation,

Fuel to the heat exchanger 658. Heat is transferred to the heat secondary system, which is referred to as the primary steam hot steam generator 810. As a result, A rotation is provided,

The secondary system is lowered in the condenser 790 and re-enters the steam generator 810, while the secondary system is provided in the condenser 790,

The turbine 267 of the secondary system provides electric power in connection with the turbine generator 772, and the operation of the nuclear power plant provides other work in the greenhouse fish farms and the like.

In the conventional pressurized water reactor (P W R, 803) facility,

Compared with two pressurized light water reactors and other reactors, two pressurized water primary and secondary system turbines (267) are connected to the turbine generator (772) to produce electricity, In contrast, in a boiling water reactor (BWR), there is no system.

In the pressurized water reactor (803) nuclear power plant,

The hard water of a pressurized water reactor provides primary use at P W R,

In the primary system,

315 degrees Celsius,

The primary flow pressure is usually 2000 psig and 15 MPa and the hard water (654a) at a pressure of 150 times the atmospheric pressure does not boil, while in the primary system the water is in the majority of the secondary system, the temperature is 275 degrees Celsius and the pressure is 900 The water flowing at a pressure of about 6.2 M Pa and psig is made into steam and sent to the steam turbine 267.

The stability of such a pressurized water reactor (803)

However, the stability of the pressurized water reactor type reactor (803) is deteriorated when the water reactor pressure reactor type reactor (RB MK) such as the graphite reduction ratio, which is an accident type, is high. The reactor is considered one of the Chernobyl boiling water pressure tubular reactor installations.

This fuel assembly of the fuel pressurized light-water reactor is used in a pressurized light-water reactor of the nuclear power passenger car Ns Söbner, and 235U of the fuel in the pressurized light-water reactor uses a certain concentrated fuel.

(U02) powders are melted, the heat and sintering of the phenomenon to be used are provided, and at the same time, the production of ceramic pellets made of uranium dioxide is provided,

The cylindrical pellets are placed in a zirconium alloy (zirconia) for corrosion, and helium is injected into the zirconia rods to assist heat transfer. Alternatively, the completed fuel rods are bundled into bundles of fuel fuel bundles, It is called fuel, and it is loaded into the reactor core.

It is very important to prevent a chain reaction from occurring in the core of a nuclear reactor plant determined to not allow a rapid chain reaction in a pressurized water reactor 803 of the nuclear power plant,

When a chain reaction takes place, it quickly damages the reactor installation to generate extra energy, or causes reactor core melt, and 200 to 300 fuel rods of the pressurized light-water reactor enter 150 to 250 fuel assemblies At the same time, the amount of uranium is kept in the range of 80 to 100 tons of 14X14,17X17.

The fuel bundle 803 of the pressurized water reactor of the nuclear power plant is provided at about 4 meters,

The control of the pressure vessel of the pressurized light-water reactor and the control of the pressure vessel of the primary pressurized light-water reactor for military use are adjusted in a large amount.

In the pressurized water reactor type nuclear reactor facility 803 for operating the nuclear power plant,

Because it absorbs neutrons instantly, it controls the reactor installation by reducing the chain reaction by the pressurized light water reactor, so it includes the control pump of the entire pressure relaxation system. This pump is equipped with high pressure primary system water, However, there are cases where high concentrations of neutrons are placed in many emergency stop cooling water, and CAN DU is also provided as an auxiliary means by which boric acid can turn off the chain reaction.

In addition, the control rod enters the fuel assembly from the pressure vessel and is usually used when the first nuclear power plant is started or when the nuclear power plant is shut down. In the nuclear power plant,

The fuel assemblies were trapped inside the radioactive material generated by the fuel rods as a fuel body that burned stable uranium dioxide in the pellets of the pentane barrier and the first barrier. The second barrier wall covering material enclosed the nuclear fuel pellets was a special alloy A small amount of the gas introduced into the metal pipe of the first metal pipe provides a seal to the second metal barrier,

The third barrier, the reactor vessel, is a nuclear reactor vessel with 20 c m of steel containing fuel assemblies.

In the shielded concrete wall, which is the fourth barrier wall,

The concrete wall surrounding the nuclear reactor facility prevents the leakage of radioactive material. The containment vessel, which is the fifth protection wall, provides the enclosure even if an emergency occurs involving the safety system and the whole of the gathered space in the reactor facilities and systems. and,

The installation of the biological shielding wall, which is the 5-1 barrier wall, is to construct a final biological shielding wall with a thick building of 70 to 100 cm outside the steel,

It is a containment vessel and dome type,

It is a safe nuclear building that provides a barrier to the outside if there is an accident.

However, the Chernobyl model, a graphite-retarded boiling water reactor,

The higher the thermal response, the higher the stability becomes, and the choice of such a graphite slowing boiling water pressure tubular reactor installation is considered to be one of the factors of the accident.

As shown in Fig. 70, the nuclear power plant of the nuclear reactor plant (803)

In the pressurized water reactor installation 803, the amount of exposure that a general CT photographer and an airplane crew normally receive can be a reference.

Uranium fission and reactor facilities As mentioned above, 99.3% of stable uranium 238 is contained in natural uranium, 0.7% of unstable uranium 235 which can cause fission, and at the same time, domestic nuclear reactor types are mainly PWR ) And pressurized water reactors (PHWR).

The water reactor is a type of conventional nuclear reactor facility (803) operated by Kori, Yeonggwang and Uljin, mainly supplied from abroad. As a characteristic, the nuclear reactor is vertical and the fuel is enriched uranium (U-235, 4-5% (H ₂ 0) as a moderator 676, a material promoting the fission reaction, and replace the fuel after stopping the reactor once a year or once a year and six months.

In the meantime, the middle water type reactor is a type supplied from abroad and is currently in operation in Wolsong. In terms of characteristics, the reactor is horizontal and uses natural uranium (U-235, 0.72%) as fuel, moderator (676) ₂ O) and a portion of the fuel can be replaced daily.

As shown in Fig. 71, the nuclear power plant of the nuclear reactor plant (803)

Pressurized water reactor type reactor facility and For comparison of water reactor installations during pressurization,

In the distinction between pressurized light water reactor and pressurized heavy water reactor (PHWR), the rated power of 1 million kW and 700,000 kW is of the vertical type, and the pressure vessel is a horizontal pressure tube, operating temperature is 296 to 327267-310, The operating pressure of 158.2 kg to 110 kg and the fuel used are fuel for the use of low enriched uranium (U-235, 4 to 5%) and natural uranium (U-235, 0.72%) and coolant 816 and moderator 676 The use of heavy water (D ₂ O), fuel replacement timing, and preventive maintenance period are scheduled to start from 1 year to 1.5 years. At the same time, the Wolsung nuclear power plant in Korea is a Canadian two- , Which uses expensive natural uranium (about 0.7% U-235) as fuel and moderately heavy water (D ₂ O) as moderator 676 and coolant 816.

When the heavy water of the water reactor installation 803 is boiled during the pressurization, the reactor installation system is pressurized to about 110 times because the moderator 676 and the coolant fail to function properly,

Water heated to 300 degrees Celsius is sent to the steam generator 810, and the steam 780 for driving the turbine generator is generated by heating the water on the secondary side through heat exchange,

Like the pressurized light water reactor, the reactor side and the turbine side are completely separated. The secondary side is the same as the pressurized light water reactor type. The primary side has a slightly different shape, and the primary side has a coolant (816) Cal and ria), while the pressurized light water reactor (803) reactor is heated by heat generated by fission through the interior of a horizontal cylindrical reactor, where the reactor is cooled in the form of a vertical barrel 816 are circulated from the lower part of the core 791 to the upper part.

As shown in FIG. 72, the operation of the nuclear power plant of the water reactor (803)

Using natural uranium as a nuclear fuel will reduce the probability of causing fission. Therefore, it is necessary to separately install a moderator (676) system composed of heavy water which can sufficiently absorb neutrons and effectively contribute to the fission of the thermal neutrons while effectively decelerating the high-speed neutrons generated during the nuclear fission,

Three basic features of pressurized heavy water reactors are natural uranium, heavy water, and fuel substitution during operation.

As shown in FIG. 73, in the structure of the fuel pellet 683 constituting the nuclear reactor facility,

The electrons are composed of the nucleus 815 and the electrons surrounding the nucleus 815. The nucleus 815 is composed of a proton 674 and a nucleon 675, And a coupling force between the coupling members 815a and 815b.

]쯤 이나 그 질량은 원자(784) 질량의 대부분을 차지한다.The radius of the nucleus 815 is about 10 ^-14 m and the neutron 675 of the nucleus 815 is electrically neutral and the mass is almost the same as the proton 674 and the diameter of the nucleus 815 is atomic 784)

], The mass occupies most of the atom (784) mass.

The structure of nuclear power generation is the same as that of thermal power generation. Nuclear power generation also generates steam by rotating a steam turbine. Nuclear power generation and thermal power generation have different ways of generating steam. The thermal power plant rotates the steam turbine 267 by burning coal, oil and natural gas in the boiler 778 , The nuclear power generation generates nuclear fission in the reactor, and steam is generated from the heat to rotate the steam turbine (267).

The structure of an atom or a helium atom is an atomic nucleus 815 in which a proton 674 and a neutron 675 are combined with each other. The atomic nucleus 815 refers to the amount of static electricity carried by the object of the electron 785, The charge is plus (+), the charge of the same sign repulses each other, and the charge of the other sign attracts each other.

The number of protons (674) in the nucleus (815) is equal to the number of neutrons (675). The number of protons in the hydrogen and isotopes of triple hydrogen is all one Because the number of neutrons is the same, trihydrogen is called isotropic in hydrogen and heavy hydrogen,

Assuming that the number of protons 674 plus the number of neutrons 675 is the mass number, the half life of uranium 238 is 4.51 × 10 ⁸ years, which is shorter than that of uranium 238.

The nucleus of uranium (815) is a model of red beads, which are neutrons (675). The blue beads are proton (674), the isotopes of uranium 238, uranium 235 (812) and uranium 234 are weighted by the number of neutrons (675) It is different.

First, uranium 238 (653a) is the most abundant uranium, but unfortunately it can not fission. The following are uranium 235 (812) and uranium 234, which are only slightly contained in natural uranium, so it is uranium 235 (812) that is capable of fission.

The atomic nucleus 815 formed by the collapse of the radiation nucleus 815 contains a property that it is unstable and stabilizes even a little bit. It is a natural collapse, that is, it becomes a stable atom by self-emission of gamma rays to alpha particles or beta particles. 235 (812) has the greatest property.

So the main role of nuclear power is uranium 235 (812).

This is because fission occurs in the form of collapse of radioactive materials.

However, even if the uranium 235 (812) naturally collapses, it can not take out the energy, so the uranium 235 (812) artificially collides with the well-fractured uranium 235 (812) What does it collide with? If the question is solved, the charge of the nucleus 815 of uranium 235 (812) is +. Again, when a proton having a charge of + is collided, it repels each other by the law of charge and turns off the proton (820).

Since neutron 675 is electrically neutral, it is easy to access the nucleus 815, and of course colliding is also simple.

The uranium 235, which constitutes the collision of the neutrons 675,

The pale yellow barium or silver white barium is oxidized well in the air, while the krypton is split into a colorless odorless gas which is slightly mixed in the air, and two or three neutrons 675 are protruded.

68 to 73 are schematic diagrams illustrating an embodiment of a nuclear reactor waste water treatment pressurized water double structure reactor facility according to the present invention.

As shown in FIG. 74, in the operation method of the thermal power generator 772 of the thermal power plant 626 formed by the thermal power generation operation constituted in the conventional thermal power plant 626,

However, in order to understand the structure of atomic power generation, it is necessary to understand the structure of atomic power generation in order to understand the structure of atomic power generation. (778) and the melting furnace (984) that dissolve metal. It is necessary to understand the structure of conventional nuclear power plant and the nuclear power plant (1) inside the main body (1) of the pressurized water double- 811) is the same as that of the central control room 781, which controls the operation of the nuclear power plant.

On the other hand, coal-fired power plants are constructed on coastal areas or coasts where there is usually a large demand for electric power, and due to the exhaust gas emitted from the stack, the order of the ecosystem is broken, and dusts such as soot, As a result of the global warming phenomenon, natural disasters have reached a serious level due to the increase in emissions, and countermeasures have been taken in view of the fact that the inventor's double structure block tank It is a decentralized means of eliminating the anxieties of mankind with the infinite production of environmentally friendly energy by forming the structural reactor facilities in the ocean.

The thermal power generation unit of the thermal power generation plant 626 before and after the failure recovery of the nuclear power generation facility unit 811, which is constructed inside the conventional marine nuclear power plant 2,

The nuclear thermal power generation apparatus of the nuclear power plant, which is formed before and after the operation of the nuclear power plant of the nuclear power plant, includes a steam turbine that generates steam by burning fuel in the boiler, generates steam by the heat, rotates the steam turbine 267, A thermal power generator 772 for converting the power generated from the steam turbine 267 and a thermal power generator 772 installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the thermal power generator 772, Rotating armature coil 773 for a thermal power generator provided on the circumference of the rotating electromagnet coil 774 for rotating the thermal power generator and a rotor 773 for rotating the rotating electromagnet coil 774 for the thermal power generator are connected to the steam turbine 267 A power generating unit 811 including a frame 775 for integrally fixing the thermal power generator 772 and the rotary shaft 198 is installed in the vicinity of the front and rear of the nuclear reactor safety operation, It is constituted to perform thermal power generation by substituting into reactor facilities.

As shown in FIG. 75, the conventional nuclear power plant included in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water type dual structure reactor facility for marine nuclear waste treatment is recovered before and after a failure during operation of the nuclear power plant. A nuclear waste disposal method using a nuclear waste disposal apparatus for operating nuclear power plants of nuclear hydroelectric plants,

When the ventilation inside the building and the air contained in the water inside the reactor are gas, the activated membrane type gas hold-up device 213 which provides a weak radioactivity when the pressurized water reactor system is operated, is provided. And ventilation of the power plant building is provided with a plurality of symmetrical filters 214 for exhausting and discharging all of the ventilated air from the exhaust tower 215 so as to prevent contamination of radioactive nuclear fuel inside and outside the nuclear power plant .

In addition, when the inside of the nuclear power plant is solid and the paper, cloth, work clothes, shoes or the like are in solid form in the building of the nuclear power plant (672), the filter sludge and the used resin liquid are stored The drum 220 is filled with the paper, the paper is compressed and the volume is reduced and attenuated so as to be filled with the concrete in the drum 220. The drum 220 is filled with a nuclear fuel The nuclear waste storage building 332 and the monitoring post 219 for monitoring are provided with a monitoring post for monitoring the nuclear waste so that the nuclear waste storage building 332 and the monitoring monitoring post 219 are provided with a monitoring monitoring post, To prevent contamination.

When the regenerated liquid of the ion exchange resin is liquid in the water leaking from the valve of the nuclear power plant 672 constituting the inside of the nuclear power plant and in the building water in the building, the washing water is collected in the storage tank 216, ), And the radioactivity is measured by a radioactivity measuring device (218) to confirm that there is no harm. Then, the water flows to the sea together with the seawater for cooling. The water other than the washing water is purified by the filter (217) And the like are provided for use as a reactor coolant and equipped with monitoring posts 219 for monitoring to prevent nuclear radiation pollution both inside and outside the nuclear power plant.

As shown in Fig. 76, the operation of the nuclear reactor of the boiling water reactor assembly 802 constituting the nuclear power plant is performed,

Fukushima nuclear power plant is a boiling light water reactor (BWR) system in which water vapor boiling from the core is sent directly to a power generation turbine. Half of the water vapor in the reactor facility is half-steamed.

Deceleration of the neutrons 675 of the nuclear reactor reactor 802 of the boiling water reactor plant 802 is achieved by moderator 676 and boric acid H 3 BO 3 captures the neutrons 675 of the fuel rods 689 to generate fission 791b There are 15 discoveries that have operated for thousands of years with non-artificial reactors and naturally-built reactor installations, and the depletion of uranium 235 (812) Difficult to evaporate all the water to create thermal neutrons, thus stopping the activity and at the same time preventing core (791) melting.

However, the Fukushima nuclear power plant operated by the boiling water nuclear reactor (802) operated in such a situation that the safety facility was inoperable.

I put the seawater into the sky, I used fire trucks, I used a helicopter to put them into the building,

In the pressurized water reactor (P W R, 803) equipment constituting the nuclear power plant,

Providing a first order system delivery circulating between fuel and heat exchanger 658,

Heat is transferred to the secondary system of heat, referred to as the primary system hot steam generator 810,

As a result, steam will provide turbine generator rotation,

In contrast to nuclear power, which supplies power for propulsion,

In the nuclear power plant,

The secondary system is lowered at the condenser 790 and simultaneously enters the steam generator 810 again,

The secondary system turbine 267 provides power generation in connection with the turbine generator 772,

The operation of the nuclear power plant can provide other things in greenhouse fish farms.

In the pressurized water reactor (P W R, 803) equipment constituting the nuclear power plant,

Compared with two pressurized light water reactors and other reactors, two pressurized water primary and secondary system turbines (267) are connected to the turbine generator (772) to produce electricity, In contrast, there is no system in the boiling water reactor (BWR).

In operation of the nuclear power plant constituting the pressurized water reactor type nuclear reactor facility 803,

For PWR design, the coolant water should be used in PWR for the first time, but in the first system, it should be set at 315 degrees Celsius. At the same time, the primary pressure is usually 2000 psig, 15 Mpa, 150 The water (654a) at the outlet pressure does not boil, while at the same time the water in the primary system is water in the design of most of the secondary systems, the temperature is 275 degrees Celsius, the pressure is 900 psig and the pressure is 6.2 Mpa Steam is generated and sent to the steam turbine 267.

The stability of such a pressurized water reactor (803)

The pressurized light-water reactor can be produced in a very stable manner,

However, a water pressure tubular reactor (R B MK), such as a graphite reduction ratio,

The stability of the pressurized water reactor type reactor (803) is deteriorated, and such a specification of R B MK is considered to be one of the Chernobyl boiling water pressure tubular reactor facilities.

This fuel assembly of the fuel pressurized light-water reactor is used in a pressurized light-water reactor of the nuclear power passenger car Ns Söbner, and 235U of the fuel in the pressurized light-water reactor uses a certain concentrated fuel.

(U 0 2) powder after melting the concentrated uranium (U 0 2) powder is melted and the phenomenon to be used is heated and sintered,

The production of ceramic pellets formed of uranium dioxide is provided,

In this way, the cylindrical pellets are placed in a zirconium alloy (zirconia), and helium is injected into the zirconia rods to assist heat transfer,

The completed fuel rod,

Fuel bundle, which is called a fuel bundle bundle, which is loaded into the reactor core.

As shown in Fig. 77, in the repair facility in the event of failure in the reactor facility constituting the nuclear power plant 672,

The piping line of the nuclear reactor facility is blocked by the safety valve 472 in preparation for a period of time required for the inspection work period of 3 months or more,

As an urgent restoration measure, the hydroelectric power installed around the nuclear reactor facility is operated, or the boiler (783) of the thermal power generation is operated to supply the power supply connection structure to the reactor power generation facility (811) To ensure the safety of nuclear power generation facilities by safe and continuous operation of nuclear power plants inside the nuclear power plants,

In the repair of nuclear reactor facilities, the nuclear waste treatment system remote control system (781), which is constructed inside the production power central control room (781) of the nuclear power generation facility (811) while providing the prevention of radioactive contamination, And a robot (912) device for nuclear reactor waste disposal. The nuclear waste disposal system of the pressurized water type double structure reactor facility for ocean nuclear waste disposal is constructed to guarantee the repair of nuclear reactor facilities.

As shown in FIG. 78, in the nuclear fuel cycle 1077 of the nuclear power plant 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment,

The spent nuclear fuel 683 and the remaining uranium 812 constituting the nuclear fuel industry cycle 1077 in the nuclear power plant 672 are processed in the reprocessing plant 228 and then converted into uranium fluoride 812 to transfer the fuel 683 to the concentration plant 230 and convert the uranium fluoride 812 to uranium dioxide at the conversion plant 229 to form a pellet 683, Plutonium 801 that is manufactured and processed in the reprocessing plant makes fuel rods 689 in the conversion and processing plant 231 such that the reprocessing fuel rods 689 are moved back to the nuclear power plant 672 The concentration plant 230, the conversion plant 229 and the conversion processing plant 231 in the nuclear power plant 672 and the reprocessing plant 228 are installed on the upper surface of the sinking prevention barge deck deck 40 m above the sea surface of the ocean The nuclear fuel cycle of the nuclear fuel industry is to prepare nuclear waste (224) However,

The Nuclear Power Plant (672) is equipped with the fuel cycle of the nuclear fuel industry to prevent nuclear radiation contamination inside and outside the nuclear reactor facility composed of the main body (1) of pressurized water reactor type nuclear waste treatment for marine resources.

In addition, in the nuclear power plant 672 constituted inside the main body 1 of the pressurized water type double structure reactor facility for processing the nuclear waste,

Long-half-life nuclear waste 224 from the reprocessing process has a long half-life, so it can be stored for thousands of years,

A permanent disposal of nuclear waste with a long half-life, which includes a construction machinery heavy equipment hire (877) and an excavator (845), which provide inputs to the permanent disposal method of nuclear waste with a long half- The method comprising the steps of: preparing a burial in a polar glacier which is equipped with a nuclear waste transporter inside a marine tunnel traffic apparatus to provide nuclear waste treatment with a long half life;

The nuclear waste treatment includes the steps of fissioning in the nuclear reactor facility to construct a conversion into another material,

The nuclear waste disposal includes the steps of constructing a deeply buried building including a construction machine heavy equipment hull 877, an excavator 845 and a UAV in a ground or sea,

The nuclear waste disposal includes the steps of constructing a dual tubular drum (220) containing a nuclear waste by providing a sinking prevention vessel with a train to the inside of a marine tunnel traffic apparatus to carry nuclear waste,

In the nuclear waste treatment, a double tubular drum 220 containing nuclear waste is disposed at a position of an upper end of a barge deck deck 591 provided with a space rocket 612 and a space rocket launching rods 646 to a space rocket 612 (1) inside a pressurized water double reactor facility for treatment of nuclear waste for marine resources having a dual structure block tank dust collector for treating nuclear waste and providing a treatment of nuclear waste (224) And apparatuses for permanently disposing of nuclear waste having a long half-life constituting the prevention of nuclear radiation pollution to the outside, so that nuclear waste treatment having a long half-life is provided with a hoe (877) and an excavator (845) Can be configured step by step.

As shown in FIG. 79, the conventional nuclear power plant included in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for ocean nuclear waste treatment, (626) facilities for the operation of nuclear power plants for nuclear power plants,

A power transmission line 775, a power transmission tower 776, an opening and closing facility 777, a piston pump 127, a regulator 136, an exhaust gas 171, And the ignition wire 178 and the flame 236 and the rotary vane 267 and the crank 248 and the link belt 249 and the cooling water outlet 350 and the cooling water inlet 352, A steel pipe 746 for a petroleum industry, a steam pipe 779, a steam 780, a turbine generator 772, and a non-rotating armature 772 for a nuclear power generator, both of which are provided with a rake pump 308, an exhaust stack 465, A condenser 790 serving as a cooling device of the apparatus for cooling water vapor by cooling water vapor, a core 791, a drum 792, and a reheater 793, which are coils 773, a rotating rotor electromagnet coil 774 for rotating the nuclear power generator, The heavy oil tank 795, the heavy oil 796, the kettle 778, the steam pipe 779 and the steam 780 to the transmission measuring room transformer room 782 In the power central control room 781 to the electronic controller provide a boiler operation the reactor core (783) inside the check-up states and,

Nuclear waste disposal for marine resources Nuclear power plant for pressurized water type dual structure reactor (1) Nuclear power plant for operating nuclear power plant (621 ) Facility Thermal power plant's thermal power generation operation consists of connecting structures,

79 to 82, the nuclear power plant for operating the nuclear power plant 626 of the nuclear power plant included in the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment, The facility includes the element of the nuclear power plant operation of the nuclear power plant which provides the thermal power generation operation of the thermal power plant included in the nuclear hydroelectric power plant (811) constituted inside the marine nuclear hydroelectric power plant having the pressurized water reactor facility for treating nuclear waste. (811) steam pipe (779) and a boiler operating core (783) inside the boiler and a high-temperature high-pressure steam inlet (780) of steam or a strong gas during the operation of a nuclear power plant of a conventional nuclear power plant have.

As shown in FIG. 83, the floating nuclear type water reactor power plant of the offshore and offshore marine nuclear power plants included in the nuclear power generation facility 811 constituted inside the pressurized water double structure reactor facility 1 In addition,

The material is KS D 3515 with a thickness of 24mm and the steel plate (597) with a high strength is welded to the welding area in the same manner as welding (713) welding with a certain dimension. Weld joint for butt joint welding The J-shape, the V-shape, the H-shape, the X-shape, and the V-shape to form the chamfer 727 and the welded joint (713) improved chamfering (727) in the form of a groove in the form of a groove is provided with an underwater cutter and a computer laser cutter,

The dual structure block tank 598 is installed in the area of the internal piping 14 and the area of the external piping 14 in such a manner that the memory 70 designed by hand and designed by taking the tensile strength and the thickness of the metal plate dimension into consideration is connected to the computer network input 68 ) Underwater Laser Cutting Machine Operation Control The computerized control panel is equipped with underwater cutters up to 2/100 in tolerance according to the selected dimensional specifications and high-strength steel plate (597) In fact,

The unmanned camera 184 of the control system configured to check the status of the worksite transmits the cutter and the cutoff status to the monitor 52 through the operation of the computer control server 51, And a computer laser cutting device,

The cutting grooves are welded to the shapes of various welded joint grooves which are the welding improvement surfaces constituted by the cutting apparatus.

The following table is a table showing the distribution of the number of nuclear power plants in the Nuclear Power Plant (811) composed of the main body (1) of the pressurized water type double structure reactor facility for marine nuclear power generation of a marine nuclear hydroelectric power plant having a conventional dual structure block tank dust collector The efficiency of the Japanese boiler standard welding inside the structure of the conventional thermal power generator constituted in the floating nuclear power plant of the ocean nuclear hydroelectric power plant of the ocean will be described as the following table.

<Table 1-18 Welding Efficiency of Japanese Boiler Standards>

*

As shown in FIG. 83, the types of welding methods and the selection of welding machines will be described with reference to the following table.

First, in the type of welding method,

Welding is a method of locally bonding two or more metals, and about 40 kinds are currently being used. Of these, the most important ones are those that are considered to be particularly important for those engaged in welding jobs As shown in Table 2-1, these can be roughly classified into three types of fusing, pressing and soldering.

<Table 2-1 Welding method of metal>

Welding is also known as melting welding, in which the molten metal is supplied or melted and welded, in which case the welded material melts and no pressure is applied.

The pressure is applied to the part to be connected and it is heated by the combustion flame or electric current of the gas or is heated only by heating without heating and sucked as a function of the surface tension in the gap of the surface where the other molten metal is connected, The work force acts to bond.

As shown in Fig. 83, in welding,

Various types of cutting methods are used for cutting of materials, processing of joints (joints), and gouging.

As shown in Fig. 83,

In addition to mechanical cutting, there is a method of using gas flame and arc. The method other than machine cutting is particularly related to welding.

Of these, the oxygen and acetylene welding methods are particularly popular among the coated metal arc welding and gas welding methods. Accordingly,

Submerged arc welding and inert gas arc welding are also the main welding methods, and therefore weigh more than other welding methods.

Secondly, in opening according to coated arc welding,

Coated arc welding is currently the most commonly used welding method and is often referred to as electrical welding.

In this welding method, the arc is formed by welding between the welding electrode 853e coated with a coating agent and the welding object to be welded, thereby constituting the welding.

As shown in FIG. 83, when this welding method is displayed, an alternating current or a direct current electric voltage is applied between a coated electrode welded to a holder and a parent material to be welded, and an electric arc is generated in the gap.

The welding rod 853e and the base material 853g are melted at a temperature of about 6,000 ° C which is the strong heat of the electric arc and the metal vapor or the volume of the welding rod 853e is melted by the molten metal, And combined with the mother material (853g) melted there to produce weld metal (853h).

When the two materials are welded, when the material (material) is thick, a groove is formed in the following portion, and the groove is filled as welding metal 853h and joined.

The bead surface of the weld line at this time shows a ripple shape due to the solidification of the weld.

The electrode 853e is coated with a coating agent 853f on the surface of the metal core wire 853i.

The coating agent 853f is decomposed by the arc heat and is stabilized so that the arc does not turn off due to the role of the decomposed gas, and the generated gas or slag covers the molten metal, thereby protecting the molten metal from the outside air Oxidation and nitridation are prevented and the molten metal improves by appropriate chemical reactions, sometimes adding other elements needed for the weld metal.

Since the gas generated by the covering agent does not protect the molten metal by protecting it from being adversely affected by the air, the welded portion weakens and weakens, so that the welding electrode is almost useless in Korea at present. Do not.

As shown in Fig. 83, an AC or DC welding power source is used as the welding machine. Other welding devices include welding cables, welding rod holders, handles or helmets, and other tools that other welders require.

Third, in terms of the properties of the arc (853k)

A voltage is applied between the electrode and the mother material, and once it is contacted, a little blue light is emitted which produces a bright, intense light.

A large current (about 50 to 400A) flows through this arc (853k), which is divided into electrostatic cathodes and negative electrons by dissociation of the metal vapor and its surrounding gas molecules, Ions flow toward the cathode and the anode, respectively, so that the arc current flows.

First of all, in case of polar arc welding, when DC welding power is used, it is called DC welding and when AC welding is used, it is called AC welding.

In direct current welding, it is divided into two polarities depending on whether a welding rod is connected to the anode of the welding machine.

Straight polarity When the welding rod is connected to the cathode of the welding machine (weak DCSP), the positive polarity of the welding machine and the reverse polarity When the welding rod is connected to the anode of the welding machine (DCRP) Polarity polarity.

In the early days of electric arc welding, the coating of the electrode was not well developed, so a DC welding machine was widely used. After that, a good coated arc welding rod was produced, so a low-cost AC welding machine was widely used. It is one of the remarkable advances.

As shown in Fig. 83, with respect to the arcing,

There is a phenomenon in which the arc does not turn in the right direction during the welding, but sits on the side. This is particularly so in the end or at the beginning of the weld that the arc is pushed into the weld as the wind is blowing, thereby preventing the weld from going to the desired spot without welding.

This phenomenon is called arc blow or self-deflection.

The phenomenon of this arc spotting does not occur at the center of the weld.

As a preventive measure against arcing,

The first is to use AC welding instead of DC welding

Secondly, it is most effective to use a method of welding a plate of the same material as backing starp (about 15 cm ² ) at the beginning and end of the welding line. The first method is most effective.

As shown in Fig. 83, in the case of coated arc welding,

First, with respect to the welder, an arc welder (welder) 853,

DC arc welding machine and AC arc welding machine are designed to allow large current to flow as low voltage suitable for welding. There is also a single welder for one welder and a multi-welder for more than two people.

First, in the DC arc welder 853,

There are two types of DC arc welding machine. 2.2 degree DC arc welding machine (853n) is an alternating current motor (engine) that rotates DC generator to generate DC for welding.

In arc welding,

It is very important to adjust the welding current according to the welding object. In this type of welding machine, there is a control dial on the instrument panel to adjust the current.

In addition, since there is a changeover switch to match the positive polarity and the reverse polarity because it is a direct current, and the sign of the positive (+) (-) or the positive (+) and negative And the cathode are marked.

In addition,

Generally, a three-phase induction motor (commonly referred to as a three-phase motor) is used in many cases. When the welding machine is connected to a power source, the direction of rotation of the motor may be reversed if the power line 3 is incorrectly connected.

In this case, if only one line of 3 lines is exchanged with another line, whether the direction of rotation is right or wrong is indicated by the direction of rotation in the welding machine.

As shown in Fig. 83, a selenium rectification type DC arc welding machine (853o) is used, and the inside of the welding machine is rectified to DC by a rectifier rectifier by an AC inputted from the outside. This serene rectification type DC welding machine has developed recently and has no rotating parts, little no load loss (power consumption when not welding), quiet, cheap and easy to repair, It is becoming popular in developed countries recently. However, compared to an AC welder, it is still expensive and inefficient.

Second, in the AC arc welder 853p,

Due to the development of welding electrodes, the use of AC welding machines has been greatly increased since the stability of the arc has been achieved by AC. AC welding machines are widely used because they are relatively simple, cheap, and easy to repair.

In addition, it is effective for prevention of subarcting.

In the AC welding machine 853p, the following three methods are mainly used according to the current adjusting method.

First, a movable linear AC arc welder 853r and a gypsum-type AC arc arc arc welder 853 are used for a movable iron core arc arc welder 853q

The current adjustment of the moving iron-core alternating-arc arc welder 853q,

As shown in FIG. 83, a third iron core M ₃ is provided in addition to the iron cores M ₁ and M ₂ of the transformer, and the third iron core M ₃ is made movable so that the degree to which the leakage current can pass is changed to adjust the magnitude of the welding current.

In this case, in most cases, the tabs of the secondary windings n ₂₁ and n ₂₂ are changed to adjust a large range of currents, and the details of adjustment are often made as movable iron pieces.

As shown in Fig. 83, the current adjustment of the movable-

As shown in the diagram 853q of the movable iron core AC arc welder, the primary coil is moved relative to the secondary coil to adjust the value of the leakage reactance.

Since the distance between the primary winding and the secondary winding is different in the secondary winding even if the same current flows in the primary winding, the welding current flowing through the secondary winding The magnitude of the current changes.

In the false-reactive-AC arc arc welder 853t,

As shown in Fig. 83, there is adopted a method in which the reactor is placed in a straight line in a secondary circuit and excited as a different power supply (rectifier C), and the saturation degree of the magnetic circuit is changed to change the effective reliability have.

This method is not only easy to adjust the current, but also,

And adjusting the current using a variable resistor (C) in an AC arc welder 853p to remotely control the welding current remotely controlled welder).

As shown in Fig. 83, regarding the attention on the use of the welding machine,

First of all,

At the welder, the ratio of the time the arc is splashed on the secondary side of the welder, that is, between the welding rod and the mother material, is typically about 40%, so the remaining 60% is the time that the arc is resting without splashing.

The reason why I can not continue to use an unlimited number of welding machines is the temperature rise of the welding machine. When I think about 1 to 1.5 hours related to the temperature rise, the time for splashing of the arc is about 60%.

Next, let's think about whether or not a welder will be able to use a certain amount of welding machine when it is working with some welding machine.

This use efficiency is called the allowable use efficiency. The allowable use efficiency is expressed as follows. In other words

Here, the rated secondary current is indicated on the name plate of the welder, and the rated duty rate is also indicated as a percentage of the duty cycle.

For example, assuming that a welder with a rated current of 300A is actually welded with a current of 200A,

However, the rated use efficiency of this welder is 50%.

Therefore, it can be seen that continuous use at this time does not interfere.

In the following,

It is necessary to investigate whether or not the welder has been thoroughly cleaned at least once a year, by measuring the insulation resistance or the first no-load current.

Also, when using the welding machine in the following places, it is not good to specify the welding machine in advance and do not use the specially manufactured one.

First of all, it should be applied to places that are exposed to windy weather from outdoors, places where harmful corrosive gas is present at a place where the ambient temperature is below -10 ℃, places where there is a lot of steam, There is usually a lot of places in the area, so the welder should not be used in such a place for a long time.

As shown in Fig. 83, in the specification of the welding current and the voltage,

When a need arises to measure the arc current, it should be measured by inserting an ammeter in the secondary circuit.

There is an ammeter for portable ac voltage measurement on the market. It should be noted that the capacity of the current is several hundred amperes, so you must purchase a large capacity.

In general, if you have a maximum 300A scale and a 600A scale, you will not be able to use it.

The following explains the following in inert gas arc welding (welding of this nut gas arc and arc welding of carbon dioxide gas)

First, in the opening,

In its principles and advantages,

First of all about principle

Inert-gas arc welding is an inert gas welding process,

It is a major welding method widely used for welding various kinds of metals which are difficult to be welded by gas welding in the conventional coated arc welding.

In this welding method, as shown in Fig. 2, welding with a tongue stain rod or a metal electrode in a nude body of an inert gas (Inert-Gas) which does not react with a metal even at a high temperature such as argon or helium The arc is generated between the objects to be welded and welded with the heat.

As shown in FIG. 83, there are two methods of teak welding (T IG) 853u and MIG welding (MIG) 853v.

(T IG) welding is a welding method using a tungsten rod as an electrode. This gas welding is called as inert gas tungsten-arc welding (T IG) Welding rod of welding consumable is melted and arc welded

(T IG) welding method (853v) of the bottom of an aluminum aluminum small motor runway (Runabout)

It is welding the bottom (T IG) of a small aluminum runner made of aluminum. It holds a torch in the right hand and a rod rod in the left hand.

However, in the thin plate, it is welded only with the arc heat without using the naked electrode.

Tungusuten,

Because it is not nearly consumed (mon consumable), this is also referred to as nut gas welding.

The product names are He li arc, He li weld, Argon arc, Argon weld, and so on.

(MIG, 853w) welding,

This metal gas arc arc welding (MIG after the head of the inert gas metal-arc welding) or the method of generating the arc by continuously (continuously) sending the electrode wire of the consumable material instead of the tungsten electrode Consumable (consumable) is also called nut gas arc welding.

In the MIG welding method diagram (853w) of the aluminum alloy tank,

It is MIG welding of aluminum alloy tank and Torch is in the right hand.

Carbon dioxide arc arc welding (C 0 ₂ arc welding)

It is known as a promising welding method which is recently used for testing carbon steel welding by using Co ₂ gas instead of this nut gas of MIG welding.

In the following advantages,

This nut gas arc welding,

The excellent welding method has the following advantages.

There is no need for first coat and flax.

In general arc welding or gas welding, it is necessary to use a coating agent or a flux to prevent the oxidation and nitriding of the molten metal. In this nut gas arc welding, however,

This is unnecessary because it is welded in the nut gas, or the work is very simple because no mechanical or chemical treatment is required to remove the slag or residual (used and remained) flux after welding.

In addition, there is no fear that the welded portion will be corroded by residual fluxes in aluminum, magnesium and stainless steel as in conventional welding.

This is because the nut gas arc welding is mainly used for light alloy or stainless steel.

The following is easy to weld in all positions and is efficient

In general, this nut arc arc welding arc is very safe, has little spatter and is relatively easy to operate.

Because it is welded in all posture and heat concentration and welding efficiency are good, when used in thin plate, welding speed is fast and there is a possibility that deformation after welding is small.

In addition, it is very advantageous for welding copper alloy or light alloy having good thermal conductivity (heat transfer efficiency).

Unlike submerged-arc welding, it can be seen directly on the arcane melting sheet and is advantageous in many ways.

The quality of the third welded item is excellent.

This nut gas arc welded part has ductility (strength), strength (strength), airtightness (dense metal corrosion), and corrosion resistance (corrosion resistance) compared to other arc welding or gas welding welding parts. This is generally excellent,

If this nut gas arc welding is a drawback, the facility cost is rather high and the nut gas is rather expensive. However, since welding work cost is rather low, it is widely used nowadays and is widely used for aluminum alloy, magnesium alloy, , Nickel alloy, copper alloy, carbon steel and low alloy steel. Especially titanium alloy, zirconium alloy, etc. In welding of metal which is likely to come into contact with oxygen or nitrogen in the atmosphere at high temperature and to be harmful, Only arc welding is used.

(T IG) welding is generally applied to a thin plate with a thickness of 0.6 to 3 mm , and to a thick plate with a thickness of about 3 mm or more.

That is, (MIG) welding is more efficient than (TIG) welding.

In his kind

This nut gas arc welding and the related welding method are roughly divided into the following kinds.

For TIG welding,

Manual operation in which the welder manually manipulates the electrode parts to generate the arc, namely torch and welding rod, automatic machining to automatically operate using a machine, supply of welding rod (Semiautomatic), in which the motor is operated by a motor and the torch is operated by hand

In addition, there is an arc spot welding that welds as a spot instead of a continuous long weld, and a special (T IG) toroid is also used for cutting the arc, do.

The twin ar c method of generating arc arcs between two tungsten rods, such as atomic hydrogen arc welding, by using a twin arc method (T IG) welding, Is also being used.

On the other hand, in the feature of the inert gas tungsten arc arc (T I G) welding, alternating current or direct current is used,

The influence of the polarity on the welding result is very large, and this will be described below.

In direct current welding (D.C. Welding)

The flow of electrons and ions flowing through the arc in DC welding is as shown in FIG.

In the positive polarity, the metal vapor and the ions of this nut gas are directed to the electrodes, and the electrons strongly impact the substrate, so that the ions are concentrated deeply.

Since the electrode does not generate excessive heat as a collision of the gas ions having a slow velocity, the electrode can flow at least a large current (not described below).

84, the power transmission unit 811d for transmitting the power contained in the conventional nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment The superconducting power generator 1060, the superconducting power generating line 1061, the superconductor 1062, the electromagnetic force 1063 constituting the electromagnetic path diagram 1079 of the electromagnetic propulsion line, the magnetic force 1064, A large domestic corporation including a highway 1065, a magnetic levitation train 1066, a semiconductor 1067 and a new material 1068 is a magnetic levitation train 1066).

However, the maglev train, which has been so painstakingly made, has a painful memory that has just fallen into disposable expo exhibits.

At that time, of course, in France, the parent company actively engaged in lobbying for high-speed trains, and after the expo, research on magnetic levitation trains was sluggish,

Assuming that the study of the maglev train (1066) has continued since the Daejeon Expo on the continuation of the national project, it would have resulted in more job creation and more job creation,

And even though the speed is slow, even if it is 10 years ago, if you have developed a nationally developed maglev train, you may not have been aware that the magnetic levitation trains with a speed of 200 km or more could have been made visible to the Gyeongbu Line or Honam Line. Day.

Domestic conglomerates are now concentrating on semiconductors (1067), but the next unexplored area in the next 22nd century will be the superconductor (1062) industry, not the semiconductor (1067) industry.

In the case of the maglev train 1066, if the pollution and noise problem is solved by using the magnetic force as the basis of the magnetic levitation train 106 and the development of the maglev train is spurred in earnest, various related new materials using the superconductor 1062 (1068) Industrial, magnetic (1064), and electromagnetic (1063) applications will be developed and applied to the semiconductor (1067) industry, it is natural that it will bring about an unlimited third synergy effect.

In addition, investment and research will be carried out on various related new industries using superconductor 1062, electromagnetic force 1063 and magnetic force 1064,

Maybe a magnetic levitation highway (1065) or a magnetically wounded car may be developed.

And a third super-high-speed moving means combining the magnetic force 1064 and the electromagnetic force 1063 may come out.

If we continue to study superconductors and magnetic forces for more than one third of energy dependence on oil and hydro-electric power, nuclear power alone, there is a good chance of developing third-generation energy using superconductors and magnetic forces. .

As shown in FIG. 85, a conventional construction machine included in a conventional nuclear power plant 811 constructed inside a pressurized water type double structure reactor facility main body 1 for a marine resource exclusive nuclear waste treatment and a hydraulic rotary cylinder 620 A hydraulic cylinder 623 is often used in a hydraulic cylinder or a hydraulic key 623 and a door for a hydraulic cylinder (a door formed at a rear portion of a submarine or a ship's hull, The cylinder 620 is used for rotation and the hydraulic cylinder 623 is suitable for pushing and pulling an object.

The hydraulic cylinder body is disassembled and coupled with the piston 127 and the piston seal 823 and the baffle seal 824 are inserted into the rod-and-piston seal 822 so as to exert a compression function on the body of the piston 127 and the cylinder. (DU Bush, 827), O-rings (828), and load seals (829) to the seal ring (825) and the slide ring (826) seal 830 and a piston seal 832 to the rod seal & back up seal 831 and a piston seal 832 to the piston seal 834 and the baffle 835 to the pin seal seal 833, 836 and a piston ring 837 to constitute the circumference of the piston 127 and the inside of the cylinder 126.

The cylinder body is provided with a high-pressure pipe 14, a reed 35, and a flange 28 on an elbow or a tee elbow 44, (474) and a hydraulic coupling (29) coupled to the hydraulic hose (190)

The outline of the hydraulic pressure and the application of the hydraulic pressure are separated by the characteristics of the hydraulic pressure and are explained as follows.

First of all, what is the definition of hydraulics?

The mechanical energy is changed into the pressure energy of the fluid by the hydraulic pump using the power and it is stored in the hydraulic oil. It is controlled by the control valve to control pressure (force control), flow rate (control of speed) Means an apparatus or a system that combines basic control elements in accordance with the purpose and converts them back to mechanical energy through an actuator such as a hydraulic cylinder or a hydraulic motor.

The following is the historical background of hydraulics,

Development of the fluid power technology for effective utilization of the power and economical use of the natural energy as the science advances was started in 1653 (Pascal). By the time of the Industrial Revolution in England in 1850, there was a fluid power company in England. The company has a 7000 horsepower pump and supplied hydraulic power to each user. The supply line is about 120 km and the power is used to operate the machine, for example, the rotating stage of Coliseum Theater, the Tower Bridge ), And the opening and closing of the front door of the British Society of Mechanical Engineers.

In the 1900s, the use of fluid power was declining due to the construction of electric power harnesses. Electric power was superior to fluid power in long-distance power transmission, but in power transmission within a single body without long-distance transportation, The use of electricity increased rapidly from the late 1900s because it was better than electricity.

In the application of such hydraulic pressure, the hydraulic pressure will be widely used in the future but it is mainly used in cases where a linear motion, a rotary motion and a large force are required or a speed is changed. Hydraulic equipment can be roughly divided into movable type and fixed type.

First of all, in mobile hydraulics, portable hydraulic equipment is a movable equipment using wheels or chains, and valves are mainly operated manually in portable hydraulic equipment.

Firstly construction machines are excavators and trucks, cranes and loaders in bulldozers and so on. Next, the conveying machine is used for the power handle of the car, the torque converter, the concrete mixer truck and the forklift in the sweeping car, the next ship decking machine is used for the winch and the steering, the fourth is for the airplane, Wheel drive, etc. The following cargo handling machines are used for agricultural machinery such as conveyor devices for elevator crane and elevator.

The following stationary hydraulics are described as follows.

The fixed hydraulic equipment refers to a machine rigidly installed and operated in one place and is mainly operated by an electric signal, that is, a solenoid valve 76. The machine tool includes a multi-axis drill and a transmission And metal machinery was used as a casting machine. The synthetic machinery was also used as an injection and extruding machine, while a woodworking machine was used as a hot press and wood conveying car, and a binding machine · It was also used as a rotary machine for printing machine and offset printing, and was also used for rocket and robot in incinerator and leisure facility.

As shown in Fig. 85, the explanation is made for the automobile printer, the explanation is made for the excavator 856, the explanation for the press mold, and the explanation for the dump cylinder .

In the characteristic of the hydraulic pressure, first, as an advantage of the hydraulic pressure,

It generates a force that is greater than the size of the system and allows precise position control. It is possible to start in a large load condition, so that excellent control (force, direction, speed ) And controllability and excellent heat release.

The disadvantage of this hydraulic pressure is that it is sensitive to foreign substances due to pollution of surrounding environment caused by waste oil, and therefore there is a danger due to the use of high pressure and a low efficiency due to changes in working conditions due to temperature changes. As such, in the configuration of the hydraulic device, the hydraulic system may first be divided into a power supply, a control, and an output portion. The power supply section supplies the flow to the system, and the most important components are the prime mover and the pump. A prime mover is a device that provides the mechanical power necessary to drive the pump. In industrial systems, motor is generally used as the device, and in the case of a vehicle such as an excavator or farm machinery, the prime mover is an automobile engine. The pump takes the mechanical power from the prime mover and converts it into a flow of fluid with pressure.

An output device of the hydraulic system includes an actuator and a load. The actuator converts the fluid power into mechanical power to move the load. The actuator may be a cylinder (linear actuator) that performs linear motion, or a hydraulic motor (rotary actuator) that generates rotational motion.

The control unit is located in the middle of the hydraulic system, and the components include a directional control valve, a pressure control valve, and a flow control valve. For example, the direction of motion of the actuator can be controlled by the direction control of the fluid flow, such as the cylinder advancing or retracting. As described in (Pascal), controlling the pressure of the fluid regulates the force of the output . Controlling the flow rate also regulates the speed of motion of the actuator.

First, in the formation of the pressure source, it consists of a tank that collects the required amount of oil, a hydraulic pump that purges the oil from the tank and sends it into the circuit, and a safety valve to protect the power source. Pump with gears and vanes Piston pump to motor and tanks Relay valves to shut-off valves Pressure-gauges with heat-exchange thermometers Pressure lines on suction lines Return line or the like.

As shown in FIG. 86, a power transmission unit 811d for transmitting power included in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment The underwater minerals collecting robots 912 are equipped with a submarine mineral collection robot 912 so that the battery formed by the new material 1068 composed of the shape memory alloy new materials 1068 can transmit the electric power 685 to the battery When saved, the energy bank of the global village will be set up.

87, the partial new material 1068 composed of the new materials 1068 included in the nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment, ) And a superabsorbent resin 1081 to form a double structure reactor installation for pressurized water for the marine nuclear waste treatment, the nuclear reactor of the nuclear power plant 811 ) And the superabsorbent resin (1081) of the partial new material (1068) composed of the new material (1068) contained in the waste water treatment tank And the new materials 1068 included in the nuclear power generation facility 811 constituting the inside of the water type double structure reactor facility main body 1.

88, in the engine-type rock drilling machine 847,

It can be used as a rock drill when drilling a concrete structure in an engine-type manner easily at the site of a collapse of various concrete structures, and as a breake equipment by replacing bits such as novies and carts when crushing a concrete structure.

The specifications are as follows: Engine type: 75cc 1 cylinder: 2 strokes, fuel tank capacity: 1.1L, weight: 15Kg, power source: volatile, oil: 12: 1, inflatable power: 14.3J, It is preferable that the crushing capacity constituting the apparatus construction machine control section 811f is 2.200 / min, the reciprocating piston type of the air compressor type, and in the constitution, several striking bits 940 are formed in the rock drilling machine 847,

A striking bit is formed in the jack body feature.

1) Maximum working diameter: ¢ 51m m

2) Working depth: 2.54m

3) Adjustable rotation speed

4) Underwater blast hole operation, no noise, non-vibration, shatter hole operation

In the specification of the rocker arm 847,

1) S t e l t y p e: 41/4 "× 1" h e x

2) Number of rotations: 0 to 300 RPM

3) Weight: 30kg

4) Length: 66c m

5) Width: 46c m

6) Pressure: 105-140 b a r

7) Flow rate: 26 ~ 34 L P M

As shown in FIG. 88, in the structure of the reciprocating engine structure 1109 and the airplane inspection structure 1110 constituting the airplane 1108 facility,

The structure 1109 of the reciprocating engine,

A cylinder or piston reciprocates and rotates the crankshaft to engage the structures 1109 of the reciprocating engine to rotate the propeller and constitute an airplane 1108 facility and constitute the upper part of the body dock hull deck (SDU) (593, 594, 595) of several marine nuclear power plants, an air control unit (811f) of an atomic power generation facility unit (811), and an airplane (1108 ) Facilities.

As shown in Fig. 101, the nuclear power plant of the nuclear reactor plant (803)

Pressurized water reactor type reactor facility and For comparison of water reactor installations during pressurization,

In the distinction between pressurized light water reactor and pressurized heavy water reactor (PHWR), the rated power of 1 million kW and 700,000 kW is of the vertical type, and the pressure vessel is a horizontal pressure tube, operating temperature is 296 to 327267-310, The operating pressure of 158.2 kg to 110 kg and the fuel used are fuel for the use of low enriched uranium (U-235, 4 to 5%) and natural uranium (U-235, 0.72%) and coolant 816 and moderator 676 using the median (D ₂ O), and the fuel replacement when planned preventive maintenance period is provided to drive from one year period of 1.5 years and, at the same time wolseong nuclear power plant in the country is a Canadian type CANDU in cans two reactors developed in Canada, predominantly This reactor installation uses expensive natural uranium (D ₂ O) as a fuel for nuclear fuel and cheap natural uranium (about 0.7% U-235) as a moderator 676 and a coolant 816.

When the heavy water of the water reactor installation 803 is boiled during the pressurization, the reactor installation system is pressurized to about 110 times because the moderator 676 and the coolant fail to function properly,

Water heated to 300 degrees Celsius is sent to the steam generator 810, and the steam 780 for driving the turbine generator is generated by heating the water on the secondary side through heat exchange,

Like the pressurized light water reactor, the reactor side and the turbine side are completely separated. The secondary side is the same as the pressurized light water reactor type. The primary side has a slightly different shape, and the primary side has a coolant (816) Cal and ria), while the pressurized light water reactor (803) reactor is heated by heat generated by fission through the interior of a horizontal cylindrical reactor, where the reactor is cooled in the form of a vertical barrel 816 are circulated from the lower part of the core 791 to the upper part.

As shown in Fig. 102, the operation of the nuclear power plant of the water reactor (803)

Using natural uranium as a nuclear fuel will reduce the probability of causing fission. Therefore, it is necessary to separately install a moderator (676) system composed of heavy water which can sufficiently absorb neutrons and effectively contribute to the fission of the thermal neutrons while effectively decelerating the high-speed neutrons generated during the nuclear fission,

Three basic features of pressurized heavy water reactors are natural uranium, heavy water, and fuel substitution during operation.

Hereinafter, the structure of the fuel pellet 683 of a nuclear power plant constituting a reactor facility of a nuclear power plant having a double structure block tank dust collector for treating nuclear power nuclear waste will be described in detail as follows.

As shown in Fig. 102, in the structure of the fuel pellet 683 constituting the nuclear reactor facility,

The electrons are composed of the nucleus 815 and the electrons surrounding the nucleus 815. The nucleus 815 is composed of a proton 674 and a nucleon 675, And a coupling force between the coupling members 815a and 815b.

]쯤 이나 그 질량은 원자(784) 질량의 대부분을 차지한다.The radius of the nucleus 815 is about 10 ^-14 m and the neutron 675 of the nucleus 815 is electrically neutral and the mass is almost the same as the proton 674 and the diameter of the nucleus 815 is atomic 784)

], The mass occupies most of the atom (784) mass.

The structure of nuclear power generation is the same as that of thermal power generation. Nuclear power generation also generates steam by rotating a steam turbine. Nuclear power generation and thermal power generation have different ways of generating steam. The thermal power plant rotates the steam turbine 267 by burning coal, oil and natural gas in the boiler 778 , The nuclear power generation generates nuclear fission in the reactor, and steam is generated from the heat to rotate the steam turbine (267).

The structure of an atom or a helium atom is an atomic nucleus 815 in which a proton 674 and a neutron 675 are combined with each other. The atomic nucleus 815 refers to the amount of static electricity carried by the object of the electron 785, The charge is plus (+), the charge of the same sign repulses each other, and the charge of the other sign attracts each other.

The number of protons (674) in the nucleus (815) is equal to the number of neutrons (675). The number of protons in the hydrogen and isotopes of triple hydrogen is all one Because the number of neutrons is the same, trihydrogen is called isotropic in hydrogen and heavy hydrogen,

Assuming that the number of protons 674 plus the number of neutrons 675 is the mass number, the half life of uranium 238 is 4.51 × 10 ⁸ years, which is shorter than that of uranium 238.

The nucleus of uranium (815) is a model of red beads, which are neutrons (675). The blue beads are proton (674), the isotopes of uranium 238, uranium 235 (812) and uranium 234 are weighted by the number of neutrons (675) It is different.

First, uranium 238 (653a) is the most abundant uranium, but unfortunately it can not fission. The following are uranium 235 (812) and uranium 234, which are only slightly contained in natural uranium, so it is uranium 235 (812) that is capable of fission.

The atomic nucleus 815 formed by the collapse of the radiation nucleus 815 contains a property that it is unstable and stabilizes even a little bit. It is a natural collapse, that is, it becomes a stable atom by self-emission of gamma rays to alpha particles or beta particles. 235 (812) has the greatest property.

So the main role of nuclear power is uranium 235 (812).

This is because fission occurs in the form of collapse of radioactive materials.

However, even if the uranium 235 (812) naturally collapses, it can not take out the energy, so the uranium 235 (812) artificially collides with the well-fractured uranium 235 (812) What does it collide with? If the question is solved, the charge of the nucleus 815 of uranium 235 (812) is +. Again, when a proton having a charge of + is collided, it repels each other by the law of charge and tangles the proton 820.

Since neutron 675 is electrically neutral, it is easy to access the nucleus 815, and of course colliding is also simple.

The uranium 235, which constitutes the collision of the neutrons 675,

The pale yellow barium or silver white barium is oxidized well in the air, while the krypton is split into a colorless odorless gas which is slightly mixed in the air, and two or three neutrons 675 are protruded.

103, the number of protons 820 in the nucleus 815 is equal to the number of neutrons 675. The isotope of hydrogen, for example, is a triple-deuterium atom of hydrogen, The number of protons (820) is the same as the number of neutrons (675). The number of neutrons (675) is different from that of hydrogen and heavy hydrogen. The number of neutrons (675) Speaking of the half-life of uranium-238 (679) is shorter than 4.51 × 10 ⁸ years of uranium 238 (679) in.

The atomic nucleus of uranium (815) is a model of a red bead that is a neutron (675), which is a proton, isotope uranium 238 (679), uranium 235 (812), and uranium 234 is a neutron (675) The uranium 238 (679)

It is uranium 235 (812) and uranium 234 because it is the most abundant uranium, but unfortunately it can not do nuclear fission. Uranium 235 (812) is the only one capable of nuclear fission because it is contained only in natural uranium.

The atomic nucleus formed by the collapse of the radiation nucleus 815 contains a property that it becomes unstable to become even a little stable. It is a natural collapse, that is, it emits gamma rays to alpha particles or beta particles and becomes a naturally stable atom 784. Uranium 235 (812) has the greatest property, so the mainstay of nuclear power is uranium 235 (812).

Because nuclear fission now occurs in the form of the collapse of radiation.

However, even if the uranium 235 (812) naturally collapses, it can not take out the energy, so the uranium 235 (812) artificially collides with the well-fractured uranium 235 (812) What does it collide with? If the question is solved, the charge of the atomic nucleus (815) of uranium 235 is +. When the protons 674 having a charge of + are collided with each other, they repulse each other by the law of charge and turn off the protons 674.

Since neutron 675 is electrically neutral, it is easy to access the nucleus 815, and of course colliding is also simple.

When the neutrons 675 collide, uranium 235 (812) is split into a colorless odorless gas that is barely oxidized in air or krypton is slightly mixed in the air, provided that the barium is either pale yellow or silver white barium, There are three bounces, which generate a large amount of energy.

Originally, uranium 235 (812) absorbs slow neutrons (675), but the neutrons (675) that are fresh from nuclear fission can not catch the neutrons (675) because of their high velocity. In order to slow down the velocity of fresh neutrons from nuclear fission Or a heavy water or graphite moderator 676 having a larger molecular weight than ordinary water is used.

If the particles collide with heavy objects, the neutrons 675 are splashed out. However, if the particles are of similar size, the neutrons 675 will eventually fall into thermal neutrons 675 because they are splashed. The thermal neutrons 675 are not hot, (675) with energy less than 1 eV (electron volts) is called a heat neutrality, and its neutrons (675) collide with other uranium 235 (812) and break up, Reaction occurred. 1e V to 1k e V are called low-speed neutrons (812), and 100k e V to 10M e V are high-speed neutrons (675).

Since there are two or three neutrons (675) in a single fission, I think that the number of neutrons is probably increased when the chain reaction is finished, but that is not it.

If the number of neutrons (675) is high, the chain reaction becomes excessive, and the energy generated when the nuclear fission breaks out exceeds the danger level, and then the reactor of the nuclear reactor in which the fission chain reaction proceeds in an ideal state is exploded.

In order to prevent such an explosion, a control rod 798 made of cadmium is inserted and removed to control a chain reaction of the fission in the reactor. However, since the control rod 798 eats the neutrons 675 generated from the fission, Which slows down the neutron 675.

In nuclear fission, the speed and number of neutrons (675) are controlled by the end of the running horse.

When 1 k g of uranium 235 (812) is cleaved, neutrons (812) protrude from barium and krypton, and their mass is lighter than 1 k g of original uranium 235 (812).

After a series of fission, two or three neutrons (675) are formed, and it is thought that the number of neutrons (675) may be increased when the chain reaction is finished.

If the number of neutrons (675) is too high, the chain reaction will be excessive, and the energy generated when the nuclear explosion occurs will exceed the danger level. If this happens, a nuclear reactor will be exploded that will progress the fission chain reaction in an ideal state. In order to prevent such an explosion, In order to control the chain reaction, the control rod 798 made of cadmium is inserted and removed, but the control rod 798 sucks the neutron 675 generated from the fission, so that the moderator 676 lowers the speed of the neutron. In nuclear fission, the velocity and number of the neutrons (675) are controlled by the endothelium, and when one kilogram of uranium 235 (812) breaks down, neutrons (675) protrude from barium and krypton, 812) It is lighter than 1kg compared with 1kg.

According to the equation of E = mc ² of Einstein,

This lighter mass is transformed into the kinetic energy of barium and krypton and neutrons (675). Theoretically, a mass of 1 g is the same heat as when about 2150 tons of oil are burned together. In fact, the energy of 1k g of uranium 235 (812) is calculated as 20 billion kcal of energy. If it is gasoline, it is enough to make 500 rounds of cars by car, 300 tons for coal, and 2 million liters for oil One neutron (675) divides one uranium nucleus into two or three neutrons (675).

As shown in Fig. 104, in the section of the reactor building 688 constituting the nuclear power plant and the fuel rod 689 facility,

The facilities of the reactor building 688 constituting the nuclear power plant are,

The reactor building (688A), the turbine building (688B), the control building (688C), the auxiliary building (688D), the diesel generator building (688E), the nuclear fuel building (688F) and the waste building (688G) (688) are provided,

In the equipment constituting the fuel rod 689,

The fuel bundle adjustment 689a and the upper nozzle 689b and the fuel rod adjustment 689c and the fuel rod 689d and the spring clip assembly 689e and the lower end nozzle 689f and the fuel rod rear end cap 689g, 689h), hold down spring uranium (689i), dioxid fuel pellets (689j), gas caps (689k) and zircaloy crowding (689l) to operate nuclear power plants.

As shown in FIG. 105, a nuclear waste disposal unit for nuclear waste treatment included in the nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment, A boiler water reactor (802) is provided with a boiler water reactor (802) of a nuclear hydroelectric power plant having a dual structure block tank dust collector constituting an embodiment of the nuclear waste treatment reactor facility coupling system for providing the input of the boiler water reactor facility (927) for nuclear waste disposal control equipment for nuclear waste disposal facilities and nuclear waste disposal of nuclear hydroelectric power plants with an elementary dual structure block tank dust collector showing the previous unprotected state nuclear explosion scene The present invention relates to a double-layered structural block (803), which is composed of a pressurized water reactor unit (803) constituting a pressurized water reactor unit for nuclear waste disposal of a nuclear hydroelectric power station having a tank dust collector, A mixture of loess mixture (927) and previous unprotected nuclear explosion scenes.

Nuclear waste disposal for marine resources Nuclear waste treatment for marine resources equipped with dual structure block tank dust collector equipped with nuclear plant facility of floating marine nuclear power plant (593,594,595) of several marine nuclear power plants constituting pressurized water double structure reactor facility The prior art of the present invention will now be described in order to make it possible for a person skilled in the pertinent art to easily understand the technique of the present invention as well as the necessity of constituting a nuclear reactor of a dual structure nuclear reactor.

(Patent Document 1) Patent 0546221 2006.01.19. Reference, (Patent Document 2) Patent No. 10-0650936 November 20, 2006, (Patent Document 3) Patent No. 10-1167145 Jul. 13, 2012, (Patent Document 4) Published Patent No. (10-2005-000053552) (Patent Document 5) Published Patent No. (10-2005-0117496) December 14, 2005, (Patent Document 6) Published Patent No. (10-2017-0031947) 2007.03.20. (Patent Document 7) Published Patent Application (10-2007-0106398) November 11, 2007, (Patent Document 8) Published Patent No. (10-2007-0106596) November 22, 2007, (Patent Document 9) Published Patent No. (10-2010-0027087) 2010.03.10. (Patent Document 10) Published Patent No. (10-2012-0066690) Jun. 22, (Patent Document 11) Published Patent No. (10-2012-0064663) Jun. 19, (Patent Document 12) Published Patent No. (10-2012-0095337) Aug. 28, (Patent Document 13) Published Patent No. (10-2012-0112315)

In order to solve the above-mentioned problems, the present invention provides a dual structure nuclear water reactor for marine nuclear waste treatment,

[0003] In the conventional distribution and dispensing apparatus for a reactor facility of a nuclear power plant,

It is composed of boiling water reactors and pressurized water reactors that use water in general, and power reactors are mainly used in light water reactors. Nuclear power plants equipped with pressurized water reactors in boiling water reactors and multipurpose hot gas paths and new type Nuclear power plants equipped with high-speed multiprocessor reactor facilities are connected to the land and the island area by the conversion road. As a result of the natural occurrence of typhoons, earthquakes, tsunamis, forest fires, ash and volcanic ash before and after the volcanic eruption This often indicates a situation in which reactor facilities are detonated from conventional natural disasters and nuclear power plants are shut down.

As shown in FIG. 105, during the operation of the conventional nuclear power plant in the conventional nuclear power plant, when each of the existing nuclear reactor installations is close to each other The chain explosion of nuclear fuel has a great influence on the safety of nuclear power plants.

Therefore, it is more urgent than ever to establish a double-structure nuclear reactor with a pressurized water treatment system for nuclear waste disposal for marine resources

More particularly, the present invention relates to a dual structure nuclear reactor waste disposal facility for marine resources, and more particularly, to a dual structure nuclear reactor disposal system for nuclear waste disposal in a nuclear hydroelectric power plant, A double structure storage tank for connecting the individual parts of the nuclear waste disposal shielding device provided in the nuclear reactor facilities, a tunnel for the cooling water and the mixture of the yellow soil for the fuel explosion prevention control article, and a construction machine for the anti- Several tugboats for marine nuclear power plants at sea and several wire ropes and shackles for non-sinking rescue ships were installed as floating structure barges, which are double structure barges for nuclear waste operation for nuclear power plants, To provide transportation of dust collector connection structures, and to control nuclear waste disposal for continuous operation of nuclear power plants. The present invention relates to a double structure reactor installation for pressurized water treatment for a nuclear waste having a double structure block tank dust collector,

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting a dual structure nuclear water reactor,

Dual structure for the treatment of nuclear waste at the nuclear power plant of the world Nuclear waste structure Double structure block type tank Dust collector or double tube structure Capsule type Dual structure storage tank provided in several reactor facilities and the same parts of nuclear waste treatment as the shielding It is equipped with an electric car that consists of a tunnels and a marine tunnel transportation system, which is a mixture of loess mixture that mixes cooling water of explosive control material of nuclear fuel to be connected and mixer machine. It has construction equipment in river estuary and prevention of sinking in the sea. A double structural barge line of a double structure reactor with a nuclear waste treatment for marine resources moving a floating structure barge of several marine nuclear hydroelectric power plants is provided with double structure block tank dust collector carriers,

A dual structure block consisting of several pumps and double structure pipes and valves and generators connected to the double structure block tank dust collector connection structure to constitute a double structure reactor installation for pressurized water treatment of nuclear waste for exclusive use of marine resources, For the treatment of nuclear waste at marine nuclear power plants with tank dust collectors,

Nuclear waste treatment, which connects nuclear hydroelectric power plants and marine nuclear hydroelectric power plants, from a global site to the ocean, is equipped with double structure block tank dust collectors, which connect several pumps, dual structure pipes, valves and generators A dual structural block reactor which constitutes a pressurized water reactor type nuclear reactor reactor that controls radioactive leaks is composed of a dual structure nuclear reactor reactor with a nuclear waste treatment for a marine source having a dual structure block tank dust collector,

Nuclear power generation Alternative power generation Prevention of sinking of parts of hydroelectric power generator for wind power generator and thermal power generator for power generation Wire rope shackle Construction Crane for constructing machine Crane for marine resources such as marine resources Handling of pressurized water double structure reactor facility And construction machine cranes are provided for the submarine landing,

In the Nuclear Hydroelectric Power Plant Division, there is also a tunnel, which is a mixture of loess mixture that mixes the cooling water of control product preventive control equipment for the nuclear waste disposal with the mixer machine, and distributes it to the distribution side Nuclear waste treatment Pressurized water type double structure reactor facility Power supply line with transmission line connection inside the main body Nuclear waste treatment device Double structure Block tank pipe Bridge Marine power supply to the area with transmission line connection to the tunnel communication device The nuclear waste treatment for marine resources while resuming the double-structure nuclear reactor facility equipped with dual-structure block tank dust collector consisting of pressurized water reactor double-structure reactor facility,

A power generation and production unit that constitutes alternative power generation to hydroelectric power plants for wind power generators and thermal power generators for alternative generation power generation before and after shutdown of nuclear power plants and a transportation transportation unit for construction equipment that moves construction equipment by double structure barges, Ships, and space rockets, ships are composed of nuclear waste with short half-life, space rockets and satellites are equipped with a nuclear waste power transmission unit that distributes nuclear waste with a long half-life and discharges to the outside of the atmosphere, Control and management for safe operation of nuclear power plant with sensor, electronically controlled control device for electronic control with electronically controlled electronic control device, vertical control of hull and holding tank, A screw adjuster which is in combination with an electronic control adjuster for the disinfection, and a loess mixture which mixes the cooling water with a mixer machine, And a hydraulic excavator for supply of cooling water to regulate the supply of deep water water, a control unit for groundwater and deep seawater capacity adjustment, a control unit for common land and water surface treatment, a satellite for treatment of nuclear waste, Space development with space rocket And a double structural block tank dust collector constituting an electronic sensor valve screw control unit for adjusting the height of the double structure barge hull with an electronic sensor valve, Regarding a dual structure reactor facility,

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a marine nuclear power plant equipped with a pressurized water double-structure reactor facility for marine nuclear waste treatment,

Marine Nuclear Hydroelectric Power Plant for Safe Operation of Nuclear Reactor Facilities of Marine Nuclear Hydroelectric Power Plant from Stormy Waves Wave is installed at the upper part of floating deck hull deck deck (SDU) at the upper 40M sea level (SLL) With a 0.5km spacing distance and a pillar bridge block tank bridges at one point and a dual structural block tank deck constructed on a floating deck hull deck deck Marine source with nuclear waste treatment Pressurized water type double structure reactor with marine facility It constitutes a nuclear hydroelectric power plant,

(SDL) upper part of sea level surface (SLL) equipped with hull deck deck with marine nuclear hydroelectric power plant equipment Double structure block tank bridge bridge with sea bottom (SDL) Deck deck upper deck (SDU) Emergency evacuation of marine nuclear hydroelectric power station and sailing vessel Double-structure barge at the top of holding tank for disaster relief shelters due to disaster earthquake Guided rails located on the upper part of ship's hull deck (SDU) to the left and right of deck deck And a crane (861) with a capacity of 5000 tons is placed on the deck deck guide rail to construct an emergency evacuation shelter for sailing vessels, and the production power of the hydropower generator and the speed change of the algae And the hydro-electric power generation devices having the size adjustment of the discharge pipe, It has a power transmission unit that has power supply from the power production and production department of the nuclear hydroelectric power plant with the connection of the substations to the power line and transfers the power to the industrial site. It supplies electric power production to each region of the world, It is provided for a marine nuclear hydroelectric power plant equipped with a dual structure reactor facility,

The above-mentioned nuclear waste treatment for marine resources, the pressurized water type double structure reactor facility, the power supply line having the transmission line connection inside the main body, the nuclear waste treatment device, the double structure block tank bridge, the area having the transmission line connection to the marine tunnel transportation device , The Nuclear Waste Treatment for Offshore Nuclear Power Plant is being resumed. In the marine iron structure composed of the pressurized water type dual structure reactor facility, all the conventional war materials from the nuclear bombs are to be disposed together with the United Nations Security Council member to dispose of nuclear bombs , And on land, constitute a provision that nations can not possess nuclear materials for any reason,

Nuclear waste disposal for marine resources Nuclear power plants located around marine nuclear power plants constituting pressurized water type double structure reactor facility are composed of inside of double body nuclear reactor facility of pressurized water type nuclear waste treatment for marine resources for prevention of war and terrorism. Nuclear waste treatment connection structure Double structure block tank pipe bridge Marine tunnel transportation equipment,

Nuclear waste disposal of satellite and space rocket to prepare nuclear waste disposal device by satellite launching platform and space rocket launching base is arranged and nuclear weather disposal observation weather forecasting observatory for weather forecast is announced, Earthquake, tsunami, wildfire, yellow dust and volcanic eruptions. Prevention of natural disasters by weather forecasting,

In the marine tunnel traffic device connected with the flood control device that constitutes the prevention of the flood drought, it receives the weather forecast of the weather forecast observation station for the weather forecast observation, and sends the water stored in each dam at the time of the flood to the sea, The water reservoir is constructed at each normal dam,

Submarine line injection nozzle connection and submarine line injection nozzle constituting the above-mentioned marine tunnel transportation device electric train are provided, and nuclear waste disposal double structure block tank marine tunnel transportation device is provided, and production electric energy is supplied to the flood control device Respectively,

In a dual structure nuclear reactor waste water treatment pressurized water type dual structure reactor equipped with a dual structure block tank dust collector,

Space science equipment and several sonar equipped with a number of sonar installed at the bottom of the ocean, space science development equipment and a number of sonar to receive photos of the results of the deep seabed mineral resources and natural gas energy resources to detect and then oil It is also necessary to construct energy supply facilities for the production of deep-sea mineral resources and natural gas energy resources by supplying energy drilling equipment, and to supply the production power of wind power generators and hydro generators with transformers and transmission lines of substations, Block tank bridge, marine tunnel transport equipment, and a battery for safe operation of the traffic equipment replacing the marine vessel to provide power energy to the marine nuclear waste water source Treated water reactor type dual structure reactor facility,

In order to prepare for the shutdown of the nuclear reactor and the before and after the explosion of the nuclear reactor, which constitute the provision of the above-mentioned electric power energy, a dual structure block tank dust collector was installed on the circumference of the existing reactor 4th wall- A double structure block tank dust collector is formed on the periphery of the fourth walled container to prevent explosion of the facility,

In the barge, which is a marine nuclear hydroelectric power plant constituting the double structure block tank dust collector, the installation position of the nuclear power generation facility located at the upper 40m above the sea surface excluding the weather condition restriction as a disaster prevention device is set in anchor and anchor chain of the mooring device. And the pump and valve of the drilling machine and the buoyancy control device are equipped with the diving control pylons to control the position of the marine nuclear hydroelectric power plant at the upper 40m above sea level to dispose of the effect of earthquake and tsunami as a disaster prevention device. The pressurized water reactor facility is provided in the anchor and anchor chain of the mooring device as a docking bed for the diving control in the pump bed and the pump and valve of the drilling machine and the buoyancy control device,

In the anchor and anchor chain of the mooring unit, there is a key bed, a drilling machine, a pump of a buoyancy regulating device, and a buoyant control rod for controlling the installation position of a marine nuclear hydroelectric power plant, A double structure block tank which constitutes a reactor plant of a power plant, and a mixture of a cooling water of nuclear fuel explosion prevention control products with a mixer machine, constitutes the cessation of the explosion of the nuclear reactor facility, Waste disposal Prevention of nuclear fuel explosions from marine nuclear hydroelectric power plants with pressurized water double structure reactors,

Dual structure block tank to control nuclear fuel radiation leakage to prevent explosion of reactor facility in nuclear fuel chamber Treatment of nuclear waste only for ocean source with dust collector Dual pressure nuclear reactor facility for pressurized water type Half life from nuclear waste reprocessing process before and after safety operation Longer half-life with long-term cooling for permanent disposal of nuclear wastes for many thousands of years is the result of thousands of years of dual-structure block tank dust collectors for cooling the nuclear waste that constitutes a permanent disposal of long- In a marine nuclear hydroelectric power plant equipped with a pressurized water double structure reactor facility,

A double-tubular drum containing nuclear waste is constructed with a ship and a double-tubular drum transport containing nuclear waste in the buried area.

It constitutes the movement of the double tubular drum containing nuclear waste at the top of the barge deck deck with space rocket and space rocket launchers,

The barge deck has a space rocket at the top of the deck, constituting the transport of nuclear waste to the outer space,

Nuclear waste is converted into another material by nuclear fission in a nuclear reactor facility equipped with a dual structure block tank dust collector,

Construction equipment Heavy equipment with excavators and diggers placed in empty space of double structure block tank pipe bridge to make nuclear waste buried in polar ice glaciers are equipped with boreholes to construct nuclear waste treatment inside the borehole ,

A double structure block tank structure with a double structure block tank bridge that constitutes the operation of a reactor facility of a nuclear power plant constructed inside a nuclear power plant. It is an object of the present invention to provide a dual-structure reactor facility for waste water treatment.

According to the present invention, there is provided a double structure block tank structure constituting the construction design process of a nuclear explosion prevention measure suitable for a pressurized water type double reactor reactor facility having a double structure block tank dust collector, In a marine nuclear hydroelectric power plant equipped with a pressurized water double structure reactor facility,

The upper 40 m of the sea nuclear hydroelectric power plant located at the top of the deck deck (SDU) is composed of the inner part of the marine nuclear power plant equipped with the pressurized water type double structure reactor facility for nuclear waste disposal. General marine vessels and offshore structures When navigating naval vessels with safety clearance and avoiding ship collisions and rebuilding the reactor facilities of marine nuclear hydroelectric power plants for the treatment of nuclear waste with pipe bridge and pipe bridge and double structure block tank dust collector, It is designed considering the marine tunnel traffic system at 40m below sea level with the pipe bridge connection unit of 500m double structure block tank unit and constructing the bridge block tank pipe bridge at the depth of 10km in the deep sea. Are also connected to the pipe bridge of the 500m double structural block tank unit to withstand the deep water pressure It is composed of lock adjusting devices provided with lock,

Nuclear waste disposal for marine nuclear power plants Pressurized water double structure reactor facility KSD 3705 hot-rolled stainless steel material which is the material of steel which provides reactor facilities for nuclear waste hydro- In addition,

Nuclear waste disposal for marine source processing Pressurized water type double structure reactor facility In the floatation dispatch dispenser equipped with the construction machine constituted inside the body,

Fixed lifelines and flow-dependent lifelines are provided,

In addition to the lifespan of lifting consoles, it is made of KSD 3705 hot-rolled stainless steel, which is a steel material,

Nuclear waste disposal for marine resources Nuclear wastewater treatment for pressurized water Double structure nuclear reactor facility It is equipped with all-weather operation to connect the land and the island area composed of the inside of the main body, and to replace marine vessel and aircraft connected to connection structure of marine tunnel traffic apparatus. To create an effect,

Marine tunnels replacing offshore vessels and airplanes Nuclear waste treatment of traffic facility facilities Double structure block tank pipe bridge Double structure block connected to the connection structure of marine tunnel traffic device Tank disposal for marine resources with dust collector In the pressurized water type double structure reactor installation,

Exhaust gas outlet which is the same as the dust collector of the exhaust gas facility which is prepared to withstand the natural disaster of the sea and double tube structure which is located inside the double structure block tank for treatment of nuclear waste and nuclear radiation pollutant inside the nuclear reactor facility with the entrance Block piping lines to provide a nuclear waste location channel for the nuclear waste location control system to provide a pressurized water nuclear hydroelectric power plant for controlling the movement of nuclear radioactive pollutants,

Nuclear waste disposal for marine resources Double-structure reactor pressurized water type Pressurized water type reactor The temperature sensor of the safety valve connected to a plurality of temperature pressure sensors constituting the inside of the main body of the pressurized water reactor in which the temperature is heated to 300 degrees Celsius Water is sent to the steam generator, heat is generated on the secondary side through heat exchange to generate steam for driving the turbine generator,

When the temperature reaches the high temperature state of 700 to 800 degrees Celsius and the pressure reaches the dangerous state of the high pressure state,

Nuclear waste disposal for marine resources A temperature and pressure sensor located inside the pressurized water reactor dual structure reactor sends alert messages to the computer in the safety control room, while a plurality of temperature and pressure sensors are opened to each safety valve. As the block pipe line inside the pressure vessel, which is the moving passage, the explosive nuclear waste passes through and the nuclear waste is stored in each block tank, the opening of the temperature pressure sensor sensor valve connected to the inner block tank of the pressure vessel is changed to the nuclear waste Treatment pressurized water type double structure reactor facility,

The external block piping line is a mixture of cooling water of a nuclear fuel explosion-proof control product stored in the upper end portion of an inner block tank and a mixture of loess mixtures in a toothpick form which is mixed with a mixer machine. The mixture of cooling water and yellow clay is connected to the temperature pressure sensor and the hatch cover located at the upper end of the pressure vessel which provides the opening of the lower hatch cover of the storage tank, The reactor interior pressure vessel for stopping the explosion stop of the reactor facilities as the internal temperature of the reactor facility is lowered, and the marine nuclear hydroelectric power plant having the pressurized water reactor facility for the nuclear waste disposal to be filled with the cooling water and the yellow soil mixture in the fourth wall containment vessel Power plant,

The safety valve connected to the inside of the reactor pressure vessel and the fourth wall containment vessel by the temperature pressure sensor and the bottom hatch cover of the storage tank are provided with yellow soil mixtures for generating cooling water and soap bubbles. When the fourth wall containment vessel is filled, the internal temperature of the marine nuclear hydroelectric power plant having the double structure block tank dust collector is lowered to prepare for the explosion stop of the pressurized water double structure reactor facility treating the nuclear waste for the marine resources,

Nuclear waste disposal for pressurized water type dual structure reactor facility constituting explosion stop of reactor facility includes,

The present invention provides a double structure reactor installation for pressurized water reactor for marine resources having a double structure block tank dust collector having a radiation piping line connection structure constituting several safety valve connection structures,

The dual structure block tank which controls the nuclear radiation leakage constituted inside the main body of the pressurized water type double structure reactor facility for treating the nuclear waste for the marine resource The reactor for preparing the nuclear fuel waste transfer storage facility with the nuclear fuel explosion prevention control articles in the dust collector, The shielding system of nuclear safety engineering, which shields and shields nuclear pollutants from outside the facility, is constructed by constructing double nuclear reactors,

Dual structure block tank A dual structure block tank which consists of the outside of the tank dust collector and one of the nuclear waste disposal prevention and nuclear fuel explosion prevention reactor facilities is installed in the dual structure block tank dust collector. , There are two types of dual structure nuclear reactor facilities,

Marine tunnel composed of maritime vessels Substructure block tank combined with connection structure Treatment of nuclear waste with marine source with dust collector Dual structure of pressurized water reactor Double structure block built up inside main body Outside of dust collector It has a pressurized water reactor facility for nuclear waste disposal,

Double structure of land and sea constituting efficient nuclear operation Operation of nuclear waste for marine resources constituting block tank dust collector Connected to double pipe structure block pipe with energy of water constituting water treatment of nuclear waste of pressurized water double structure reactor facility , A safety valve connected to a temperature and pressure sensor, a feed pump, a mixture of cooling water and a loess mixture that generates soap bubbles, and a nuclear waste disposal unit that converts the energy of the water into kinetic energy. It is composed in a pressurized water type double structure reactor facility,

According to the present invention, there is provided a double structure reactor installation for pressurized water for nuclear waste treatment for ocean source, which converts the potential energy of water into kinetic energy,

Double structure block tank In the form of eggs, it is a connection structure that is formed on the outer wall of the reactor building of the previous reactor. It is a double structure reactor tank facility with double structure block tank dust collector. Is a dual structure block tank dust collector that is connected to several reactor facilities that make up a significant difference. It is another purpose of providing a double structure reactor facility for marine nuclear waste treatment and pressurized water type dual structure reactor to the land and marine nuclear power plant .

In order to accomplish the above object, the present invention as a technical idea is characterized in that, in a pressurized water double structure nuclear reactor facility for processing a nuclear waste for an offshore source,

The double structure block tank 598 is provided with a bow and a stern connection, while a welding process is performed to the banding joint portion of the high-strength stainless steel steel plate 597 with a welding machine, a cutting tool, a drill lathe, A large flange 614 is provided at the connecting portion of the large flange 614 to form a double structure reactor assembly for pressurized water nuclear waste treatment for marine resources in the manufacturing process lathe process, Respectively,

The same dual-structure block tank 598 as the inner block tank 596 and the outer block tank 599 located outside the inner block tank 596 has the same structure as the double- ,

The pressurized water type double structure reactor installation includes a first auxiliary steel pipe 600 for a block tank and a second auxiliary steel pipe 600 for a block tank which provide a connection between the inner block tank 596 and the outer block tank 599, The first auxiliary steel pipe 600 for the block tank, the second auxiliary steel plate 601 for the block tank, the vertical partition wall 605, and the second auxiliary steel plate 605 for the block tank are provided with the horizontal partition wall 605, the horizontal partition 609, the steel beam 149, The horizontal barriers 609 and steel beams 149 and the snap holes 602 and the diaphragm manholes 610 are separately cut by a computer laser cutter and then transported to a crane. A dual structure block tank 598 welded to provide a double-walled reactor structure for pressurized water to provide nuclear waste treatment;

The body of the inner block tank 596 for manufacturing the inner block tank 596 constituting the nuclear waste treatment is moved to the inner position of the outer block tank 599 by the overhead crane 861 and the conveyor 633 And the inner block tank (596) is welded to the inside of the outer block tank (599) of the pressurized water type double structure reactor facility, (593,594,595) facilities of the power plant, and a double structure nuclear reactor for nuclear power plant,

(928), nuclear waste treatment double structure block tank pipe bridge (929), double structure block tank pipe bridge (937) and nuclear waste treatment double structure block tank A plurality of distribution sides and double structure block tanks 598 for providing nuclear waste disposal with connectionable disconnection structure connected to the tunnel traffic apparatuses 941 are connected to a double structure reactor (705) consisting of the inside of the facility body (1);

The nuclear power plant of the marine nuclear power plant (811) of the marine nuclear power plant equipment of the floating position control of the marine plant (593,594,595) of several marine nuclear power plants constituting inside the main body (1) of the pressurized water double- Hull position transfer Nuclear waste disposal for the construction of the input of the construction machine For the pressurized water double structure reactor facility,

A nuclear power generation nuclear waste treatment unit 811a, a power generation and production unit 811b, a traffic transportation unit 811c of a construction machine, and a power transmission unit 811c that constitute the inside of the nuclear power generation facility 811 of the dual structure nuclear power plant, A power transmission unit 811d, a nuclear power plant safety control production production front end 811e, an electronic control adjustment apparatus construction machine control unit 811f, an electronic sensor valve screw control unit 811g, A fire fighting natural disaster prevention control section 811j, a snowfall natural disaster prevention control section 811k, a fire natural disaster prevention control section 811h, a forest fire natural disaster prevention control section 811i, A flood natural disaster prevention control section 811n, a drought natural disaster prevention control section 811o, a landslide natural disaster prevention control section 811p, And a control unit 811q for controlling the fish and shellfish scattering of the fish, A dam control unit 811s connected to the control unit 811r for controlling the fish and shellfish scattering, a control unit 811t for controlling the supply of groundwater and deep seawater, A shared water surface embedding process control unit 811u, And a satellite control unit 811z for preventing radioactive contamination of the nuclear power plant, so as to constitute a nuclear power plant 811 inside the pressurized water type double structure reactor facility main body 1 for processing a nuclear waste.

A vertical partition wall 605 in which a partition wall manhole 610 constituting a pressurized water double structure reactor installation of the nuclear power generation facility unit 811 is formed and a communication device hydraulic cylinder door 624 provided in the horizontal partition wall 609 and an emergency stair step staff (631) The equipment consists of the transportation equipment provided by the welding process;

The plurality of stopper plates 625, which are provided as a connection structure of a traffic device at the time of repairing both inside and outside of the double structure block tank 598 constituting the pressurized water double structure reactor installation,

(597) Bending and bending machine of high-tensile strength stainless steel with bending type roller bending machine and three bending roller bending machine of press braking type bending machine of section steel bending bending machine, 625 are provided,

A plurality of inner block tanks 596 and a plurality of outer block tanks 599 of a double structure block tank 598 constituted by a cap-tight fitting assembly of a double structure block tank 598, A welding process for welding the plug-and-hold assembly of the plug plate 625 without the large-sized flange and the bolting assembly provided in an egg-shape with the upper and lower ends of the double structure block tank and the large- And the distribution system of the double structure nuclear reactor equipped with the pressurized water,

Double-structure barge hull (591) at the top of a holding tank inside the main body (1) of the pressurized water double-structure reactor facility for treatment of nuclear waste for marine resources consisting of distributing and inputting devices of the above reactor facilities is located at the upper part of the hull deck (SDU) The cranes 861 having a capacity of 5000 tons for installing the guide rails 618 to the left and right sides of the deck deck,

The transportation chain cranes 861 are positioned on the guide rail 618 at the upper end of the deck deck and the double and triple sliding hatch covers 153 are fixed to the opening and closing ports at the time of renovation,

When the lid of the semicircular stopper plate 625 is dismantled, the crane 861 is connected to the disassembly-engaging portable lug of the block tank locomotive control device formed in the double structure block tank dust collector 794, at the crane boom of the construction machine crane 861 651 and a shackle and a crane boom hook ring 652 to provide a connection with a portable lug formed in the double structure block tank dust collector 794 to move the double structure nuclear reactor processing equipment and,

The deck deck configured to feed the dual structure reactor facility is provided with several openings to allow the crane 861 to operate and to position the dual structure block tank dust collector 794, A double structure block tank dust collector 794 is provided in the inside of the hull 591 so that a nuclear waste disposal empty space is located inside a double structure nuclear reactor waste processing type dual structure reactor facility for a dual structure barge hull 591;

And a crane 861 constituting the inside of the barge hull 591. The wire rope and the shackle of the crane boom 651 of the construction machine crane 861 are connected to the disassembly- A double-walled block tank cleaner (803) is connected to the deck deck of the pressurized water reactor assembly (803) with a crane boom hook hook (652) 794), the pressurized water reactor installation 803 is positioned inside the double structure barge hull 591, and then a double structure reactor installation for a nuclear waste treatment for pressurized water for the ocean source is provided,

After the assembly of the integral stopper plate 625 of the double structure reactor installation is completed, the opening is provided with the double and triple sliding hatch covers 153 being closed by the clamping device,

In the marine nuclear power plant having the dual structure reactor facility 803, the cooling water 287 constituting the control material of the nuclear fuel explosion prevention and the hot water double structure reactor facility for the nuclear waste disposal 803) and a dual structure block tank dust collector (794) for nuclear waste disposal of the nuclear facilities of the nuclear power plant operating the nuclear power plant,

(287) of the nuclear fuel explosion-proof control product that constitutes the prevention of sinking of the pressurized water reactor facility for processing nuclear waste of the marine nuclear hydroelectric power plant, and the nuclear waste disposal to the marine nuclear hydroelectric power plant and,

In the double structure block tank dust collector constituting the prevention of fuel explosion of the marine nuclear hydroelectric power plant,

A plurality of double structure reactor facilities constituting the double structure block tank dust collector and constituting a marine nuclear power plant connected to the land;

At the connection side connected to the land constituting the marine nuclear hydroelectric power plant,

The distribution side constituting the nuclear waste treatment double structure block tank bridge water marine tunnel traffic apparatus 941 located in the ocean constituting the connection side,

A control side for providing a connection side of a hydraulic control electronic control device for preventing a nuclear fuel explosion of the ocean constituting the distribution side,

A double structure barge hull (591) at the upper end of a holding tank, which is a floating dish (593, 594, 595) of several marine nuclear power plants equipped with the hydraulic control system constituting the adjusting side, and holding tanks (590) Disassembly of the block tank position shifting device from the holding tank 590 Coupling lug coupling lug pin coupling side 606, lug 607 and lug coupling side coupling bolt 603 and lug coupling side coupling disassembly nut 604), and a plurality of construction machine cranes (861) for controlling the height of the flood control ports (593, 594, 595) of the plurality of marine nuclear power plants on the respective adjustment sides.

The control side, which comprises the construction machine crane (861) constituting the regulating side and constitutes the position control of the pressurized water double-structure reactor facility for processing the nuclear waste-only nuclear waste,

(1) Double-structured nuclear reactors for processing marine nuclear waste, consisting of pressurized water nuclear waste reactors for the controlled source of marine resources (2) In addition, a pressurized water type double structure reactor facility for the treatment of nuclear waste for marine resources is provided inside,

The inner block tanks 596 and the outer block tanks 599, which are capable of disassembling and disassembling the pressurized water type double structure reactor facility for processing nuclear wastes constituting the nuclear waste storage facility, and the outer block tanks 599, The welding machine of the welding process and the upper part of the guide rail 618 located at the upper end of the deck deck are provided with the transporting bodies of the reactor facilities inside the crane 861, The dust collector (794) is equipped with double-structure reactor facilities for the pressurized water treatment of nuclear waste for marine resources,

The nuclear reactor power plant reactor double structure block tank dust collector (794) constituting the pressurized water reactor type nuclear reactor treatment facility for the marine nuclear power plant described above, the inner block tank 596 connected to the equipment and the outer block tank 599 are connected to the construction machine The nuclear waste generated from the upper end portion SDU of the double structure barge hull 591 at the upper end of the sea surface upper end portion SLU holding tank which is the connection structure of the double structure block tank 598 is collected at the lower end of the sea surface SLL SLD) By storing the nuclear waste on one side of the double structure block tank precipitator 794 at the lower end of the vacant spaces located in the double structure barge hull 592 at the lower end of the holding tank, A double structure block tank dust collector 794 is provided at the lower end of the empty space located in the double structure barge ship hull 592 at the lower end of the SLD landing tank, The disaster of the radioactive disaster is caused by the nuclear waste disposal for marine resources.

The nuclear waste discharged from the operation of the nuclear waste treatment pressurized water type double structure nuclear reactor equipped with several marine resources is provided to the dual structure block tank dust collector 794 ) Storage is provided on the lower side of the equipment,

And a double structure block tank dust collector 794 that constitutes a storage at a lower side of the lower end of the double structure block tank dust collector 794 to treat nuclear waste The inner block tank 596 connected to the double structure block tank dust collector 794 provided with control articles and the outer block tank 599 are assembled to form a double structure block tank structure, A nuclear waste disposal due to the leakage of the nuclear fuel radiation stored in the nuclear waste at the lower end of the tank dust collector 794 is prevented in advance by having the double structure block tank dust collector 794,

A dual structure block tank consisting of the dual structure block tank scrubber 794 and the inside of the main body 1 of the pressurized water reactor type nuclear reactor waste processing water source dedicated to the prevention of nuclear waste disaster in advance, For the marine resource-only nuclear waste disposal system,

Nuclear wastes are collected and stored in a plurality of inner block tank 596 and a plurality of outer block tanks 599 at the lower part of the empty space before and after a large explosion accident which constitutes a pressurized water type marine reactor installation,

A plurality of double structure block tank dust collectors 794 fixedly provided with reinforcing concrete mats 225 and steel beams 149 having a thickness of m which are put into the nuclear reactor facility of the road surface lower surface portion GLD of the double structure block tank 598, And an inner block tank (596) having an inner block tank (596), which is located inside the third wall of the nuclear fuel reactor, and a nuclear explosion control device Production,

(1) of the pressurized water type double structure reactor facility main body (1) constituting the nuclear power generation production source for the ocean source, Nuclear waste disposal The nuclear waste disposal of nuclear power plants is composed of electric vehicles, ships, space rockets and artificial satellites, equipped with electric trains connected to the marine tunnel traffic facility (941), which is a connection structure of pressurized water double structure reactor facility.

A hydroelectric power plant to be used in the production of alternative power generation power, a nuclear waste treatment double structure block tank bridge to prevent nuclear fuel explosion, a marine tunnel transport device (941), and a nuclear reactor consisting of a pressurized water double- A construction machine comprising a nuclear fuel cycle of a waste fuel industry and a marine lifting carrier to form a position shift control;

And is configured so as to be constituted.

Alternatively, the dual-structure reactor installation for pressurized water for nuclear waste treatment for marine resources, which is inserted into a pressurized water double-structure reactor facility constituting the nuclear waste disposal of the nuclear power plant,

A first wall pellet 681 of secure nuclear fuel and a covering tube 682 protecting the second wall fuel rod 689, a third wall reactor pressure vessel 813, a fourth wall containment vessel 808, (688) of the reactor building (688) composed of the fifth wall reinforced concrete mat (225) is replaced with five-layered protective walls to provide a double structure reactor body (1) Nuclear waste treatment of pressurized water type double structure reactor facility equipped with pressurized water reactor equipment constituted inside,

The double structure block tank dust collector 794 of the nuclear waste processing pipe manufacturing process distribution side 705 composed of the nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine source exclusive nuclear waste treatment, (941) and a double structural block tank dust collector (794). It is equipped with a pressurized water type double structure reactor facility in the process of manufacturing a nuclear waste treatment pipe, Constitute the operation of the nuclear waste disposal nuclear power plant;

The facilities of the regulating-side nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation in the pressurized water type double structure reactor facility for the nuclear waste treatment for marine resources constituting the nuclear power plant operation,

In the dual structure barge hull 591 at the lower end of the holding tank constituting the facility of the nuclear power plant, an unmanned robot is inserted into the SDM of the hull deck so as to prevent leakage of nuclear fuel,

At the center of a plurality of inner block tanks 596 provided in a double structure block tank dust collector 794 for preventing leakage of the nuclear fuel, nuclear waste disposal pressurized water double structure reactor facilities for nuclear operation are separately provided A pressurized water reactor installation is provided inside the pressurized water double structure reactor installation to be inserted into the crane 861 on the adjustment side,

A guide rail 618 located at the upper end portion SDU of the double structure barge hull 591 at the upper end of the strut tank constituting the pressurized water reactor installation is installed to the left and right sides of the deck deck, The position of the pressurized water reactor arrangement is provided on deck deck guide rail 618,

The conveying of the pressurized water reactor installation to the inside where the crane 861 constituting the upper end of the deck deck guide rail 618 is located,

And a double structure block tank dust collector 794 constructed by replacing five-fold protective walls inside the barge hull constituting the transportation of the pressurized water reactor installation, and a pressurized water double structure reactor equipment constituting the nuclear waste treatment,

The nuclear waste disposal and dispensing apparatus constituting the pressurized water type dual structure reactor facility is provided with the crane 861 for moving and installing the fuel explosion control dispensing and inputting apparatus,

A construction machine crane 861 for repairing the inside and outside of the marine tunnel traffic device 941 connected to the double structure block tank dust collector 794 constituting the crane 861 and the double structure block tank dust collector 794 ) Nuclear waste treatment plant Double-structured nuclear reactor facility of pressurized water manufacturing process constitutes nuclear power plant operation;

And a double structure block tank dust collector 794 constituting the nuclear power plant operation of the pressurized water type double structure reactor plant. In the control side of the operation of the pressurized water type double structure reactor plant nuclear power plant,

A double-structure large-sized sliding hatch cover 153 is provided at a position where the crane 861 constituting the control side modification of the operation of the pressurized water type double-reactor installation operates, to protect the double- and triple pressurized water double- Respectively,

(1) of the pressurized water type double structure reactor facility for the treatment of the nuclear waste for the ocean source, as the construction traffic transportation parts for adjusting the position of the regulating side constituting the double or triple pressurized water double structure reactor facility. A double structure block tank dust collector 794 on a distribution side 705 connected to a nuclear waste treatment pipe manufacturing process consisting of a nuclear power generation facility unit 811 and a nuclear power plant constructed by a pressurized water double structure reactor facility for nuclear waste treatment Wherein the process comprises the steps of:

The dual structure nuclear reactor nuclear reactor nuclear power plant double structure nuclear reactor equipped with the double structure block tank dust collector 794 constituting the nuclear power plant operation in the nuclear waste disposal water pressure type double structure reactor facility constituting the nuclear waste processing pipe manufacturing process,

(1) Reactor facilities consisting of exhaust gas outlet and inlet which are the same as the exhaust system of the exhaust gas facility which is composed of the inside of the pressurized water reactor type double reactor nuclear reactor facility A dual structure block tank pipe 794 for blocking nuclear waste and nuclear radioactive contaminants stored in the nuclear waste disposal unit 794, The rated output is 1 million kW and 700,000 kW for the separated pressurized light water reactor and the pressurized heavy water reactor. The double structure reactor type is vertical type, and the pressure vessel is a horizontal pressure tube. The operating temperature is 296 to 310 ° C. The operation pressure is 158.2 kg to 110 kg, and the fuel to be used is fuel for use of low enriched uranium and natural uranium, and the coolant 816 and the moderator 6 76), and the period of preventive maintenance for fuel replacement period is set to be one year to 1.5 years,

The construction of dual-structure nuclear reactors for marine nuclear power plants of marine nuclear power plants, the construction of dual-structure nuclear power reactors for nuclear power plants,

The nuclear radioactivity contaminants constituting the nuclear waste locating passage are,

Several temperature and pressure sensors Sensors of temperature and pressure of the safety valve Sensors with double-structure, pressurized water supply in operation When the temperature inside the facility reaches 320 degrees Celsius in high temperature and high pressure,

A dual-structure block reactor (794) in which a temperature-pressure sensor is connected to a computer in the safety control room to provide an alarm message transmission. A pressure sensor And to transmit the alarm message to the computer of the safety control room,

In the nuclear waste-treated pressurized water double-structure reactor installation having the double structure block tank precipitator 794 constituting the reactor operation of several reactor facilities in the nuclear reactor constituting the alarm message transmission,

The explosion nuclear wastes pass through the inner block piping line (74a) of each location of the pressure vessel opening to each of several temperature pressure sensing sensors and safety valves constituting the pressurized water type double structure reactor facility, Constituting the opening of the temperature-sensing sensor safety valve 472 connected with the inner block tank of the lower end of the pressure vessel 813 while the wastes are being stored;

In the outer block piping line 74b constituting the opening of the temperature-sensing sensor safety valve 472,

A flashing warning lamp 99, a pressure gauge 101, and a temperature sensor bimetal 102 and a connection structure, which are stored in an inner block tank constituting the outer block piping line 74b, And is connected to the detection sensor switch 103 and the level pressure switch 104 for controlling the flow rate check operation and the safety valve 472 of the flow rate check flow meter 105 and the pipeline line automatic pneumatic valve transport device 916, A plurality of double-structured reactor installations having a laser cutting machine and a double structure block tank dust collector 794 connected to the construction machine and the drilling machine through through holes, The safety valve 472 of the automatic pneumatic valve conveying device 916 connected to the thermocouple thermometer sensor switch 103 so as to operate the nuclear reactor constituted by the pressurized water type dual structure reactor facility, Nuclear power plants, including the operation of nuclear reactors for nuclear waste treatment,

In the nuclear waste disposal pressurized water type double structure reactor installation including the double structure block tank precipitator 794 among the reactor facilities constituting the operation of the nuclear power plant with the safety valves 472,

A double pipe structure block pipe line constituting the nuclear waste disposal pressurized water type double structure reactor facility comprises a plurality of through holes to form a double pipe structure block piping line 74 and a plurality of safety valves 472 are connected to a block piping line A double structure reactor installation for pressurized water for nuclear power generation with a marine source is provided by providing a hydraulic spanner for connecting flanges in the line 74, the bolts 24 and the nuts 25 with the gaskets 32,

On the outer wall surface of the reactor building 688 constituting the pressurized water type double structure reactor facility having the hydraulic spanner,

The nuclear waste (540) constituting the nuclear waste treatment reservoir (599) is connected to one of the double structure block tanks (598) having a diameter twice the size of the outer wall surface of the reactor building (688) Processing apparatus,

      (1) of the pressurized water type double reactor reactor facility equipped with a nuclear waste disposal type double reactor reactor facility connected to a double structure block tank dust collector (794) constituting the nuclear waste disposal apparatus. And a nuclear hydro-power generation unit 811. The block pipe line has a plurality of through holes and is connected to the double pipe structure block piping line 74 A plurality of safety valves 472 are opened and a heavy water is distributed to the coolant 816 and the moderator 676 to be connected to the double structure block tank dust collector 794, Configure a processing device;

A nuclear waste disposal unit for a marine resource, a dual structural nuclear reactor facility (1), a double structure block tank dust collector (794) provided with a safe and continuous nuclear radiation leakage control of the nuclear power generation facility (811) And a nuclear waste disposal pressurized water double-structure reactor facility constituting the nuclear power plant operation is provided,

(2) for the operation of the nuclear power plant constituted by the pressurized water type double structure reactor facility main body (1) for treating the nuclear waste for marine resources,

Nuclear Waste Treatment of Marine Nuclear Waste Treatment Nuclear waste treatment of marine nuclear power plant constituting pressurized water type double structure reactor facility Nuclear radioactivity A leakage preventing electronic control device is provided,

The nuclear waste disposal apparatus 794 disposed at the upper end of the double structure block tank precipitator 794 sequentially without mixing the pressurized water double structure reactor facilities of the nuclear power plant for nuclear waste treatment constituting the leakage prevention of nuclear reactor activity of the reactor facility, A tank tank 295 is provided in a marine nuclear waste treatment type double-layer reactor facility for pressurized water,

(593,594,595) of marine nuclear power plants constructed inside the main body (1) Double-structure barge hull (591) at the upper end of the holding tank constituting the prevention of sinking of the marine nuclear power plant, And a dual structure barge ship hull 592 at the lower end of the holding tank are included in a marine nuclear power plant,

In the marine nuclear waste processing type pressurized water double structure reactor apparatus constituting the nuclear waste processing apparatus,

A connection structure composed of a steam generator 810 and a steam dryer 786 installed outside the pressure vessel 813 of the double structure block tank dust collector 794 constituting the nuclear waste disposal pressurized water double structure reactor facility is constructed In addition,

The nuclear waste-treated pressurized water double-structure reactor facility constituted by the containment vessel 808 constituting the connection structure on the fourth wall of the pressurized water type double structure nuclear reactor installation and the double structure block tank collector 794 included on the fifth wall ,

A plurality of inner block tanks 596 constituting the pressurized water type double structure reactor facility and a plurality of outer block tanks 599 are connected to each other to be connected to the mixing equipment mixer machine 649 of the distribution injector of the nuclear fuel explosion control, A coolant 816 as a fuel explosion preventive control material that is supplied to the same pressure vessel 813 as the furnace immediately before the reactor large explosion, cooling water 287 for injecting heavy water into the moderator 676, The mixing chamber 648 is provided with a mixture of loess mixtures which generate soap bubbles mixed with the mixer machine 649 into the pressurized water reactor installation, (808) to prevent the explosion of nuclear fuel due to a decrease in temperature inside the pressurized water type double structure reactor facility,

In the mixer machine 649 composed of the cooling water 287 and the loess mixtures, which are mixed with the mixer machine 649, which is a nuclear fuel explosion-proof control article constituting the nuclear fuel explosion prevention of the pressurized water double structure reactor facility for processing nuclear waste,

The fuel explosion prevention control article is put into the pressure vessel 813 at one time by having yellow soil mixtures for generating soap bubbles mixed with the coolant 287 and a mixer machine 649 composed of yellow soil mixtures, A plurality of firefighter nozzles 10 for cleaning the interior of the reactor installation cleanly after the occurrence are provided inside the pressure vessel 813 and the inside of the containment vessel 808 with the cooling water 287 Constitute the control of nuclear fuel explosion control;

A firefighter nozzle 10 is provided to be filled with cooling water 287 constituting a cleaning process inside the nuclear reactor facility without the insertion of the UAV constituting the explosion prevention of the nuclear fuel,

A nuclear waste treatment pipe manufacturing process consisting of a nuclear power generation facility 811 constituted inside the main body 1 of a pressurized water type nuclear reactor nuclear waste processing pressurized water type nuclear reactor having the nuclear waste disposal pressurized water type double reactor installation, ) And dual structural block tank dust collector (794). The double structure block tank dust collector (794) is equipped with a pressurized water type dual structure reactor facility in the manufacturing process of the nuclear waste treatment pipe (705) of the nuclear waste treatment plant manufacturing process of the nuclear power generation facility unit (811)

And a dual structure block tank dust collector 794 constituting a nuclear reactor operation of several nuclear reactor facilities in a marine nuclear waste treatment type pressurized water double reactor structure constituting a distribution side 705 of the nuclear waste processing pipe manufacturing process, Nuclear waste treatment In a pressurized water double structure reactor installation,

The cooling water 287 stored in the nuclear waste treatment tank tank 295 located at the upper end of the double structure block tank precipitator 794 sequentially without being mixed with the reactor facilities constituting the nuclear waste disposal pressurized water double- ) Mixed with the mixer machine 649 in the third wall reactor pressure vessel 813 located below the tank tank and in the fourth wall containment vessel 808 by a plurality of temperature pressure sensors And the safety valve 472 and the hatch cover 153 are opened by sensing a temperature pressure sensor,

The cooling water stored in the inner block piping 74a of the block piping line 74 at each of the upper end portions of the pressure vessel 813 of the reactor installation constituting the safety valve 472 and the hatch cover 153 is opened by the temperature pressure sensor sensing 287) and the mixer machine (649), the water tank tanks constituting the yellow soil mixture (927) generating the soap bubbles mixed with the toothpaste forms the inside of the third wall reactor pressure vessel (813) and the fourth wall containment vessel 808), and the opening and closing of the safety valve coupled with the circulating water pump (242) is provided with a screw control with an electronic sensor valve to constitute a double structure nuclear water reactor nuclear waste processing type double structure reactor facility,

The cooling water 287 and the loess mixture 927 mixed with the mixer machine 649 of the nuclear reactor facility by the adjustment of the electronic sensor valve screw constituting the opening and closing of the pressurized water type double structure reactor facility safety valve are connected to the pressure vessel The pressurized water reactor facility for processing nuclear waste constituting the transfer to the fourth protective wall containment vessel 808 and the inside of the fourth protection wall containment vessel 813,

The mixture of the cooling water and the loess mixture mixed in the mixer machine 649 constituting the pressurized water reactor for nuclear waste treatment is supplied to the inside of the reactor core 681 and the reactor core 681 through the nuclear waste treatment control cooling water and the mixer machine 649 in the interior of the pressure vessel 813 of the pressurized water type double structure reactor facility by the water supply pump 241 inside the pressure vessel 813 and the fourth protective wall The vessel 808 constitutes transfer within the pressure vessel 813 of the pressurized water dual structure reactor facility,

The mixture of the loess mixture 927 mixed with the mixer machine 649 constituting the conveying unit 808 at the same time is inputted into the pressurized water reactor installation and immediately after the earthquake has stopped the circulating water pump 242 is supplied to the pressurized water reactor installation In order to prepare for internal nuclear power,

A nuclear waste disposal apparatus having a double structure block tank dust collector 794 that continuously constitutes safe operation of a nuclear reactor constituting the nuclear power plant and prevents explosion of a pressurized water reactor,

A nuclear waste treatment plant consisting of a nuclear power plant 811 constituted inside the main body 1 of the pressurized water type pressurized water reactor dedicated to nuclear waste treatment for the offshore source constituting explosion prevention of the reactor facility; A marine tunnel traffic device connected to the building block tank dust collector 794,

A double structure block tank dust collector (794) having a construction machine and a lifting console as a connection structure for repairing the outside of a marine nuclear power plant, and a pressurized water double structure connected to the manufacturing process of a nuclear waste treatment pipe A marine tunnel transport device connected to the operation of a nuclear power plant, comprising a dual structure block tank dust collector (794) connected to a nuclear waste treatment pipe manufacturing process with a reactor facility;

As shown in FIG.

Alternatively, for the operation of the nuclear power plant of the pressurized water type double structure reactor constituting the pressurized water type double structure reactor facility for treating the nuclear waste for the ocean source,

A double structure block tank of a pressurized water type double structure reactor installation to a fifth wall, and a plurality of double structure block tank collectors 794 for storing radiation nuclear waste (224) connecting the outer wall surface of the reactor building wall to one another. The nuclear power plant of the pressurized water type double structure reactor facility which constitutes the inside of the power plant is provided,

In the nuclear power plant 811 formed before and after the operation of the nuclear power plant constituted by the coupled connection structure of the pressurized water type double structure reactor facility, nuclear fission is generated inside the pressurized water double structure reactor facility, The steam turbine 267, which rotates the steam generator 267 to produce power,

A rotary shaft for a nuclear power generator installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the atomic power generator 772 for converting the power generated from the steam turbine 267; An electromagnet coil 774,

A nonrotating armature coil 773 for a nuclear power generator installed on the circumference of a rotating rotor electromagnet coil 774 for the nuclear power generator and a rotor 773 integrally formed with the nuclear power generator 772 and the rotary shaft 198 to the steam turbine 267, And a frame 775 for fixing the nuclear waste to the nuclear power plant 811. The nuclear power plant 811 includes a reactor body of the nuclear power plant of the land and the ocean, Nuclear waste treatment plant of the pressurized water type double structure reactor facility composed of the nuclear power generation facility unit 811 The marine tunnel communication unit connected to the distribution side 705 and the double structure block tank dust collector 794 is connected to the inside (794) Nuclear waste disposal for marine resources connected to nuclear waste treatment pipe manufacturing process Pressurized water double structure reactor facility operation ;

In the hydroelectric power plant which is alternatively constituted for the operation of the nuclear power plant at the time of renovation of the pressurized water type double structure reactor facility for ocean nuclear waste treatment,

(191) in the form of a hydraulic pressure reducer (35) for providing a kinetic energy conversion of the kinetic energy of the water with a flow rate of water, A large hydroelectric generator seeside facility 944 equipped with a large hydroelectric generator 942 having a seesaw crane boom zone 942 of a tower crane that provides a vertical rotation operation with a plurality of marine nuclear power plants (593,594,595) nuclear power plants (672) of hydroelectric power plants, and large hydroelectric generators that constitute nuclear hydroelectric power plants within the main body (1) of pressurized water reactor type nuclear reactor wastes for marine resources,

And a pressure reducer (35) configured to provide kinetic energy of water with a flow rate of the current to the inside of the hydroelectric power room constituting the nuclear hydroelectric operation of the nuclear power and constituting mechanical energy, so that the introduction pipe (191) In the seizure facility 944 of the large hydroelectric generator constituting the present invention,

The center shaft frame 673 constituting the large hydroelectric generator seeside facility 944 is installed in the seesaw crane boom section of the tower crane having a multi-stage entrainment type man- 942) to provide power generation facilities for generating electric power, thereby providing nuclear power to the inside of a nuclear power plant facility of a floating nuclear power plant (593,594,595) of several marine nuclear hydroelectric power plants in the ocean. Including large hydroelectric generators,

(593, 594, 595) nuclear power plants (672) of several offshore and offshore ocean nuclear hydroelectric power plants constituting the large hydroelectric generator seeside facility (944) and internal nuclear waste water treatment double- A double structure block tank dust collector included in the power generation and production unit 811b of the nuclear hydroelectric power generation facility 811 is installed as several generators for nuclear waste disposal and power generation of the nuclear reactor facility, And a power transmission unit 811d comprising a power generation and production unit 811b of the nuclear hydroelectric power plant 811 and power transformers for transmitting power,

A double structure block tank dust collector 794 constituting nuclear power plants of several nuclear reactor facilities of a nuclear power plant for nuclear power generation, In the nuclear hydropower plant composed of structural reactor facilities,

A cooling water inlet 352 of a cooling water piping line constituting a connection structure with a condenser 790 is provided under the body of the steam turbine 267 of the nuclear hydroelectric power plant 811 constituted by the pressurized water double structure reactor plant,

In front of the condenser 790 constituting the cooling water inlet 352 of the nuclear power plant 811,

And a circulation water pump 242 connected to the cooling water inlet 352 of the cooling water piping line to the piping line 169 through a water passage constituting the front of the condenser 790, A dual structural block tank dust collector 794 of a nuclear waste treatment pipe manufacturing process distribution side 705 composed of a nuclear power generation facility unit 811 constituted inside a pressurized water double structure reactor facility main body 1 for marine nuclear waste treatment, (794) Nuclear waste treatment pipe manufacturing process Nuclear waste treatment for marine resources Nuclear power plant construction for pressurized water type double structure reactor facility Including the pressurized water type double structure reactor facility of a nuclear power plant,

In a marine nuclear power generation facility constituted in a pressurized water type double structure reactor facility having a double structure block tank dust collector 794 constituting the pressurized water type double structure reactor facility,

A feed pump 241 is provided at the rear end of the condenser 790 constituting the pressurized water type double structure reactor facility and outside the reactor facility,

And a purifier (809) constituting the outside of the reactor in front of the feed pump (241) constituting the pressurized water type double structure reactor plant,

The reactor internal piping line at the front of the purifier 809 is provided with a plurality of coolant pumps 243 so that the reactor pressure vessel 813 containing the fuel of the enriched uranium 812, 798) and a pressure vessel 813 of a pressurized water type double structure reactor facility constituted outside the reactor pressure vessel 813,

When the safety device control rod 798 is installed inside the pressure vessel 813 of the pressurized water type double structure reactor facility and shaking occurs,

The control rod 798 is inserted into the pressure vessel 813 at a time so that the nuclear reactor operation of the nuclear reactor facility can be stopped urgently and the reactor facility of the nuclear hydroelectric power plant of the land and ocean and the nuclear waste- A nuclear waste treatment pipe manufacturing process of the nuclear power generation equipment section 811 constituting the inside of the reactor facility body 1 and a marine tunnel transportation device inside the dual structure block tank dust collector 794 of the distribution side 705, (794) Nuclear waste treatment plant manufacturing process Pressurized water type dual structure nuclear plant construction constituting nuclear plant operation;

The dual structure nuclear reactor facility of nuclear power plant having double structure block tank dust collector (794) for operating nuclear power of pressurized water reactor facility constituted inside pressurized water reactor nuclear reactor facility main body In the nuclear power plant of

A first wall pellet 683 of a nuclear reactor reactor constituting the pressurized water reactor installation,

The inside of the third wall reactor pressure vessel 813 which is generated by the collision of the cladding 682 constituting the cladding pipes 682 protecting the second wall fossil rod 689 before and after the earthquake,

The safety valves 472 formed with the plurality of temperature pressure sensors are opened just before the nuclear fuel explosion in the fourth wall containment vessel 808 and the nuclear waste disposal process located at the upper end of the upper end double structure block tank precipitator 794 of the pressure vessel 813 The inside of the third wall reactor pressure vessel 813 located below the water tank 295 with the loess mixture 927 mixed with the cooling water 287 stored in the apparatus water tank 295,

The safety valve 472 and the hatch cover 153 in which the plurality of temperature pressure sensors are formed immediately before the explosion in the fourth wall containment vessel 808 are opened and the inner block of the block piping line 74 of each of the upper and lower portions of the pressure vessel 813, The cooling water 287 stored in the pipe 74a and the loess mixture 927 generating the toothpaste-shaped soap bubbles mixed with the mixer machine are introduced into the third wall reactor pressure vessel 813 Cooling water 287, which is a nuclear fuel explosion-proof control product, and a mixture of loess mixtures 927 mixed with a mixer machine are put into the fourth wall containment vessel 808 at the same time into the nuclear waste disposal pressurized water type double structure reactor facility, In addition,

In the inner block pipe 74a of each of the block piping lines 74 constituting the pressurized water reactor installation,

The explosive nuclear waste 224 constituting the inner block pipe 74a passes through the inner block pipe 74a and the outer block pipe 74b is filled with cooling water And the yellow mortar mixture 927 for generating soap bubbles mixed with the mixer machine and the mixer machine is introduced into the pressure vessel 813 and the fourth protective wall containment vessel 808 through the feed pump 241, Preventive control article transport,

A dual structure block tank (598) for storing nuclear waste (224) constituting the transfer of the fuel explosion-proof control article is provided at an inner lower end position of each portion,

Nuclear waste 224 constituting the internal lower end position is moved and stored at each position of the double structure block tank 598 and the temperature pressure sensing sensor safety valve 472 connected to the inner block tank 596 of the pressure vessel 813 is opened Nuclear power plant operation of the nuclear reactor is composed of the nuclear power plant of nuclear power plant of land and ocean and the nuclear power plant of nuclear power plant (811) composed of the main body (1) The nuclear waste treatment pipe manufacturing process and the dual structural block tank 794 of the distribution side 705. In connection with the internal and external marine tunnel communication equipment, there is a pressurized water reactor facility for treating nuclear waste, Tank Dust Collector (794) Consists of a pressurized water type double structure reactor facility operation connected to the nuclear waste processing line manufacturing process;

In the nuclear power plant constituted by the pressurized water type double structure reactor facility of the nuclear power plant having the double structure block tank dust collector 794, the nuclear power plant constituting the operation of the pressurized water reactor apparatus nuclear power plant,

The outer block piping 74b of the block piping line 74 constituted by the pressurized water double structure reactor facility is connected to the inside of the nuclear waste disposal tank 295 located at the upper end of the inner block tank 596 And a yellow soil mixture 927 for generating soap bubbles in the form of toothpaste mixed with a mixer machine so that the inside of the pressure vessel 813 and the inside of the fourth protective wall container 808 ),

The cooling water constituted by the containment vessel 808 of the pressurized water type double structure reactor facility and the loess mixture 927 generating the toothpaste form soap bubbles to be mixed with the mixer machine are supplied to the nuclear fuel explosion prevention The control objects are mixed with the cooling water 287 stored in the respective portions of the inner block tank 596 and the outer block tank 599 as loess mixture 927 generating soap bubbles in the form of toothpaste, ) Is filled with the inside and outside of the nuclear reactor facility, the nuclear reactor's temperature will be lowered. The nuclear fuel explosion will stop and nuclear reactors will be stopped in an emergency, and the reactor facilities of the nuclear and hydroelectric power plants of the land and ocean, The nuclear waste water treatment pipe manufacturing process consisting of the nuclear hydroelectric power generation facility 811 inside the pressurized water type double structure reactor facility main body 1, (794) Nuclear waste treatment plant manufacturing process with pressurized water type double structure reactor facility Operation of nuclear power plant with double structure nuclear reactor facility &Lt; / RTI &gt;

In the double-walled pressurized water reactor structure of the nuclear power plant constituting the double structure block tank dust collector 794 including the nuclear operation of several reactor facilities constituting the double structure pressurized water reactor apparatus for nuclear waste treatment,

A pressure vessel 813 of the nuclear reactor facility is provided with a nuclear reactor power plant nuclear reactor constituting the pressurized water type dual structure reactor facility and a cutter or a submarine mineral collecting robot 912 for remote control in disassembling the nuclear reactor facility, When the internal fuel explosion stops, the plurality of temperature and pressure sensing sensor safety valves 472 provide full closing,

When the nuclear reactor constituting the entire safety valve 472 of the reactor installation is operated, normally,

A plurality of pressure sensors for pressure sensing in the nuclear power plant constituting the entire pressure and temperature sensing sensor safety valves 472 are installed in the submerged barge of the ocean which constitutes several reactor facilities before and after the safe operation of the reactor facility ;

In the pressurized water type double structure reactor equipment constituted in the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation in the pressurized water double structure reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant,

(593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear waste disposal. Nuclear waste disposal in a nuclear nuclear hydroelectric power plant. Double structure block tank dust collector (794) and nuclear waste treatment double structure block tank pipe bridge Marine tunnel access A dual structure block of nuclear waste treatment having a nuclear waste treatment dual structure block tank scrubber 794 with an adjusting side for coupling to the connecting sides of the apparatus 941. A pipe bridge of a nuclear power plant having a tank dust collector. A pressurized water reactor facility for processing nuclear waste constituting a nuclear waste treatment dual structure block tank scrubber 794 having an adjustment side coupled to the connection sides of the nuclear waste treatment dual structure block tank 794;

Respectively.

Alternatively, a marine vessel manufacturing plant that constitutes a pressurized water reactor facility for nuclear waste treatment may be provided with connection structure construction machine cranes 861 that can be disassembled and combined to provide a production control of the dual structure block tank dust collector 794, A nuclear power plant 811 constituted by the inside of the nuclear power plant 2;

A nuclear power plant having a dual structure block tank precipitator 794 for constituting a nuclear power plant inside the main body 1 of a pressurized water type nuclear reactor waste water treatment type water nuclear reactor dedicated to the nuclear power generation facility 811, In a water reactor installation,

A nuclear power plant having a double structure block tank dust collector 794 constituting the pressurized water reactor installation, and a nuclear power plant 811 constituting the inside of the main body 1 of the pressurized water type nuclear waste treatment- A nuclear waste nuclear waste disposal unit 811a included in the nuclear waste disposal unit 811a;

Nuclear power plant operating safe and continuous nuclear power plant in Nuclear Power Plant Nuclear power plant operation to prevent nuclear fuel explosion Prevention of Nuclear Power Plant Operation in Nuclear Power Plant Replacement Power Generation (591) at the top of the holding tank constituting the holding tank, and equipped with hydropower generators located at the lower end of the barge ship hull (591) at the upper part of the holding tank, A power generation and production section 811b of the power generation facility section 811;

The nuclear power plant 811b of the nuclear power generation facility 811 has a plurality of reactor facilities and a plurality of transportation vehicles of the construction machine. A double structure block tank dust collector 794 composed of a plurality of inner block tanks 596 connected to the outer block tank 599 and a central portion of the outer block tank 599 and both front and rear portions of the outer block tank 599 are opened to connect the position movement control apparatus construction machine crane 861, The crane boom 651, the crane boom hook 652 and the conveyor 633 of the crane boom 651 and the conveyor 633 to control the position of the pressurized water reactor for nuclear waste treatment,

A construction machine crane (861) of a construction machine constituting a pressurized water reactor arrangement constituting the position shift control by the carrier, in a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a dual structural block tank dust collector, The dual structure block tank reactor system is equipped with a nuclear reactor waste disposal system,

(861) of the construction industry crane (861), the marine installed connection structure capable of disassembly and disassembly in the manufacturing of the industrial docking dock, 1) a traffic transportation unit 811c of a construction machine connected to a power generation and production unit 811b included in the nuclear power generation facility unit 811 constituted inside;

In the transportation transportation unit 811c of the construction machine constituting the nuclear hydroelectric power plant 811,

A control side for providing nuclear waste disposal capacity adjustment by having storage tanks of a nuclear waste disposal system of a nuclear reactor constructed inside a pressurized water double structure reactor facility main body 1 for processing an ocean source exclusive nuclear waste;

The control side of the nuclear waste hydrothermal power plant's nuclear waste treatment pressurized water type double structure reactor facility apparatus described above,

(1) is treated in a column block tank (590) of a nuclear power plant (811) constituted by a pressurized water type double structure reactor facility main body The nuclear waste treatment dual structural block tank pipe bridge 928 of the double structure block tank 598 and the double structure block tank pipe bridge 941 connected to the connection side (1) Nuclear reactor facility consisting of several nuclear reactors, which are divided into a number of nuclear reactors, and a nuclear waste disposal unit A nuclear power plant, a nuclear power plant, and a nuclear power plant.

The distribution side of the pressurized water type double structure reactor equipment constituting the discharge of the nuclear waste is,

A nuclear power plant for nuclear power generation, a nuclear power plant, a nuclear power plant, a nuclear power plant, and a nuclear power plant, A power transmission unit 811d for distributing and discharging nuclear waste;

In the power transmission unit 811d equipment for distributing the nuclear waste to constitute discharge,

Power transmission unit (811d) Nuclear waste disposal for marine resources before and after operation of nuclear reactor safety facility constituting facility Nuclear waste disposal facility of exhaust gas facility to prevent natural disaster consisting of pressurized water double structure reactor facility main body (1) (811e) of nuclear power plant safety control and management production section (811e) constituting nuclear power generation equipment section (811) constituted inside the main body (1) of pressurized water type pressurized water type nuclear waste treatment processing facility having the same exhaust gas outlet and entrance, ;

In the nuclear power plant safety control management production electric power generating unit 811e equipment constituting the nuclear power generation facility unit 811,

(688A), turbine building (688B), control building (688C), auxiliary building (688D) and diesel generator building (1) (688E), nuclear fuel building (688F), and waste building (688G). The reactor structure (688Z) is equipped with nuclear power plant buildings (688Z) The control unit 811f of the electronic control regulating apparatus is equipped with a crane boom 651 and a conveyor 651 of the position movement regulating apparatus construction machine crane 861 while the nuclear power plant of the ocean is equipped with a large- 633) transporting bodies, and electronically controlled regulating devices, each of which is provided with an electronic control regulating device having an operating control of the carrier, An electronic control regulating device construction machine control unit 811f of the nuclear hydropower generation facility 811 constituting the facility main body 1;

In the electronic control apparatus construction machine control unit 811f equipment constituting the nuclear hydropower generation facility unit 811,

Nuclear waste disposal for marine resources (2) Pressurized water type double structure reactor facility (1) Nuclear reactor consisting of internal nuclear waste disposal unit equipped with storage tanks to control the capacity of nuclear waste, Waste Treatment Pressurized water type double structure reactor facility Main body (1) Nuclear power generation facility (811) composed of inside is safe and continuous Treatment of nuclear waste for exclusive use of marine resources Pressurized water type double structure reactor facility Main body (1) Nuclear fuel explosion The barge hull 591 at the upper end of the dual structure holding tank provided with the prevention means is configured in the power generation and production unit 811b of the pressurized water type double structure reactor facility for the marine resource exclusive nuclear waste treatment;

In the barge hull 592 at the lower end of the double structure holding tank constituting the power production and production section 811b,

An electronically controlled screw control unit 811g that includes several nuclear reactor facilities of a nuclear waste disposal nuclear power plant and constitutes an electronic control unit constituting the nuclear power generation facility unit 811;

In the electronic control screw control unit 811g that constitutes the nuclear power generation facility unit 811,

The lag 607, the lug connecting side engaging bolt 603 and the lug connecting side engaging disassembling nut 604 from the holding tank 590 to the disassembling-engaging portable lug-engaging lug-pin connecting side 606 of the block tank position- And the position of the respective adjustment sides are adjusted so that the nuclear plant nuclear waste disposal unit 811a to 810a included in the nuclear power generation facility unit 811 provided inside the main body 1 of the pressurized water double- A sensor valve screw control unit 811l to constitute a nuclear reactor waste water treatment type dual structure nuclear reactor facility;

In the disaster prevention prevention and control unit 811h provided in the nuclear power plant 811,

Nuclear waste disposal for marine resources (2) Pressurized water type double structure nuclear reactor facility (1) Nuclear power plant consisting of internal nuclear waste disposal shielding tanks, equipped with regulating side to regulate nuclear waste capacity, Nuclear waste treatment Pressurized water double structure Reactor main body (1) The nuclear power generation facility (811) inside the barge ship hull (591) at the top of the dual structure holding tank which provided safe and continuous explosion prevention of the nuclear fuel explosive nuclear power plant, In the barge hull 592 at the lower end of the double structure holding tank, the power generation unit is connected to the power production facility constituting the power transmission unit 811d equipment which distributes the nuclear waste to constitute the discharge,

A disaster prevention preventive control unit 811h constituting a connection with an electronic control regulating unit constituted in the nuclear power generation equipment unit 811 by having a double structure reactor facility for a nuclear waste disposal treatment for marine resources only;

In addition to the pressurized water reactor facility constituting the connection with the disaster prevention preventive control section 811h constituting the nuclear power generation facility section 811,

The groundwater and deep sea water capacity supply regulating unit 811i, the common and shared water surface burial regulating unit 811j, A satellite control unit 811k for preventing radioactive contamination of nuclear radiation, and an electronic sensor valve screw control unit 811g for a distribution input device and a marine tunnel transportation device 941 ) And the transport equipment with the control of the position of the construction equipment for the marine source only nuclear waste treatment pressurized water type double structure nuclear reactor facility body (1) is configured to include;

The dual structure block tank dust collector 794 constituting the nuclear power generation nuclear waste processing unit 811a to the electronic sensor screw control unit 811g of the nuclear power hydroelectric power generation unit 811 has a water pressure double- For structural reactor installations,

      A nuclear reactor facility is installed on both sides of the fore and aft ends of a plurality of inner block tanks 596 of the double structure block tank reactor aspirator 794 constituting the nuclear reactor facility in the crane boom section 651 of the position movement control apparatus construction machine crane 861, A crane boom hook 652 and a conveyor 633 to provide a positional control to the carrier of the pressurized water reactor installation,

A nuclear waste disposal unit for a marine resource, a dual structural nuclear reactor facility (1), a double structure block tank dust collector (794) provided with a safe and continuous nuclear radiation leakage control of the nuclear power generation facility (811) A nuclear power plant consisting of

In the double-structure reactor installation for pressurized water treatment for ocean nuclear waste,

A dual structural nuclear reactor facility for the operation of a nuclear water reactor for marine resources, a double structure reactor for nuclear power plants, and a pressurized water double structure reactor facility provided inside the dust collector,

Nuclear waste disposal Treatment of nuclear waste for marine resources constituting double-structure reactor of pressurized water type Pressurized water type double structure reactor facility is provided to freely control the amount of power generated by nuclear power generation while preventing the leakage of nuclear radiation, In addition,

The nuclear waste disposal type double-structure reactor facilities for the nuclear waste disposal for preventing the leakage of the nuclear radiation of the nuclear reactor facility are not mixed with each other, and the nuclear waste located in the upper part of the double structure block tank collector 794 The input of the waste tank 295 into the waste treatment apparatus is provided in the nuclear waste disposal pressurized water double structure reactor facility,

(593,594,595) of marine nuclear power plants constructed inside the main body (1) Double-structure barge hull (591) at the upper end of the holding tank constituting the prevention of sinking of the marine nuclear power plant, And a dual structure barge ship hull (592) at the lower end of the holding tank are included in a marine nuclear power plant,

Nuclear waste treatment dual structural block tank pipe bridge to prevent fuel explosion prevention Marine tunnel transport equipment (941)

Operation of nuclear reactors before and after renovation of pressurized water reactor facilities Operation of nuclear reactors at double-structure barge ship hull (591) equipped with hydro generators in electric power production and production of alternate- A maritime tunnel transport device 941, and a construction machine comprising the marine carriers and constituting the movement control;

As shown in FIG.

Alternatively, the distribution side 705, which constitutes the nuclear waste treatment pipe manufacturing process included in the nuclear power generation facility unit 811,

(593, 594, 595) of several marine nuclear power plants included in the nuclear power generation facility unit (811) constituting the nuclear waste treatment pipe manufacturing process of the distribution side (705) and the floating nuclear power plant Treatment of Nuclear Waste Treatment for Nuclear Hydroelectric Power Plant in Nuclear Hydroelectric Power Plant (1) Treatment of Nuclear Waste Treatment for Nuclear Power Plant in Nuclear Hydroelectric Power Plant Nuclear waste treatment of pressurized water type double structure reactor facility of pressurized water type double structure reactor facility. A dual structure block tank bridge pier 928 and a dual structure block tank bridge 937 constituted by a block tank 598 and a dual structure block tank precipitator 794 for controlling the leakage of the nuclear activity of the connection side, Tank tube bridge (937) Includes the nuclear waste disposal system of pressurized water type double structure reactor of nuclear power plant (672) constituting disconnection side of connection side,

In the pressurized water reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having the double structure block tank dust collector 794 on the distribution side 705 constituting the nuclear waste disposal pressurized water double structure reactor facility of the nuclear power plant 672,

(593, 594, 595) hull of a marine nuclear power plant is connected to the distribution side (705, 595) hull by means of steel plates (597) of high-strength stainless steel constituted by the nuclear waste disposal pressurized water double- The double structure block tank 598 constituting the double structure block tank dust collector 794 is provided with nuclear waste treatment by the nuclear reactor facility,

An inner block tank 596 located at the center of the double structure block tank 598 constituting the nuclear waste treatment by the nuclear reactor facility and an outer block tank 599 located outside the inner block tank 596, (794) double-structure block tank dust collector (794) with cutting structure and welding process at the industrial site in the form of structure.

(600) for a block tank connected to a double structure block tank pipe bridge (937) device composed of a pressurized water double structure reactor facility nuclear waste treatment at one side of the double structure block tank dust collector (794) A dual structure block tank dust collector (794) provided with a second auxiliary steel plate (601) as a connection structure device between the cutting process and the welding process; and a connection structure at the connection side to the aft and stern connection position of the equipment (794) Includes a large flange (614) that constitutes waste treatment,

A large flange 614 positioned as a connection structure at a joint portion of a connection flange joining portion processing hole 615 of a large flange constituting a large flange 614 of a pressurized water double structure nuclear reactor for processing nuclear waste, (1) A double structure nuclear reactor facility (1) for treatment of nuclear waste for marine resources, while providing a pressurized water reactor facility manufacturing and processing process for nuclear waste of a nuclear hydroelectric power plant having a double structure block tank dust collector (794) The double structure block tank dust collector 794 on the distribution side 705 of the nuclear waste processing pipe manufacturing process of the nuclear power generation equipment unit 811 constituting the inside of the nuclear waste treatment facility is operated so as to operate the nuclear power plant with the pressurized water double- ;

In the closure iron plate 625 facility of the nuclear waste-treated pressurized water double structure reactor facility having the double structure block tank dust collector 794 on the distribution side 705 constituting the nuclear power plant operation,

(794) facilities on the distribution side (705) of the pipe making process constituting the stopper steel plate (625) equipment of the pressurized water type double structure reactor facility, and the steel plates (597) of the high- And a conveyor 633 having a ceiling crane 861 and a conveyor 633 for passing the double structure block tank dust collector 794 to the conveying process with a bending process and a cutting and conveying process sequence through the marking process, And a high-strength stainless steel plate 597 is provided with a foaming bending process machine provided with a foaming and a foaming and bending processing machines provided at each thickness of the high-strength stainless steel plate 597 constituting the equipment, , A V-type folding (b), and a round folding (c)

A double structure block tank dust collector (not shown) on the distribution side 705 of the nuclear waste processing pipe manufacturing process of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 constituting the bending process, (794), comprising a pressurized water type double structure reactor installation of a nuclear water hydropower plant, and a pressurized water double structure reactor installation of a nuclear waste disposal system;

A bending type press braking type bending machine, a bending type roller bending machine and a bending type three bending roller bending machine, which are constituted by a pressurized water double structure reactor facility for nuclear waste treatment, A bending and bending machine of a high-strength stainless steel plate 597 is provided to bend and cut a pressurized water type double structure reactor facility,

The overhead crane 861 and the conveyor 633, which are fed into the conveying process constituting the bending and cutting process of the pressurized water type double structure reactor installation,

The bending joint portion of the high-tensile stainless steel plate 597 constituting the bending and cutting process of the pressurized water type double structure reactor equipment is provided with a transporting body for controlling the welding position, and a welder, a cutting tool, a drill lathe and a cutter, Disassembly of the nuclear waste treatment plant with the welding process at the banding joint of the stainless steel plate (597) Nuclear waste treatment for marine resources Disposal of the nuclear waste treatment plant manufacturing process of the nuclear power plant (811) Side dual-structured nuclear reactor with a double structure block tank cleaner 794 on the side 705;

A nuclear waste disposal pipe manufacturing process distribution side 705 of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 on a distribution side 705 constituting a nuclear power plant with a pressurized water double structure reactor facility for nuclear waste treatment, In the pressurized water reactor facility of the United States,

A large structural block tank 598 composed of the pressurized water type double structure reactor facility, a large flange 614 as a connecting portion of a large flange 614 located at a fore and aft connecting portion of the dust collector 794, (625) is provided as a pressurized water type double structure reactor facility connection structure on the pipe manufacturing process distribution side (705) of the manufacturing and processing lathe process,

In the inner block tank 596 constituting the pipe manufacturing process distribution side 705 of the pressurized water type double structure reactor facility and the outer block tank 599 located outside the inner block tank 596, 794) Nuclear waste treatment plant internal block tank (596) with the manufacture of the manufacturing process facility In a pressurized water dual structure reactor installation,

The welding process of the pressurized water type double structure reactor facility includes a ceiling crane 861 and a conveyor 633 which are fed into the outer block tank 599 to control the positional movement of the pipe manufacturing equipment, The welding process of the reactor facilities is provided with a welding machine,

The double-structure nuclear reactor of the pressurized water type double structure nuclear reactor facility is provided with a double structure cylindrical connection structure constituting the welding machine for the welding process of the pressurized water type double structure reactor facility. ) Nuclear Waste Treatment Tube Manufacturing Process Dual Structure Block of Distribution Side (705) Nuclear Waste Treatment with Marine Dust Collector (794) Nuclear Waste Treatment of Pressurized Water Type Dual Structure Reactor Facilities Including nuclear waste disposal with reactor facilities,

In a pressurized water dual structure reactor installation 705 of a nuclear waste treatment plant manufacturing process distribution side of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 on a distribution side 705 constituting the nuclear waste treatment,

A double structure block tank dust collector 794 composed of the pressurized water type double structure reactor facility, a plurality of outer block tanks 599, a first auxiliary shape steel tank 600 for a block tank, A second auxiliary steel plate for a block tank 601, a vertical partition wall 605, a horizontal partition wall 609 and a steel beam 149. The first auxiliary steel pipe 600 for the block tank and the second auxiliary steel plate And the horizontal barriers 609 and the steel beams 149 and the snap holes 602 and the diaphragm manholes 610 are connected by a computer laser cutter to a pressurized water double structure reactor facility Respectively,

The fifth protective walls formed on the outer wall surface of the fourth protective wall containment vessel 808 are provided with the nuclear waste for the offshore source, Processed Pressurized Water Type Double Nuclear Reactor Equipment Nuclear power generation equipment part 811 constructed inside the main body 1 Nuclear waste treatment pipe manufacturing process Nuclear waste for marine resources having dual structure block tank dust collector 794 on the distribution side 705 The pressurized water type dual structure reactor facility constitutes nuclear power plant operation;

In the reactor facility of the nuclear waste treatment plant manufacturing process distributing side 705 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 constituting the nuclear power plant with the pressurized water type dual structure reactor facility,

The vertical partition wall 605 having the partition wall manhole 610 of the double structure block tank dust collector 794 constructed by the pressurized water type double structure reactor facility and the horizontal partition wall 609 are provided with the traffic device hydraulic cylinder door 624, And the step (s) 631 are provided by welding processes,

The above-mentioned transportation system hydraulic cylinder door 624 and the emergency stairs and the steps 631 are provided with marine tunnel traffic devices for distributing the double structure block tank dust collector 794 constituting the welding process, Nuclear Waste Treatment Plant Consisting of Nuclear Power Plant (811) Consisting of a Water Type Double Structure Reactor Facility (1) In the process of manufacturing a nuclear waste water treatment plant inside and outside of a marine tunnel transport device at the distribution side (705) Nuclear Power Plant Alternative Power Generation A nuclear power plant with dual structure block tank dust collector (794) equipped with hydropower generators for power generation and production constitutes a nuclear power plant with a pressurized water double structure reactor facility;

A double structure reactor (794) of a distribution side (705) constituting a nuclear power plant with the pressurized water type double structure reactor installation, and a double structure block tank collector (794) In the facility,

A double structure block tank dust collector (794) composed of the pressurized water type double structure reactor facility, a bending type bending machine of a reactor facility, a press brake type bending machine, a bending type roller bending machine, Bending type roller bending machines, bending and folding processes of high-strength stainless steel plate (597), and a pressurized water type double structure reactor facility is provided with a double structure block tank reactor facility,

In the stopper plate 625 dust collector (794) equipment constituting the pressurized water double structure reactor facility with the double structure block tank reactor facility,

A double structure block tank 598 comprising a cylindrical egg-shaped coupling structure constituting a dust collector 794 of the pressurized water type double structure reactor facility and constituted by a cap-tight coupling assembly of a double structure block tank 598, Tank 596 and a plurality of outer block tanks 599. The large flange to the dust collector 794 facility, which comprises machines of the welding process at the upper and lower ends of the block tanks, respectively, is provided with a bolting connection device, (1) of the pressurized water type double structure reactor facility (1) of the nuclear waste disposal dedicated for offshore source, which is equipped with marine tunnel traffic apparatuses for distributing the double structure block tank dust collector (794) ) Nuclear waste treatment plant in the manufacturing process Distribution side (705) Marine tunnel Inside and outside of the traffic system Renewal system Nuclear power plant connection structure Nuclear power plant Alternative power generation Manufacturing configuration operations to fulfill the original reference made of a pressurized water nuclear waste disposal facility for double structure reactor of a nuclear power plant comprising a double tank structure block dust collector (794) and;

In the pressurized water double structure reactor installation on the distribution side of the nuclear waste processing pipe manufacturing process of the nuclear power plant having the double structure block tank dust collector 794 on the distribution side 705 composed of the pressurized water type double structure reactor facility,

The double structure block tank (794) reactor double structure block tank (598) of the pressurized water type double structure reactor plant The welding process assembly of the bolting coupling assembly and the stopper plate (625) is provided with a stopper plate ) Double-structure block-type tank dust collector (794) for explosion-proof type of multiple reactor facilities composed of welding process assemblies consisting of a double-structured pressurized water reactor (1) The nuclear waste disposal and dispensing apparatus and the nuclear fuel explosion control apparatus are provided as dispensing and inputting apparatuses,

A double structure block tank dust collector 794 which is provided as a connection structure for a nuclear power plant inside and outside the marine tunnel transportation device on the distribution side 705 of the nuclear waste treatment pipe manufacturing process composed of the pressurized water type dual structure reactor facility, To construct nuclear reactors with double-walled pressurized water reactor facilities for the nuclear waste disposal of nuclear power plants;

In a pressurized water double-structure reactor installation for nuclear waste disposal of a nuclear power plant 811 of a nuclear power plant having a double structure block tank dust collector 794 on a distribution side 705 constituted by the pressurized water type double structure reactor facility,

(593,594,595) composed of a pressurized water type double structure reactor facility, and the installation position of the nuclear hydroelectric power plant (811) is set to a hydraulic cylinder machine Respectively,

The construction of the hydraulic cylinder machine is equipped with the elevator control system for flood control, the mooring device formed on the barge preventing sinking type, and the pressurized water double structure of the nuclear power plant which regulates the position of the nuclear power plant, It is designed to operate nuclear reactors that prevent explosion of reactor facilities,

In the pressurized water reactor facility for the nuclear waste treatment of the nuclear hydroelectric power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 on the distribution side 705 constituted by the pressurized water double structure reactor facility,

In the nuclear power plant 811 composed of the pressurized water type dual structure reactor facility,

A double structure block tank dust collector (794) is installed at a marine nuclear power plant to prevent the explosion of several reactor facilities in the nuclear fuel chamber to prevent environmental pollution caused by nuclear waste constituting the nuclear power generation facility unit (811). In order to secure the safety of the nuclear power generation facilities and to ensure the renovation of the reactor facilities by continuous operation, the nuclear power plant was installed and the double structure block tank dust collectors (794) of the floating nourishment readers of several marine nuclear hydroelectric power plants (593,594,595) (804) of nuclear power plant with dual structure block tank dust collector (794) equipped with hydraulic power generators for the production and production of alternate-capacity alternating-current power generation. City Nuclear Power Plant Connection Structure Nuclear Waste of Nuclear Waste Disposal Facility With the nuclear fuel cycle of the nuclear fuel industry, The nuclear waste generated from the nuclear waste water treatment plant 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 constituting the inside of the main body 1 of the pressurized water double- Operation of pressurized water type double structure reactor;

.

Alternatively, the nuclear fuel of the nuclear waste fuel industry comprising the pressurized water type double structure reactor facility of the nuclear waste treatment of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 In the cycle,

(593,594,595) Nuclear power plant (672) of several marine nuclear hydroelectric power plants constituting the nuclear fuel cycle of the pressurized water type double structure reactor facility nuclear fuel industry (672) and double body nuclear reactor equipment body A nuclear waste fuel processor 683 of the nuclear waste fuel industry of the nuclear waste processing unit of the nuclear power generation facility 811 of the nuclear power plant having the dual structure block tank dust collector 794 of the distribution side 705 constituted by the nuclear fuel waste processing unit,

Uranium 812, which constitutes the nuclear fuel cycle of the pressurized water dual-structure reactor fuel plant industry, provides for the processing of nuclear fuel 683 at the reprocessing plant 228,

In the conversion plant 229 constituting the nuclear fuel cycle of the nuclear fuel industry,

The fuel is supplied to uranium fluoride 812 and the nuclear fuel cycle of the nuclear waste fuel plant of the nuclear waste treatment facility is provided to transfer the nuclear fuel 683 to the concentrator 230,

Providing a conversion at uranium dioxide conversion plant 229, uranium fluoride 812 constituting the nuclear fuel cycle,

And a fuel rod (689) constituting processing in the state of a pellet (683) constituting a pressurized water double structure reactor plant fuel cycle,

Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,

The fuel rods 689 are prepared at the conversion / processing factory 231,

The reprocessing fuel rods 689 constituting the nuclear fuel cycle,

Again, it includes a forklift carrier that constitutes a transfer of nuclear fuel 683 to the nuclear power plant 672,

The nuclear power plant 672, the reprocessing plant 228, the concentration plant 230 and the conversion plant 229, the conversion and processing plant 231 constituting the pressurized water type double structure reactor plant nuclear fuel cycle,

(705) and a nuclear waste (224) treatment facility of the nuclear fuel industry located at the top of the floating deck deck deck of the sinking prevention type of the sinking prevention type of 40 m above the sea surface of the sea, and the inside and outside of the nuclear power plant 672 Including the fuel cycle of the pressurized water double-structure reactor facility nuclear fuel industry to prevent nuclear radioactivity pollution,

A dual structure block tank of distribution side 705 constituting inside of pressurized water type double structure reactor facility main body 1 for treatment of nuclear waste 224 constituting said pressurized water type double structure reactor facility fuel cycle, The fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear power generation facility 811 of the nuclear power plant having the dust collector 794 is provided,

(593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear fuel cycle. Mooring devices and diving buoyancy control devices and nuclear waste disposal devices in the nuclear power plant (672). Disassembly and disassembly is performed at the marine vessel manufacturing plant of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 at the nuclear waste disposal facility distribution side 705 of the reactor facility at the hydroelectric power generation facility 811 A nuclear fuel cycle of the nuclear waste processing facility of a possible connection structure and a nuclear fuel cycle of the nuclear fuel industry;

In the nuclear fuel cycle of the nuclear waste fuel industry constituting the nuclear waste disposal apparatus of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation by the pressurized water reactor facility,

The double structure block tank dust collector 794 on the distribution side 705 of the nuclear waste treatment pipe manufacturing process composed of the nuclear power generation facility unit 811 constituted inside the pressurized water double structure reactor facility main body 1 for the marine source exclusive nuclear waste treatment, Nuclear waste of the nuclear waste disposal system to operate the nuclear plant of the reactor facility To construct the nuclear fuel cycle of the nuclear fuel industry, it is necessary to construct the nuclear power plant before and after the operation of the nuclear power plant. A nuclear waste disposal pipe manufacturing process consisting of a nuclear power generation facility unit 811 constituted by the inside of the structural reactor facility main body 1, and connecting structures having remote control rods for remodeling inside and outside of the traffic apparatus on the distribution side 705 (794) Nuclear waste treatment plant manufacturing process The pressurized water type nuclear reactor equipment is constructed to operate the nuclear power plant;

In the nuclear power plant 811 of the nuclear power plant operating within the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

A nuclear power plant having a double structure block tank dust collector 794 at a distribution side 705 of a nuclear waste processing tube manufacturing process constituting the nuclear power generation facility unit 811, A nuclear waste disposal apparatus connected to the nuclear waste disposal marine tunnel transportation apparatus 941 and a nuclear waste disposal processing type dual structure nuclear reactor facility main body 1 having a position movement control with nuclear waste disposal transportation carriers, It is equipped with internal construction machinery and hydroelectric generators constructed in the production and production of alternate generation electric power for nuclear power plants to supply nuclear power plants with nuclear power plants equipped with dual structure block tank dust collectors. &Lt; / RTI &gt;

(705) constituting the nuclear waste treatment pipe manufacturing process included in the nuclear power generation facility unit (811) constituted inside the pressurized water type double structure reactor facility body (1) constituting the pressurized water type reactor facility, )silver,

(593,594,595) of several marine nuclear hydroelectric power plants constituting the pressurized water type double structure reactor facility and individual pressurized water type of the nuclear power plant constituted of the inside of the pressurized water double structure nuclear reactor facility main body (1) A double structure block tank bridge pier 928 and a dual structure block tank bridge 937 constructed of a nuclear waste treatment dual structural strut block tank 590 and a nuclear waste treatment dual structural block tank 598 of a dual structure reactor installation, A dual structure block tank dust collector 794 for controlling the nuclear radiation leak at the connection side,

And a pressurized water double structure reactor facility for nuclear waste disposal of a nuclear power plant 672 constituting a disassembly coupling side connection side of a double structure block tank bridge 937 constituting the double structure block tank precipitator 794,

The fuel cycle distribution side (705) of the nuclear fuel industry located at the top of the deck deck of a flood prevention type barge deck 40 m above sea level in the ocean; and

Nuclear waste (224) treatment and distribution facility, comprising a nuclear fuel cycle of a nuclear fuel pollution prevention nuclear fuel pollution reactor, which is comprised of inside and outside of a nuclear power plant (672)

A double structure block tank dust collector 794 on the distribution side 705 constituting the inside of the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste 224 constituting the fuel cycle, The fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal unit of the nuclear power generation facility (811) of a nuclear power plant is provided in the pressurized water double structure reactor facility,

(593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear fuel cycle in the pressurized water type double structure reactor facility, and the mooring device, diving buoyancy control device and nuclear waste treatment device carrier and reactor facility The nuclear power plant 811 of the nuclear power plant having the double structure block tank dust collector 794 of the nuclear waste treatment facility distribution side 705 of the reactor facility at the nuclear power generation facility 811 before and after the safe operation of the reactor facility, The reactor is equipped with a nuclear fuel cycle of a nuclear waste treatment facility consisting of a connection structure capable of disassembling at a manufacturing plant, and is constructed to operate the nuclear power plant with a pressurized water type double structure reactor facility for nuclear waste treatment;

The nuclear waste fuels constituting the nuclear waste disposal apparatus of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 constituting the nuclear power plant operation by the pressurized water type double structure reactor facility, In the nuclear fuel cycle of industry,

(811) consisting of nuclear reactor facilities of nuclear and marine nuclear power plants constituting the nuclear fuel cycle of the nuclear waste fuel industry, and nuclear water reactor type double reactor nuclear reactor facility (1) Nuclear waste in the nuclear waste treatment plant Nuclear waste in the nuclear waste processing unit that constitutes the fuel cycle of the nuclear fuel industry Nuclear power plant operation in the nuclear power plant constituting the fuel cycle of the nuclear fuel industry A post-configuration step; and

Nuclear waste disposal for marine resources Nuclear waste treatment plant consisting of pressurized water type double structure reactor facility (1) Nuclear power generation facility consisting of internal nuclear power generation facility (811) Remodeling inside and outside of transportation device at distribution side (705) (794) Nuclear waste treatment plant manufacturing process comprising pressurized water reactor plant with connection structure with control roast;

A nuclear power plant is constructed by constructing a holding block tank (590) constituted by the sea depth by a pressurized water reactor facility in the unit of the depth of the sea surface (SLL)

(593, 594, 595) nuclear power plants (672) of several offshore nuclear hydroelectric power plants of the ocean in the nuclear waste treatment section (811a) constituting the nuclear power generation facility section (811) (1) Nuclear Reactor Installed in the Nuclear Power Plant Operation In the rotary table lathe machine 908 of the drilling machine,

A boom boom of a crane boom of an overhead crane 651 located at the upper end of the drilling machine room with a crude oil at the time of crude oil connected to a plurality of pipe racks 854 constituting a rotary table lathe machine 908 of a drilling machine, A boom hook (652) and a wire rope (19) are connected to each other,

The pipe rack 854 in the excavation preparation standby state constituting the mooring unit in the crude oil double-wall reactor-equipped double-walled reactor installation,

A plurality of pipe racks 854 provided as connection structures of the sea level lower end SLD of the sea level SLL constituting the pipe rack 854,

The core drill 917 constituting the pressurized water type dual structure nuclear reactor facility pipe rack 854 is,

A double-structure reactor installation 913 of a pressurized water type double structure reactor core 917 is provided with a drilling hole 936 while a drill 917 is installed at an excavation hole 936 provided at a joint structure with a core drill 917, A construction machine operation connection structure mounted on each of the strut block tank upper barge hulls provided with a crank 846 and provided as a connection structure at the position of the hydraulic cylinder machine 624 and the key bed 616, Prevention line 634 of the mooring unit that constitutes the line distribution input,

The rotary table lathe machine 908 of the crude oil-boring drilling machine, which is located in the connection structure inside the drilling machine machine room constituting the lower end of the overhead crane 651 constituting the sinking prevention retention line 634,

And a plurality of hydraulic cylinder keys 623 for drilling located at the center portion opposite to the circular table line constituting the rotating body of the rotary table lathe machine 908,

And a plurality of hydraulic cylinders 623 for drilling, which are connected to each other at a line center portion of the line, and are provided with several keys 623,

A rotary table lathe machine 908 of a drilling machine for drilling oil for crude oil, constituting the position shift control of the line-opposing central part, is moved to a position opposite to the center line position, and the position of the connection structure And a rotary table lathe machine (908) for connecting the rotary table lathe,

A plurality of pipe racks 854 are continuously provided at a central position by a rotating body connection structure constituting the rotary table lathe machine 908, and several pipes (not shown) provided at a point of a crude oil borehole 936, And has a rack 854 as a connection structure and has a connecting structure positioned as a choke bar position connecting structure at the time of crude oil so as to have a crude oil bore hole 936 as a rotary shaft core drill 917 for excavating a hole of a crude oil bore hole 936 A nuclear waste disposal reactor type reactor nuclear plant operating apparatus of a nuclear waste disposal unit 811a constituted inside a main body 1 of a pressurized water double structure reactor facility for marine nuclear waste treatment,

A helicopter stop 619 positioned as a deck deck upper center peripheral connection structure constituting peripheral equipment of the block steel towers 116 of the nuclear waste disposal apparatus constituting the nuclear power plant is provided as a pressurized water reactor facility for nuclear waste disposal and,

A satellite launch pad 643 and a space rocket launch pad 646 of a space rocket 612 are provided to provide a positioning position for a safety control room left side connection structure constituting a deck deck peripheral equipment of the block pylon 116 A nuclear waste disposal reactor facility nuclear reactor operating device of the nuclear waste disposal unit 811a constituted around the satellite launching platform 643 and the space rocket launching platform 646 is provided as a pressurized water double structure reactor facility for nuclear waste disposal,

The nuclear reactor plant of the nuclear power plant constituting the upper part of the deck deck of the block pylon 116 is provided with the satellite launching platform 643 and the space rocket launching platform 646, And the natural loess soil 158 is connected to the upper part of the floating deck deck deck, which is located at the connection structure, with the submarine line wiring 946 as a connecting structure constituting the inside of the deodorizing microorganism 921, , &Lt; / RTI &

And a natural loess soil (158) of a loess mixture which generates toothpaste-form soap bubbles mixed with a fire extinguishing control product cooling water composed of a connecting structure provided at the top of a deck deck of the block steel towers (116) by a mixer machine, (921) breeding prevention,

The natural loess (158) of the loess mixture, which generates soap bubbles in the form of a dentifrice mixed with a fire control control supply coolant with a mixer machine, is fed to the top of the floating deck deck deck comprising the loess mixture (158) Respectively,

The countermeasure for preventing harmful red tide in the seabed constituting the harmful tidal microorganism 921 to prevent the propagation of the harmful tidal microorganisms 921 occurring in the seabed constituting the natural loess soil 158 of the loess mixture at the upper deck deck of the block pylon 116,

A natural yurt 158 is inserted into the yatch basket 951 of the harmful redeye suction dust collector constituting the harmful red tide to prevent propagation of the harmful tide, and the yatch basket 951 constituting the input of the natural loess 158 according to the depth of the sea floor, / RTI &gt;

The harmful redeye microbes 921 are stored by the harmful redeye suction dust collector constituting the greeneyed basket 951 so that the harmful redeye microbes 921 are removed by the natural yellow soil 158 inside the greeneyed basket 951, The reactor is equipped with a pressurized water reactor,

At the bottom of the body bottom constituting the removal of the harmful tidal microorganism (921), the natural loess soil (158)

The harmful tidal microorganism 921 is replenished with natural loess soil 158 on the seabed by a moving tackle winch 137 constituting a position control,

A seesaw crane boom girder 942 of a tower crane for substituting for a quarrel constituting the tuna winch 137, a wire rope 19 and a wire rope chain 915, 135,

In the nuclear power plant (811) of the reactor facility of nuclear power plant which is composed of nuclear power plants of nuclear power plants of the land and sea and nuclear power plant of the nuclear power plant, Waste Treatment Tube Manufacturing Process Dual structure block tank (794) on the distribution side (705) Nuclear power plants constituting the operation of the nuclear power plant Several nuclear reactors before and after the failure,

An apparatus for constructing a nuclear reactor with a nuclear fuel cycle of a nuclear fuel industry connected to a nuclear waste disposal marine tunnel transportation device 941 to operate a nuclear reactor reactor with a pressurized water reactor for nuclear waste treatment,

A construction machine equipped with nuclear waste disposal trucks,

Nuclear Reactor Alternative Power Generation Nuclear Reactor Dual Reactor Reactor Facility with Nuclear Fuel Cycle for Nuclear Fuel Industry and Equipments for Removal of Harmful Reduced Microorganism (921) in Nuclear Waste Treatment;

As shown in FIG.

In order to solve the above-mentioned problems, the present invention provides a dual structure nuclear water reactor for marine nuclear waste treatment,

[0003] In the conventional distribution and dispensing apparatus for a reactor facility of a nuclear power plant,

It is composed of boiling water reactors and pressurized water reactors that use water in general, and power reactors are mainly used in light water reactors. Nuclear power plants equipped with pressurized water reactors in boiling water reactors and multipurpose hot gas paths and new type Nuclear power plants equipped with high-speed multiprocessor reactor facilities are connected to the land and the island area by the conversion road. As a result of the natural occurrence of typhoons, earthquakes, tsunamis, forest fires, ash and volcanic ash before and after the volcanic eruption This often indicates a situation in which reactor facilities are detonated from conventional natural disasters and nuclear power plants are shut down.

As shown in FIG. 105, during the operation of the conventional nuclear power plant in the conventional nuclear power plant, when each of the existing nuclear reactor installations is close to each other The chain explosion of nuclear fuel has a great influence on the safety of nuclear power plants.

Therefore, it is more urgent than ever to establish a double-structure nuclear reactor with a pressurized water treatment system for nuclear waste disposal for marine resources

More particularly, the present invention relates to a dual structure nuclear reactor waste disposal facility for marine resources, and more particularly, to a dual structure nuclear reactor disposal system for nuclear waste disposal in a nuclear hydroelectric power plant, A double structure storage tank for connecting the individual parts of the nuclear waste disposal shielding device provided in the nuclear reactor facilities, a tunnel for the cooling water and the mixture of the yellow soil for the fuel explosion prevention control article, and a construction machine for the anti- Several tugboats for marine nuclear power plants at sea and several wire ropes and shackles for non-sinking rescue ships were installed as floating structure barges, which are double structure barges for nuclear waste operation for nuclear power plants, To provide transportation of dust collector connection structures, and to control nuclear waste disposal for continuous operation of nuclear power plants. The present invention relates to a double structure reactor installation for pressurized water treatment for a nuclear waste having a double structure block tank dust collector,

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a marine nuclear hydroelectric power plant having a double structure block tank dust collector constituting a dual structure nuclear water reactor,

Dual structure for the treatment of nuclear waste at the nuclear power plant of the world Nuclear waste structure Double structure block type tank Dust collector or double tube structure Capsule type Dual structure storage tank provided in several reactor facilities and the same parts of nuclear waste treatment as the shielding It is equipped with an electric car that consists of a tunnels and a marine tunnel transportation system, which is a mixture of loess mixture that mixes cooling water of explosive control material of nuclear fuel to be connected and mixer machine. It has construction equipment in river estuary and prevention of sinking in the sea. A double structural barge line of a double structure reactor with a nuclear waste treatment for marine resources moving a floating structure barge of several marine nuclear hydroelectric power plants is provided with double structure block tank dust collector carriers,

A dual structure block consisting of several pumps and double structure pipes and valves and generators connected to the double structure block tank dust collector connection structure to constitute a double structure reactor installation for pressurized water treatment of nuclear waste for exclusive use of marine resources, For the treatment of nuclear waste at marine nuclear power plants with tank dust collectors,

Nuclear waste treatment, which connects nuclear hydroelectric power plants and marine nuclear hydroelectric power plants, from a global site to the ocean, is equipped with double structure block tank dust collectors, which connect several pumps, dual structure pipes, valves and generators A dual structural block reactor which constitutes a pressurized water reactor type nuclear reactor reactor that controls radioactive leaks is composed of a dual structure nuclear reactor reactor with a nuclear waste treatment for a marine source having a dual structure block tank dust collector,

Nuclear power generation Alternative power generation Prevention of sinking of parts of hydroelectric power generator for wind power generator and thermal power generator for power generation Wire rope shackle Construction Crane for constructing machine Crane for marine resources such as marine resources Handling of pressurized water double structure reactor facility And construction machine cranes are provided for the submarine landing,

In the Nuclear Hydroelectric Power Plant Division, there is also a tunnel, which is a mixture of loess mixture that mixes the cooling water of control product preventive control equipment for the nuclear waste disposal with the mixer machine, and distributes it to the distribution side Nuclear waste treatment Pressurized water type double structure reactor facility Power supply line with transmission line connection inside the main body Nuclear waste treatment device Double structure Block tank pipe Bridge Marine power supply to the area with transmission line connection to the tunnel communication device The nuclear waste treatment for marine resources while resuming the double-structure nuclear reactor facility equipped with dual-structure block tank dust collector consisting of pressurized water reactor double-structure reactor facility,

A power generation and production unit that constitutes alternative power generation to hydroelectric power plants for wind power generators and thermal power generators for alternative generation power generation before and after shutdown of nuclear power plants and a transportation transportation unit for construction equipment that moves construction equipment by double structure barges, Ships, and space rockets, ships are composed of nuclear waste with short half-life, space rockets and satellites are equipped with a nuclear waste power transmission unit that distributes nuclear waste with a long half-life and discharges to the outside of the atmosphere, Control and management for safe operation of nuclear power plant with sensor, electronically controlled control device for electronic control with electronically controlled electronic control device, vertical control of hull and holding tank, A screw adjuster which is in combination with an electronic control adjuster for the disinfection, and a loess mixture which mixes the cooling water with a mixer machine, And a hydraulic excavator for supply of cooling water to regulate the supply of deep water water, a control unit for groundwater and deep seawater capacity adjustment, a control unit for common land and water surface treatment, a satellite for treatment of nuclear waste, Space development with space rocket And a double structural block tank dust collector constituting an electronic sensor valve screw control unit for adjusting the height of the double structure barge hull with an electronic sensor valve, Regarding a dual structure reactor facility,

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a marine nuclear power plant equipped with a pressurized water double-structure reactor facility for marine nuclear waste treatment,

Marine Nuclear Hydroelectric Power Plant for Safe Operation of Nuclear Reactor Facilities of Marine Nuclear Hydroelectric Power Plant from Stormy Waves Wave is installed at the upper part of floating deck hull deck deck (SDU) at the upper 40M sea level (SLL) With a 0.5km spacing distance and a pillar bridge block tank bridges at one point and a dual structural block tank deck constructed on a floating deck hull deck deck Marine source with nuclear waste treatment Pressurized water type double structure reactor with marine facility It constitutes a nuclear hydroelectric power plant,

(SDL) upper part of sea level surface (SLL) equipped with hull deck deck with marine nuclear hydroelectric power plant equipment Double structure block tank bridge bridge with sea bottom (SDL) Deck deck upper deck (SDU) Emergency evacuation of marine nuclear hydroelectric power station and sailing vessel Double-structure barge at the top of holding tank for disaster relief shelters due to disaster earthquake Guided rails located on the upper part of ship's hull deck (SDU) to the left and right of deck deck And a crane (861) with a capacity of 5000 tons is placed on the deck deck guide rail to construct an emergency evacuation shelter for sailing vessels, and the production power of the hydropower generator and the speed change of the algae And the hydro-electric power generation devices having the size adjustment of the discharge pipe, It has a power transmission unit that has power supply from the power production and production department of the nuclear hydroelectric power plant with the connection of the substations to the power line and transfers the power to the industrial site. It supplies electric power production to each region of the world, It is provided for a marine nuclear hydroelectric power plant equipped with a dual structure reactor facility,

The above-mentioned nuclear waste treatment for marine resources, the pressurized water type double structure reactor facility, the power supply line having the transmission line connection inside the main body, the nuclear waste treatment device, the double structure block tank bridge, the area having the transmission line connection to the marine tunnel transportation device , The Nuclear Waste Treatment for Offshore Nuclear Power Plant is being resumed. In the marine iron structure composed of the pressurized water type dual structure reactor facility, all the conventional war materials from the nuclear bombs are to be disposed together with the United Nations Security Council member to dispose of nuclear bombs , And on land, constitute a provision that nations can not possess nuclear materials for any reason,

Nuclear waste disposal for marine resources Nuclear power plants located around marine nuclear power plants constituting pressurized water type double structure reactor facility are composed of inside of double body nuclear reactor facility of pressurized water type nuclear waste treatment for marine resources for prevention of war and terrorism. Nuclear waste treatment connection structure Double structure block tank pipe bridge Marine tunnel transportation equipment,

Nuclear waste disposal of satellite and space rocket to prepare nuclear waste disposal device by satellite launching platform and space rocket launching base is arranged and nuclear weather disposal observation weather forecasting observatory for weather forecast is announced, Earthquake, tsunami, wildfire, yellow dust and volcanic eruptions. Prevention of natural disasters by weather forecasting,

In the marine tunnel traffic device connected with the flood control device that constitutes the prevention of the flood drought, it receives the weather forecast of the weather forecast observation station for the weather forecast observation, and sends the water stored in each dam at the time of the flood to the sea, The water reservoir is constructed at each normal dam,

Submarine line injection nozzle connection and submarine line injection nozzle constituting the above-mentioned marine tunnel transportation device electric train are provided, and nuclear waste disposal double structure block tank marine tunnel transportation device is provided, and production electric energy is supplied to the flood control device Respectively,

In a dual structure nuclear reactor waste water treatment pressurized water type dual structure reactor equipped with a dual structure block tank dust collector,

Space science equipment and several sonar equipped with a number of sonar installed at the bottom of the ocean, space science development equipment and a number of sonar to receive photos of the results of the deep seabed mineral resources and natural gas energy resources to detect and then oil It is also necessary to construct energy supply facilities for the production of deep-sea mineral resources and natural gas energy resources by supplying energy drilling equipment, and to supply the production power of wind power generators and hydro generators with transformers and transmission lines of substations, Block tank bridge, marine tunnel transport equipment, and a battery for safe operation of the traffic equipment replacing the marine vessel to provide power energy to the marine nuclear waste water source Treated water reactor type dual structure reactor facility,

In order to prepare for the shutdown of the nuclear reactor and the before and after the explosion of the nuclear reactor, which constitute the provision of the above-mentioned electric power energy, a dual structure block tank dust collector was installed on the circumference of the existing reactor 4th wall- A double structure block tank dust collector is formed on the periphery of the fourth walled container to prevent explosion of the facility,

In the barge, which is a marine nuclear hydroelectric power plant constituting the double structure block tank dust collector, the installation position of the nuclear power generation facility located at the upper 40m above the sea surface excluding the weather condition restriction as a disaster prevention device is set in anchor and anchor chain of the mooring device. And the pump and valve of the drilling machine and the buoyancy control device are equipped with the diving control pylons to control the position of the marine nuclear hydroelectric power plant at the upper 40m above sea level to dispose of the effect of earthquake and tsunami as a disaster prevention device. The pressurized water reactor facility is provided in the anchor and anchor chain of the mooring device as a docking bed for the diving control in the pump bed and the pump and valve of the drilling machine and the buoyancy control device,

In the anchor and anchor chain of the mooring unit, there is a key bed, a drilling machine, a pump of a buoyancy regulating device, and a buoyant control rod for controlling the installation position of a marine nuclear hydroelectric power plant, A double structure block tank which constitutes a reactor plant of a power plant, and a mixture of a cooling water of nuclear fuel explosion prevention control products with a mixer machine, constitutes the cessation of the explosion of the nuclear reactor facility, Waste disposal Prevention of nuclear fuel explosions from marine nuclear hydroelectric power plants with pressurized water double structure reactors,

Dual structure block tank to control nuclear fuel radiation leakage to prevent explosion of reactor facility in nuclear fuel chamber Treatment of nuclear waste only for ocean source with dust collector Dual pressure nuclear reactor facility for pressurized water type Half life from nuclear waste reprocessing process before and after safety operation Longer half-life with long-term cooling for permanent disposal of nuclear wastes for many thousands of years is the result of thousands of years of dual-structure block tank dust collectors for cooling the nuclear waste that constitutes a permanent disposal of long- In a marine nuclear hydroelectric power plant equipped with a pressurized water double structure reactor facility,

A double-tubular drum containing nuclear waste is constructed with a ship and a double-tubular drum transport containing nuclear waste in the buried area.

It constitutes the movement of the double tubular drum containing nuclear waste at the top of the barge deck deck with space rocket and space rocket launchers,

The barge deck has a space rocket at the top of the deck, constituting the transport of nuclear waste to the outer space,

Nuclear waste is converted into another material by nuclear fission in a nuclear reactor facility equipped with a dual structure block tank dust collector,

Construction equipment Heavy equipment with excavators and diggers placed in empty space of double structure block tank pipe bridge to make nuclear waste buried in polar ice glaciers are equipped with boreholes to construct nuclear waste treatment inside the borehole ,

A double structure block tank structure with a double structure block tank bridge that constitutes the operation of a reactor facility of a nuclear power plant constructed inside a nuclear power plant. It is possible to obtain the effect of providing a waste water treatment type double structure reactor facility,

According to the present invention, there is provided a double structure block tank structure constituting the construction design process of a nuclear explosion prevention measure suitable for a pressurized water type double reactor reactor facility having a double structure block tank dust collector, In a marine nuclear hydroelectric power plant equipped with a pressurized water double structure reactor facility,

The upper 40 m of the sea nuclear hydroelectric power plant located at the top of the deck deck (SDU) is composed of the inner part of the marine nuclear power plant equipped with the pressurized water type double structure reactor facility for nuclear waste disposal. General marine vessels and offshore structures When navigating naval vessels with safety clearance and avoiding ship collisions and rebuilding the reactor facilities of marine nuclear hydroelectric power plants for the treatment of nuclear waste with pipe bridge and pipe bridge and double structure block tank dust collector, It is designed considering the marine tunnel traffic system at 40m below sea level with the pipe bridge connection unit of 500m double structure block tank unit and constructing the bridge block tank pipe bridge at the depth of 10km in the deep sea. Are also connected to the pipe bridge of the 500m double structural block tank unit to withstand the deep water pressure It is possible to obtain the effect of constituting the lock adjusting devices provided with lock,

Nuclear waste disposal for marine nuclear power plants Pressurized water double structure reactor facility KSD 3705 hot-rolled stainless steel material which is the material of steel which provides reactor facilities for nuclear waste hydro- In addition,

Nuclear waste disposal for marine source processing Pressurized water type double structure reactor facility In the floatation dispatch dispenser equipped with the construction machine constituted inside the body,

Fixed lifelines and flow-dependent lifelines are provided,

In addition to the lifespan of lifting consoles, it is made of KSD 3705 hot-rolled stainless steel, which is a steel material,

Nuclear waste disposal for marine resources Nuclear wastewater treatment for pressurized water Double structure nuclear reactor facility It is equipped with all-weather operation to connect the land and the island area composed of the inside of the main body, and to replace marine vessel and aircraft connected to connection structure of marine tunnel traffic apparatus. To create an effect,

Marine tunnels replacing offshore vessels and airplanes Nuclear waste treatment of traffic facility facilities Double structure block tank pipe bridge Double structure block connected to the connection structure of marine tunnel traffic device Tank disposal for marine resources with dust collector In the pressurized water type double structure reactor installation,

Exhaust gas outlet which is the same as the dust collector of the exhaust gas facility which is prepared to withstand the natural disaster of the sea and double tube structure which is located inside the double structure block tank for treatment of nuclear waste and nuclear radiation pollutant inside the nuclear reactor facility with the entrance Block piping lines to provide a nuclear waste location channel for the nuclear waste location control system to provide a pressurized water nuclear hydroelectric power plant for controlling the movement of nuclear radioactive pollutants,

Nuclear waste disposal for marine resources Double-structure reactor pressurized water type Pressurized water type reactor The temperature sensor of the safety valve connected to a plurality of temperature pressure sensors constituting the inside of the main body of the pressurized water reactor in which the temperature is heated to 300 degrees Celsius Water is sent to the steam generator, heat is generated on the secondary side through heat exchange to generate steam for driving the turbine generator,

When the temperature reaches the high temperature state of 700 to 800 degrees Celsius and the pressure reaches the dangerous state of the high pressure state,

Nuclear waste disposal for marine resources A temperature and pressure sensor located inside the pressurized water reactor dual structure reactor sends alert messages to the computer in the safety control room, while a plurality of temperature and pressure sensors are opened to each safety valve. As the block pipe line inside the pressure vessel, which is the moving passage, the explosive nuclear waste passes through and the nuclear waste is stored in each block tank, the opening of the temperature pressure sensor sensor valve connected to the inner block tank of the pressure vessel is changed to the nuclear waste Treatment pressurized water type double structure reactor facility,

The external block piping line is a mixture of cooling water of a nuclear fuel explosion-proof control product stored in the upper end portion of an inner block tank and a mixture of loess mixtures in a toothpick form which is mixed with a mixer machine. The mixture of cooling water and yellow clay is connected to the temperature pressure sensor and the hatch cover located at the upper end of the pressure vessel which provides the opening of the lower hatch cover of the storage tank, The reactor interior pressure vessel for stopping the explosion stop of the reactor facilities as the internal temperature of the reactor facility is lowered, and the marine nuclear hydroelectric power plant having the pressurized water reactor facility for the nuclear waste disposal to be filled with the cooling water and the yellow soil mixture in the fourth wall containment vessel Power plant,

The safety valve connected to the inside of the reactor pressure vessel and the fourth wall containment vessel by the temperature pressure sensor and the bottom hatch cover of the storage tank are provided with yellow soil mixtures for generating cooling water and soap bubbles. When the fourth wall containment vessel is filled, the internal temperature of the marine nuclear hydroelectric power plant having the double structure block tank dust collector is lowered to prepare for the explosion stop of the pressurized water double structure reactor facility treating the nuclear waste for the marine resources,

Nuclear waste disposal for pressurized water type dual structure reactor facility constituting explosion stop of reactor facility includes,

The present invention provides a double structure reactor installation for pressurized water reactor for marine resources having a double structure block tank dust collector having a radiation piping line connection structure constituting several safety valve connection structures,

The dual structure block tank which controls the nuclear radiation leakage constituted inside the main body of the pressurized water type double structure reactor facility for treating the nuclear waste for the marine resource The reactor for preparing the nuclear fuel waste transfer storage facility with the nuclear fuel explosion prevention control articles in the dust collector, The shielding system of nuclear safety engineering, which shields and shields nuclear pollutants from outside the facility, is constructed by constructing double nuclear reactors,

Dual structure block tank A dual structure block tank which consists of the outside of the tank dust collector and one of the nuclear waste disposal prevention and nuclear fuel explosion prevention reactor facilities is installed in the dual structure block tank dust collector. , There are two types of dual structure nuclear reactor facilities,

Marine tunnel composed of maritime vessels Substructure block tank combined with connection structure Treatment of nuclear waste with marine source with dust collector Dual structure of pressurized water reactor Double structure block built up inside main body Outside of dust collector It has a pressurized water reactor facility for nuclear waste disposal,

Double structure of land and sea constituting efficient nuclear operation Operation of nuclear waste for marine resources constituting block tank dust collector Connected to double pipe structure block pipe with energy of water constituting water treatment of nuclear waste of pressurized water double structure reactor facility , A safety valve connected to a temperature and pressure sensor, a feed pump, a mixture of cooling water and a loess mixture that generates soap bubbles, and a nuclear waste disposal unit that converts the energy of the water into kinetic energy. It is composed in a pressurized water type double structure reactor facility,

According to the present invention, there is provided a double structure reactor installation for pressurized water for nuclear waste treatment for ocean source, which converts the potential energy of water into kinetic energy,

Double structure block tank In the form of eggs, it is a connection structure that is formed on the outer wall of the reactor building of the previous reactor. It is a double structure reactor tank facility with double structure block tank dust collector. Is a dual structure block tank dust collector that is connected to several reactor facilities that make up a significant difference. It is another purpose of providing a double structure reactor facility for marine nuclear waste treatment and pressurized water type dual structure reactor to the land and marine nuclear power plant Can be seen.

FIG. 1 is a cross-sectional view of a nuclear power plant 2 according to the present invention having a diameter of 2,400 mm, a radius of 1,200 km from the center of the Korean peninsula, which is included in the nuclear power plant 811, Within the range of km, the common and shared reclaimed landfills are divided into 3 areas of 3 rounds each, 360 of 1 ° to 360 ° to form individual parcels. The circle of 1 square is a radius of 200m from the center of the Korean Peninsula, Which is a new concept consisting of a unified Korea chapter map within Northeast Asia 3,000 Northeast Asia, which conducts postal services after establishing postal codes with each lot number separated by a radius of 400m by 400m. One Northeast Asia The elemental characteristics of a marine nuclear power plant equipped with a pressurized water double-structure reactor facility for the treatment of nuclear waste for marine resources constituting the new federal state A general block diagram representing the present invention, showing the gong.
FIG. 2 is a schematic view showing the structure of the nuclear power plant 811 constructed inside the pressurized water type double structure reactor facility 1 for marine nuclear waste treatment according to the present invention. A circular one-way form to explain the constitution of the new federal state administrative capital of Northeast Asia consisting of the unified Korea chapter numbered cadastral map inside the constituted 45th Northeast Asia consists of 200m distance from the center of the Korean peninsula, Showing a feature illustrating an embodiment of a marine nuclear power plant having a double-structure reactor installation for a marine source dedicated to the marine resources of a cross-sectional view with an inside diameter in the range of 36 km, It is a detail map of the unified Korea lot number.
FIG. 3 is a schematic diagram of a conventional nuclear waste disposal system according to a first embodiment of the present invention, which constitutes a territorial dispute resolution control unit included in the nuclear power plant unit 811 constituted inside the main body 1 of the pressurized water double- (995) and a shared water surface landfill (996) design plan formed before and after a shared water surface landfill process that illustrates a conventional landfill process. It is an enlarged cross-sectional view of the territorial boundaries in accordance with the conventional international maritime laws and regulations between the countries of the disputing parties.
[Figure 1] to [Figure 3] are schematic diagrams showing the construction of a double structure nuclear reactor for marine nuclear power generation according to the present invention, A shared landfill 945 of a marine nuclear power plant with facilities and a shared water surface landfill 946 area.
FIG. 4 is a schematic view illustrating a nuclear waste disposal unit to an electronic sensor valve screw control unit included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention. (238) of the double tube structure of the nuclear waste disposal of the nuclear power plant combined with the nuclear waste disposal unit of the nuclear power plant, and the control sensor of the electronic sensor valve, the disaster prevention preventive control unit and the forest fire disaster prevention control unit Space power generation showing configuration And a satellite hydroplaning prevention satellite control unit, which shows the entire structure of the crest of the crest of the crest of the mountain, which is located at the crest of the crane. The hydroelectric power station of the offshore hydroelectric power station and the island tunnel (672a) (593,594,595) of a marine nuclear power plant of medium and large size.
5 is a schematic view showing a nuclear power plant nuclear waste disposal unit 811a included in a nuclear power generation facility unit 811 constructed inside a main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, Double pipe structure of nuclear waste disposal of hydroelectric power plant Disconnection of territorial dispute showing construction of electronic sensor valve screw control part of prevention block pipeline line (238) and prevention of disaster prevention preventive control part and forest fire natural disaster prevention control part and space Development And a satellite hydroplaning prevention satellite control unit, which shows the entire structure of the crest of the crest of the crest of the mountain, which is located at the crest of the crane. The hydroelectric power station of the offshore hydroelectric power station and the island tunnel (672a) (593,594,595) of a marine nuclear power plant of medium and large size.
FIG. 6 is a schematic diagram of a nuclear power plant combined with a nuclear waste disposal unit included in a nuclear power generation facility 811 constituted inside a main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention. Nuclear waste treatment double tube structure Block piping line Control of the electronic sensor of the control side (238) Valve screw control and disaster prevention Preventive control and wildfire Natural disaster Prevention Prevention Control And a satellite hydroplaning prevention satellite control unit, which shows the entire structure of the crest of the crest of the crest of the mountain, which is located at the crest of the crane. The hydroelectric power station of the offshore hydroelectric power station and the island tunnel (672a) (593, 594, 595) of a marine nuclear power plant of medium and large size.
7 is a schematic diagram of a nuclear power generation and production unit 811b included in a nuclear power generation facility unit 811 constituted inside a main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, The double tube structure of the nuclear waste disposal of the nuclear hydroelectric power plant combined with the processing unit. The block sensor of the control side (238) on the control side (238), the valve screw control unit, the disaster prevention control unit and the forest fire Development And a satellite control unit for prevention of nuclear radiation pollution. Conventional hydroelectric power plant showing the entire construction shows the whole structure. Production of diesel engine and generator by electric power of each compressor and pump by a construction machine. to be.
8 is a schematic diagram of a nuclear power generation and production unit 811b included in a nuclear power generation facility unit 811 constituted inside a main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, A dual tubular structure of a nuclear waste disposal unit of a nuclear hydroelectric power plant combined with a treatment unit 811a, an electronic sensor valve control unit on the regulating side (238), a disaster prevention control unit, and a forest fire control unit Space development showing And a double tube structure of the nuclear waste treatment of a nuclear hydroelectric power station combined with nuclear radiation contamination avoidance satellite control elements. The inside of the hydroelectric generator body inside the conventional hydroelectric power plant showing the entire construction of the regulating side (238) Aberration, Phelton aberration, pump aberration, turbine, guide vane internal assembly model, and pump aberration.
9 is a schematic view showing a nuclear reactor nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention, , A power transmission unit for transmitting power, a safety control and production control unit for nuclear power plants, a control unit for electronic control equipment, a construction control unit for screws, and a preventive control unit for disaster prevention A conventional diesel engine external view showing the construction of the double pipe structure block piping line adjustment side 238 of the nuclear waste disposal of the nuclear power plant, and a model construction diagram of the internal disassembly assembly of the motor motor.
10 is a schematic diagram showing a nuclear waste disposal unit included in a nuclear power generation facility 811 constructed inside a main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, A power transmission unit 811d for transmitting power, a nuclear power plant safety control and management production former 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw control unit 811g, (238) of the double tube structure block piping line control side (238) of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the disaster prevention prevention control section (811h) And a conventional block type multi-stage pump constituting a connection to a satellite control part for prevention of nuclear radiation pollution. A speed control system, and a three-pump direct-injection system.
FIG. 11 is a schematic view showing a nuclear power generation nuclear waste processing unit 811a included in a nuclear hydroelectric power generation facility unit 811 constituted inside a main body 1 of a pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention, A power transmission portion 811d for transmitting power, a nuclear power plant safety control production production front portion 811e, an electronic control adjusting device construction machine control portion 811f, a screw Showing the construction of the double pipe structure piping line regulating side 238 of the nuclear waste treatment of the nuclear power plant coupled to the regulating section 811g and the disaster prevention prevention regulating section 811h, And a control system using a microcomputer of a conventional three-stage multi-stage pump constituting a connection to a satellite control unit for preventing radioactive contamination and a control system of a control system in a digital pID control system. It is the operational configuration diagram of the inside of the fire sensor pump body which is composed of the inverter system to be discharged and the equipment of the control system.
12 is a schematic view showing a nuclear waste disposal unit 811a included in a nuclear power generation facility 811 constructed inside a main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, A power transmission unit 811d for transmitting power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw control Showing the construction of the double tube structure block piping line regulating side 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the unit 811g and the disaster prevention prevention regulator 811h, Sectional view of a movable compressor, a stationary compressor and a multi-stage screw compressor, which are a plurality of conventional compressors constituting a connection to a satellite control section for preventing radioactive contamination of the nuclear radioactivity, to be.
[Figure 13] is a schematic view showing a nuclear waste disposal unit 811a included in a nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility 1 for marine nuclear waste treatment, A power transmission unit 811d for transmitting power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw control Showing the construction of the double tube structure block piping line regulating side 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the unit 811g and the disaster prevention prevention regulator 811h, And a disengagement assembly in which a gear train 290 in which a conventional oil separating tank is connected to a satellite control unit for preventing nuclear radiation pollution and a suction valve in a skewer compressor connected to the electric motor is shown.
14 is a schematic view showing a nuclear power generation nuclear waste processing unit 811a included in the nuclear power generation facility unit 811 constituted inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, A power transmission unit 811d for transmitting power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw control Showing the construction of the double tube structure block piping line regulating side 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the unit 811g and the disaster prevention prevention regulator 811h, And a suction filter 262 attached to the inside of the conventional rear air cooler and a suction filter attached to the interior of the air dryer 291 to constitute a connection to the satellite control parts for preventing nuclear radiation contamination .
15 is a schematic view showing a nuclear waste disposal unit 811a included in the nuclear power generation facility 811 constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, A power transmission unit 811d for transmitting power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw control Showing the construction of the double tube structure block piping line regulating side 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the unit 811g and the disaster prevention prevention regulator 811h, And the control system of the nuclear power plant, and the control system of the nuclear radioactive contamination, the power transmission control part of the submarine crossing railway substation for the treatment of nuclear waste, and the conventional outdoor fire hydrant, (179a) of a conventional fire hydrant, an excretory type fire hydrant, and an underground fire hydrant manhole at a lower portion of a road surface of an underground double fire hydrant (179b). FIG. And a fire hydrant 179 is shown in the water inlet (fire extinguisher extinguisher, 169) of the connection and water pipe and the frontal view of the fire extinguisher accessories and the fire hydrant box inside the auto fire hydrant 161 and the inside fire hydrant box 160, Space development showing Sectional configuration and strainer configuration connected to satellite control parts for preventing radioactive contamination and nuclear radiation, and (a) a large-scale fire hydrant system and (b) a partial side configuration showing a small-scale fire hydrant system A sprinkler system pipeline system sprinkler system, and a sprinkler head 111 of a trencher head.
FIG. 16 is a schematic view showing a nuclear waste disposal unit 811a included in the nuclear power generation facility 811 constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, A power transmission unit 811d for transmitting power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw control Showing the construction of the double tube structure block piping line regulating side 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the unit 811g and the disaster prevention prevention regulator 811h, And spacecraft that show the composition of the power transmission control unit of groundwater and deep sea water capacity supply control unit of the Trans-Pacific North Sea Transit Railway Substation for the treatment of nuclear waste constituting connection to the satellite control units of nuclear radiation pollution prevention. A sprinkler system pipeline system sprinkler system showing a conventional structure in which a radioactive contamination prevention satellite control unit is shown, and a sprinkler head 111 of a tranquility head and a vibration alarm apparatus 300 .
17 is a schematic view showing a nuclear waste disposal unit 811a included in a nuclear power generation facility 811 constructed inside a main body 1 of a pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention, A power transmission unit 811d for transmitting power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw control Showing the construction of the double tube structure block piping line regulating side 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the unit 811g and the disaster prevention prevention regulator 811h, And spacecraft that show the composition of the power transmission control unit of groundwater and deep sea water capacity supply control unit of the Trans-Pacific North Sea Transit Railway Substation for the treatment of nuclear waste constituting connection to the satellite control units of nuclear radiation pollution prevention. And a conventional reciprocating pump piston pump 127 that shows the configuration of the power transmission control unit of the deep sea submarine transverse railway substation for treatment of nuclear waste constituting connection to the satellite control units for prevention of nuclear radiation pollution, And a partial plunger pump 148 operation configuration diagram showing the manner in which the plunger pump 148 is partially actuated by the plunger 253, and the block pump 311 of the rotary pump And is a side view showing the side surface of the turbine pump 140 and showing a side view of the installed state of the waste water pump 309. FIG.
FIG. 18 is a schematic view showing a nuclear power generation nuclear waste processing unit 811a included in the nuclear power generation facility unit 811 constituted inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, A power transmission unit 811d for transmitting power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw control Showing the construction of the double tube structure block piping line regulating side 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the unit 811g and the disaster prevention prevention regulator 811h, And spacecraft that show the composition of the power transmission control unit of groundwater and deep sea water capacity supply control unit of the Trans-Pacific North Sea Transit Railway Substation for the treatment of nuclear waste constituting connection to the satellite control units of nuclear radiation pollution prevention. And a turbine pump showing a conventional configuration showing the configuration of power transmission control unit of groundwater and deep sea water capacity supply control unit of a submarine transverse railway substation for nuclear waste disposal constituting connection to satellite control units for prevention of nuclear radiation contamination, And the configuration of operation of the priming pump 339 and the self-priming pump 340 is shown in a schematic configuration diagram of the operation of the axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146. In the viscous pump 343, The schematic diagram of the viscous pump and impeller strainer is shown in side view showing the operation of each pump.
FIG. 19 is a schematic view showing a nuclear power generation nuclear waste processing unit 811a included in a nuclear power generation facility unit 811 constructed inside a main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, A power transmission unit 811d for transmitting power, a nuclear power plant safety control production production front end 811e, an electronic control adjusting apparatus construction machine control unit 811f, a screw control Showing the construction of the double tube structure block piping line regulating side 238 of the nuclear waste treatment of the nuclear hydroelectric power plant coupled to the unit 811g and the disaster prevention prevention regulator 811h, And spacecraft that show the composition of the power transmission control unit of groundwater and deep sea water capacity supply control unit of the Trans-Pacific North Sea Transit Railway Substation for the treatment of nuclear waste constituting connection to the satellite control units of nuclear radiation pollution prevention. And groundwater and deep seawater depletion control subsystems showing the composition of the power transmission control unit of groundwater and deep sea water capacity supply control unit for the nuclear power plant, Electronic Sensor Valve Screw Adjustment and Prevention of Disaster Prevention Adjustment and Forest Fire Pump Driving Pump with Prevention of Natural Disaster Prevention Adjustment Port and Ardo Tunnel Shaping Control of Conventional Configuration Fig.
20 is a view showing a nuclear power generation nuclear waste treatment section 811a included in a nuclear power generation facility section 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention, Dual tube structure of nuclear waste treatment plant of power plant Electronic sensor valve control part showing configuration of block piping line regulation side (238) Connection to disaster prevention preventive control unit, forest fire natural disaster prevention control unit and fishery tunnel fishery scatter control unit FIG. 2 is a perspective view of a fire pump and a plurality of valves formed in a prime mover, showing a conventional configuration showing a configuration in which
[Figure 4] to [Figure 20] are diagrams showing the features illustrating an embodiment constituted inside the main body 1 of the pressurized water double-structure reactor facility 1 for processing a nuclear waste for exclusive use with an offshore source according to the constitution of the present invention to be.
[Fig. 21] is a schematic view showing a nuclear power generation nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure nuclear power plant main body 1 for marine nuclear waste treatment according to the invention, The double tube structure of the nuclear waste treatment of the nuclear power plant, the electronic sensor valve control section showing the configuration of the block piping line regulation side (238), the disaster prevention preventive control section, the forest fire natural disaster prevention control section, The long-side faucet 512a, the long-side faucet body 512b, and the long fuselage faucet 512b of the conventional type water faucet 512, which show the conventional configuration showing the configuration, The general faucet 512c, the short faucet 512d, the Fomats body short faucet 512e, the longitudinal water faucet 512f, the universal faucet 512g ), A cap ring lateral faucet 512h, an acid faucet 512i, a sanitary faucet 512j, The transverse material faucet 514a, the transverse material faucet 514b, the longitudinal material faucet 514c, and the secondary material faucet 514c are provided in the sanitary flash valve 513 and the parallel type bath faucet 514, 514d), transverse chemical faults (514f), transverse chemical faults (514g), longitudinal chemical faults (514h), thorn longitudes chemistry 515i, and 514j, respectively, and is provided with a float valve (pushover type) 515 for a building for a building facility showing a conventional structure, and a float valve 515a for the urinal, a urinal clean water supply 516, a mixer valve (for three-way valve 517), a mixer valve (517a), a hand shower (518), a sow head (519), a hand shower (520), and a shower set (521) 512 &lt; / RTI &gt; A perspective configuration of the valve Fig.
22 is a schematic diagram of a nuclear reactor nuclear waste treatment unit 811a included in a nuclear power generation facility 811 constructed inside a main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the invention, The double tube structure of the nuclear waste treatment of the nuclear power plant, the electronic sensor valve control section showing the configuration of the block piping line regulation side (238), the disaster prevention preventive control section, the forest fire natural disaster prevention control section and the artificial tunnel connection section Fig. 2 is a block diagram showing the operation of each valve showing the conventional configuration showing the configuration.
23 is a schematic view showing a nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention, Dual tube structure of nuclear waste treatment plant of power plant Electronic sensor valve control part showing configuration of block piping line regulation side (238) Connection to disaster prevention preventive control unit, forest fire natural disaster prevention control unit and fishery tunnel fishery scatter control unit And the operation of the diaphragm pump 144 and the operation of the wing pump 327 are schematically shown in FIGS. 5A and 5B. FIG. 5A is a perspective view of the plunger pump 148 of the reciprocating pump according to the first embodiment of the present invention, The inside of the rotary pump 337, the external gear pump 326, and the other rotary pump rotor 338. Fig.
24 is a view showing a nuclear power generation nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure nuclear reactor facility main body 1 for marine nuclear waste treatment according to the present invention, Dual tube structure of nuclear waste treatment plant of power plant Electronic sensor valve control part showing configuration of block piping line regulation side (238) Connection to disaster prevention preventive control unit, forest fire natural disaster prevention control unit and fishery tunnel fishery scatter control unit A schematic view showing a turbine pump 140 showing a conventional configuration showing a configuration in which a priming pump 334 and a self-priming pump 340 are shown in a diagonal view, an axial flow pump 341 of a propeller pump 146, And the viscous pump 343 is shown in a perspective view and the side view of the viscous pump and impeller strainer is shown in side view of the operation of each pump.
25 is a schematic view showing a nuclear power generation nuclear waste processing unit 811a included in a nuclear power generation facility unit 811 constituted inside a main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, Dual tube structure of nuclear waste treatment plant of power plant Electronic sensor valve control part showing configuration of block piping line regulation side (238) Connection to disaster prevention preventive control unit, forest fire natural disaster prevention control unit and fishery tunnel fishery scatter control unit FIG. 3 is a side view showing the operation of the automatic collecting tank shown in FIG. 1; FIG.
26 is a view showing a nuclear power generation nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure nuclear power plant main body 1 for marine nuclear waste treatment according to the present invention, Dual tube structure of nuclear waste treatment plant of power plant Electronic sensor valve control part showing configuration of block piping line regulation side (238) Connection to disaster prevention preventive control unit, forest fire natural disaster prevention control unit and fishery tunnel fishery scatter control unit FIG. 3 is a side view showing the operation of the automatic collecting tank shown in FIG. 1; FIG.
[Fig. 27] Fig. 27 is a schematic diagram showing a nuclear waste disposal unit 811a included in the nuclear power generation facility 811 constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, Dual tube structure of nuclear waste treatment plant of power plant Electronic sensor valve control part showing configuration of block piping line regulation side (238) Connection to disaster prevention preventive control unit, forest fire natural disaster prevention control unit and fishery tunnel fishery scatter control unit FIG. 3 is a side view showing the operation of the automatic collecting tank shown in FIG. 1; FIG.
28 is a view showing a nuclear power generation nuclear waste treatment unit 811a included in a nuclear hydroelectric power generation facility unit 811 constituted inside the pressurized water type double structure nuclear reactor facility main body 1 for marine nuclear waste treatment according to the present invention, The double tube structure of the nuclear waste disposal of the hydroelectric power plant. The electronic sensor valve control part showing the configuration of the block piping line regulation side (238), the disaster prevention preventive control part, the forest fire natural disaster prevention control part and the airway tunnel fishery scatter control part FIG. 2 is a side view showing the operation of the automatic collecting tank shown in FIG.
29 is a view showing a nuclear power generation nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention, Dual tube structure of nuclear waste treatment plant of power plant Electronic sensor valve control part showing configuration of block piping line regulation side (238) Connection to disaster prevention preventive control unit, forest fire natural disaster prevention control unit and fishery tunnel fishery scatter control unit And a configuration of a method of applying the pneumo-hydraulic pressure and the sensor technology according to the configuration of the sensor according to the configuration of the detection switch. [0030] In the above-described embodiment, the solenoid valve is mounted on the hydraulic pneumatic cylinder. A nuclear power generation nuclear waste treatment section 811a included in the nuclear power generation facility section 811 constituted inside the nuclear reactor facility main body 1, The double tube structure of the nuclear waste disposal of the power plant. The electronic sensor valve control section showing the configuration of the block piping line regulation side (238), the disaster prevention prevention control section, the forest fire natural disaster prevention control section, Fig. 3 is a block diagram of the operation of each valve showing a conventional configuration showing a connection configuration.
30 is a schematic view showing a nuclear waste disposal unit 811a included in the nuclear power generation facility 811 constructed inside the main body 1 of the pressurized water type nuclear reactor waste water treatment plant for marine resources according to the invention, The double tube structure of the nuclear waste treatment of the nuclear power plant, the electronic sensor valve control section showing the configuration of the block piping line regulation side (238), the disaster prevention preventive control section, the forest fire natural disaster prevention control section, The diagram shows the behavior of the adverbons and the airship showing the conventional configuration showing the configuration. It is an operation configuration diagram according to the typhoon and the weather forecast in the atmosphere. It is configured to perform the initial evolution within one second after installing the spray nozzles and bed nozzles inside and outside the building Fire and disaster prevention.
FIG. 31 is a schematic view showing a nuclear waste disposal unit 811a included in the nuclear power generation facility 811 constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the invention, The double tube structure of the nuclear waste treatment of the nuclear power plant, the electronic sensor valve control section showing the configuration of the block piping line regulation side (238), the disaster prevention preventive control section, the forest fire natural disaster prevention control section and the artificial tunnel connection section The power transmission control unit of the Trans-Pacific Trans-Railway Substation for the treatment of nuclear wastes, which provides power transmission to show the composition, and the marine environment around the Korean peninsula. Disaster Prevention Prevention and Control Section includes the disaster prevention and disaster prevention unit of the disaster prevention prevention control unit constituting the ship 1078 having the conventional sinking vessel and rescue force rescue force incapable of sinking, A nuclear power plant of a nuclear power plant showing a configuration showing an embodiment of the nuclear power plant 1078 as a rescue force rescue force for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, The nuclear power plant's nuclear reactor installation including the flood control disaster prevention equipment distribution dispenser The HVAC which constitutes the international maritime safety system includes the fire damper 583, the damper spindle 584, the doctor ventilation (585), a doctor ventilation inlet (585a), and a doctor ventilation outlet (585b) Into the dual structure, the reactor equipment main body 1 is a side configuration of the flood control disaster prevention devices comprising a vessel having a life saving resilience.
FIG. 32 is a schematic view showing a nuclear power generation nuclear waste processing unit 811a included in the nuclear power generation facility unit 811 constructed inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear power generation according to the invention, The double tube structure of the nuclear waste treatment of the nuclear power plant, the electronic sensor valve control section showing the configuration of the block piping line regulation side (238), the disaster prevention preventive control section, the forest fire natural disaster prevention control section and the artificial tunnel connection section The power transmission control unit of the Trans-Pacific Trans-Railway Substation for the treatment of nuclear wastes, which provides power transmission to show the composition, and the marine environment around the Korean peninsula. Disaster Prevention Prevention and Control Section includes the disaster prevention prevention control section of the ship 1078 constituting the conventional sinking vessel and the rescue force rescue force incapable of sinking, preventing the superfluous wave 1101 from among the flood control disaster prevention apparatuses. (1078) having a rescue force for nuclear waste disposal for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, and a disaster prevention preventive control The nuclear reactor power plant's nuclear reactor plant equipped with a flood control disaster prevention system Dispenser and injector The HVAC system constituting the international maritime safety system includes a pier damper 583, a damper spindle 584, A ventilation port 585a, a doctor ventilation inlet port 585a, and a doctor ventilation outlet port 585b, Into the medium-tank reactor equipment main body 1 is a side configuration of the flood control disaster prevention devices comprising a vessel having a life saving resilience.
FIG. 33 is a schematic view showing an internal structure of a pressurized water double structure reactor facility 1 for marine nuclear waste treatment according to the present invention. And a ship 1078 having rescue force for rescue force, the disaster prevention and disaster prevention device of the present invention is a disaster prevention and disaster prevention device for a nuclear power plant, Nuclear power plant that constitutes ship 1078 as a reactor facility of a nuclear power plant and nuclear reactor plant which has provided disaster prevention preventive control unit Nuclear power plant nuclear reactor facility Disaster control Disaster prevention dispenser Dispenser Dispatching device HSBC The damper spur 584, the doctor ventilation 585, the doctor ventilation suction (585a) and a doctor ventilation outlet (585b), and the inside of the main body (1) of the pressurized water type double reactor reactor for treating the nuclear waste for the ocean source is provided with a rescue force for life rescue. Fig.
FIG. 34 is a schematic diagram showing a nuclear reactor nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the invention, The double tube structure of the nuclear waste treatment of the nuclear power plant, the electronic sensor valve control section showing the configuration of the block piping line regulation side (238), the disaster prevention preventive control section, the forest fire natural disaster prevention control section and the artificial tunnel connection section The power transmission control unit of the Trans-Pacific Trans-Railway Substation for the treatment of nuclear wastes, which provides power transmission to show the composition, and the marine environment around the Korean peninsula. Disaster Prevention Prevention and Control Section includes the disaster prevention and disaster prevention unit of the disaster prevention prevention control unit constituting the ship 1078 having the conventional sinking vessel and rescue force rescue force incapable of sinking, A nuclear power plant of a nuclear power plant showing a configuration showing an embodiment of the nuclear power plant 1078 as a rescue force rescue force for nuclear waste disposal is installed in a reactor facility of a nuclear power plant, The nuclear reactor system of the nuclear power plant which includes the nuclear power plant, the nuclear power plant, the nuclear power plant, the nuclear power plant, the nuclear power plant, the disaster control system, the disaster control system, 585, a doctor ventilation inlet port 585a, and a doctor ventilation outlet port 585b, FIG. 2 is a side view of a disaster control disaster prevention apparatus constituting a ship having rescue force for rescue life inside a double structure reactor facility main body (1).
FIG. 35 is a schematic view showing a nuclear power generation nuclear waste treatment unit 811a included in a nuclear power generation facility 811 constituted inside the main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the invention, The double tube structure of the nuclear waste treatment of the nuclear power plant, the electronic sensor valve control section showing the configuration of the block piping line regulation side (238), the disaster prevention preventive control section, the forest fire natural disaster prevention control section and the artificial tunnel connection section The power transmission control unit of the Trans-Pacific Trans-Railway Substation for the treatment of nuclear wastes, which provides power transmission to show the composition, and the marine environment around the Korean peninsula. The Disaster Prevention Prevention and Control section includes an elemental configuration of one embodiment formed for operation of the nuclear power plant of the TVA Paradise Power Plant steam turbine generator located near the conventional city of Paradise, Kentucky, constituting a pressurized water double reactor structure for nuclear waste disposal And the side view of the engine.
36 is a view showing a nuclear power generation nuclear waste treatment section 811a included in a nuclear power generation facility unit 811 constituted inside the main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the invention, The nuclear power generation and production unit 811b of the marine nuclear hydroelectric power plant is provided with a nuclear power plant for operating the nuclear power plant of the conventional thermal power plant. The nuclear power plant of the conventional nuclear power plant constituting the pressurized water reactor facility for the nuclear waste disposal shown in the disassembling side of the operation method of the thermal power generation power plant of the conventional thermal power plant The operation of the nuclear power plant of the thermal power plant The decomposition side FIG.
[Fig. 37] is a view showing a nuclear power generation nuclear waste treatment section 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment, The nuclear power generation and production unit 811b of the marine nuclear hydroelectric power plant is provided with a nuclear power plant for operating the nuclear power plant of the conventional thermal power plant. In the operation of the nuclear power plant of the elementary conventional nuclear power plant constructed in the pressurized water type double reactor facility for the nuclear waste treatment for the ocean source shown in the disassembling side of the operation method of the thermal power generation of the conventional thermal power plant, Or high-pressure high-pressure steam inlet 780 of a strong gas and boiler working core 783 inside the boiler, The illustrated is an element of a nuclear power plant of the conventional nuclear power plant operating nuclear power plants operating nuclear power plant thermal decomposition side thermal power operation works element side of a power plant configuration diagram.
38 is a view showing the nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility unit 811 constructed inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear power plant according to the present invention, The nuclear power generation and production section 811b of the marine nuclear hydroelectric power plant is provided with a nuclear power plant for operating the nuclear power plant of the conventional thermal power plant. Facilities The operation of the nuclear power plant which provides recovery before and after the failure of the elementary conventional nuclear power plant constituting the pressurized water reactor facility for the nuclear waste disposal shown in the decomposition aspect of the thermal power generation operation method of the conventional thermal power plant Nuclear power plant in operation of nuclear power plant of elementary conventional nuclear power plant showing exemplary structure Chamber 781 and the transmission measuring chamber transformer room (782) connected to the structure provided with thermal power plants and nuclear power plants movable operation of the movable-fired thermal power plant works element side of the power plant shown in the lateral manner diagram.
[Figure 21] to [Figure 38] are schematic diagrams illustrating an embodiment according to the configuration of a marine nuclear hydroelectric power plant having a dual structure nuclear reactor water treatment type nuclear waste disposal facility for marine resources.
FIG. 39 is a view showing a nuclear reactor nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility 1 for marine nuclear waste treatment according to the present invention,Northeast AsiaA reactor structure of a nuclear hydroelectric power plant having a dual structure block tank dust collector for nuclear waste processing constituting a marine hydro-nuclear power generation control part 811b for constructing power production and a transportation transportation part 811c of a construction machine is provided Nuclear Power Plant Operation of the Nuclear Power Plant Nuclear power plant operation of the nuclear power plant showing the configuration of the embodiment Example of nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant nuclear power plant showing decomposition side and cross- Fig. 8 is an exploded side perspective view of the power generation facility unit 811; Fig.
FIG. 40 is a view showing a nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention, A distribution input of the marine hydro-nuclear power generation production control section 811b to the construction transportation machine transport section 811c that provides the power production showing the construction of the double pipe structure block piping line regulation side 238 of the nuclear waste disposal of the power plant A nuclear power plant operating a nuclear power plant that provides a pressurized water reactor facility for nuclear waste disposal to constitute the apparatus. The nuclear power plant of the elementary conventional nuclear power plant showing the configuration of the embodiment. , Nuclear power plant of elementary conventional nuclear power plant shown in cross-section Nuclear power plant to be installed in nuclear power plant during decommissioning FIG.
41 is a view showing the nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility unit 811 constructed inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, A distribution input of the marine hydro-nuclear power generation production control section 811b to the construction transportation machine transport section 811c that provides the power production showing the construction of the double pipe structure block piping line regulation side 238 of the nuclear waste disposal of the power plant A nuclear power plant operating a nuclear power plant that provides a pressurized water reactor facility for nuclear waste disposal to constitute the apparatus. The nuclear power plant of the elementary conventional nuclear power plant showing the configuration of the embodiment. , Nuclear power plant of elementary conventional nuclear power plant shown in cross section Construction machine disassembly side perspective Degrees.
FIG. 42 is a view showing a nuclear power generation nuclear waste processing unit 811a included in the nuclear power generation facility unit 811 constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, A distribution input of the marine hydro-nuclear power generation production control section 811b to the construction transportation machine transport section 811c that provides the power production showing the construction of the double pipe structure block piping line regulation side 238 of the nuclear waste disposal of the power plant Nuclear Power Plant Operation to Operate Nuclear Power Plant to Provide Pressurized Water Reactor Facility for Nuclear Waste Processing to Constitute the Device The construction machine to be put into the reactor facility of the nuclear power hydroelectric power plant during the nuclear power plant operation of the elementary conventional nuclear hydroelectric power plant showing the configuration of one embodiment Decomposition side, and cross-sectional view of a nuclear power plant during operation of a nuclear power plant, FIG.
FIG. 43 is a view showing the nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility unit 811 constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, The marine nuclear power generation production control unit 811b for providing power production showing the construction of the double pipe structure piping line regulation side 238 of the nuclear waste disposal of the power plant to the distribution dispatch apparatus 811b of the transportation transportation unit 811c of the construction machine, Of nuclear power plants that provide a pressurized water reactor facility for nuclear waste disposal to constitute the nuclear waste hydrocarbons constituting the upper part of the ship's hull deck (SDU) Hydroelectric power plant for movement control Elemental nuclear waste treatment for construction equipment showing position control structure Pressure type double structure reactor facility A nuclear reactor nuclear waste processing unit 811a constituting the inside of the main body 1 and a hydraulically hydropower generation facility construction machine connection structure including a hydraulic tank facility showing a configuration for regulating the movement of the construction machine.
44 is a view showing a nuclear power generation nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention, A distribution input of the marine hydro-nuclear power generation control unit 811b to the construction transportation machine 811c that provides the power production showing the construction of the double-pipe structure block piping line regulation side 238 of the nuclear waste disposal of the power plant, Nuclear Power Plant Nuclear Power Plant Operation to Provide Pressurized Water Reactor Facility for Nuclear Waste Treatment to Configure the Device An elemental offshore power plant dock showing the configuration of one embodiment. Several marine nuclear power plant floodplain stations (593, 594, 595) constructed on the upper deck (SDU) Hydroelectric power plant for control of hull position movement Construction of nuclear power plant for elemental marine resources showing construction control mechanism configuration Pressurized water double structure atom A plurality of marine nuclear hydroelectric power station lifting dock (593, 594, 595) nuclear power nuclear waste treatment units (811a) constituting the inside of the facility main body (1) and a bulldozer (855) A wheel, a screwdriver 855b, a straight, a screwdriver 855c, a deleter, a screwdriver 855d, an angle, a screwdriver 855e, a hinge, A number of marine nuclear hydroelectric power station floating dishes 593, 594, 595 are provided with a screwdriver 855f, a tree cruiser 855g, a riser riser 855h and a heavy rack 855i. A suction pump 855k for a cam device including a construction machine connection structure and a power transmission device 855j connection structure constituting a pressurized water reactor facility for processing nuclear waste constituting the facility, an engine 855l, The cooling system 855m, the final gear device 855n, the sprocket 855o of the driven wheel, the idler 855p of the fluidized wheel, and the provision clutch 855q (593,594,595) installations at sea nuclear hydroelectric power plants.
[Figure 45] Figure 45 is a schematic view showing a nuclear power generation nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the main body 1 of a pressurized water type nuclear power plant for marine nuclear power plant according to the present invention, A distribution input of the marine hydro-nuclear power generation production control section 811b to the construction transportation machine transport section 811c that provides the power production showing the construction of the double pipe structure block piping line regulation side 238 of the nuclear waste disposal of the power plant Nuclear Waste Treatment for Nuclear Power Plant Constructing Nuclear Power Plant Nuclear Power Plant Operation of Nuclear Power Plant to Provide Pressurized Water Type Dual Nuclear Reactor Plant Constituting an embodiment of the present embodiment Nuclear Hydroelectric Power Plant Dock The number of marine hydroelectric power plants Hydroelectric power plant of hull displacement control of power plant flood control station (593,594,595) Nuclear waste disposal center (593,594,595) Hull Location Moving construction machinery equipment control unit (811a) Moving control construction machinery Positioning control unit (1) The internal connecting structure of the construction machine connecting structure grader constituting the mounting portion of the pressurized water reactor apparatus for nuclear waste processing constituting the motor grader 862 showing the motor grader 862 showing the motor grader 862 includes the muffler 862a, the engine flywheel 862b, The transmission gear 862c and the transmission gear 862c are connected to the transmission gear 862c and the transmission gear 862b via the transmission gear 862c, the transmission gear 862c, the transmission gear 862d, the transmission 862e, the fixed gear type transmission 862f, the parking brake 862g, the differential gear 862h, A disk brake 862j, and an outer structure 862k of the radar, and is configured in several marine nuclear hydroelectric power station floating dishes (593, 594, 595).
46 is a view showing the nuclear power generation nuclear waste treatment unit 811a included in the nuclear power generation facility unit 811 constituted inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear power plant according to the present invention, A distribution input of the marine hydro-nuclear power generation control unit 811b to the construction transportation machine 811c that provides the power production showing the construction of the double-pipe structure block piping line regulation side 238 of the nuclear waste disposal of the power plant, Nuclear power plants operating a nuclear power plant providing a pressurized water reactor facility for processing nuclear waste constituting the device Elemental marine nuclear hydroelectric power plant dock showing the configuration of one embodiment Several marine hydroelectric power plants constructed at the upper part of the hull deck (SDU) 593, 594, 595) Hydraulic power plant for control of hull position movement Nuclear waste treatment for elemental ocean source showing construction configuration of construction machine Pressurized water type double A number of marine nuclear hydroelectric power plant flood control stations (593,594,595) constructed inside the main reactor facility (1) constitute a bulldozer (855) showing the position control structure of the construction machinery of the hull locomotion and construction machine A power shovel 856b, a drag line 856c, an excavator 856d, a cram shell 856e, a skimmer 856f included in a dozer 855a and an excavator 856, (593,594,595) equipped with a connection structure of construction machinery connection structure to be installed in a pressurized water reactor facility for nuclear waste disposal constituting Ripper and Luther (856g).
47 is a view showing a nuclear power generation nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constituted inside the pressurized water type dual structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention, The dual-pipe structure of the nuclear waste treatment plant of the nuclear power plant production control unit 811b of the hydro-nuclear power generation production control unit 811b that provides the power generation showing the construction of the piping line control side 238 includes a double- (593,594,595) constructed at the upper part of the deck (SDU) of the hull deck of a hydroelectric power plant construction equipment Nuclear waste treatment for elemental marine resources showing position control configuration Pressurized water type double structure reactor facility Main body (1) (593,594,595) Hull position transfer Construction machinery installation control (811a) Movement control construction Mechanical installation position control arrangement Ripper and router (856g) Extension cable (861b) and all six of the crane (861p) and a drag cranes (887).
[Figure 39] to [Figure 47] are schematic diagrams illustrating an embodiment according to the configuration of a marine nuclear power plant having a main body 1 of a double structure nuclear reactor plant for pressurized water treatment for nuclear waste treatment for marine resources, to be.
[48] FIG. 48 is a schematic diagram of a nuclear power plant (nuclear power plant) 811 constituted inside the main body 1 of the pressurized water type nuclear reactor waste treatment plant for marine resources according to the present invention, 811a), the marine nuclear hydroelectric power production control unit (811b), which provides power production showing the construction of the double pipe structure piping line control side (238) of the nuclear waste disposal of the nuclear power plant, An elemental offshore power station showing the configuration of a nuclear power plant operating a nuclear hydroelectric power plant with a dual structure reactor facility. The control of the hull position movement of several marine nuclear hydroelectric power plant flood control stations (593, 594, 595) Hydroelectric power plant Equipment for nuclear waste treatment for elemental marine resources showing position control structure of construction machine Pressurized water type double structure reactor facility main body (1 (593, 594, 595) hull locomotives for the construction of the construction machinery 811a for the movements of the forklifts 858 and dump trucks 858 on the loader 857, 860) of the trailer 860a.
[Fig. 49] Fig. 49 is a schematic diagram of a facility control unit (not shown) of a floating position control system for a floating-type hosepipe hull position and construction machine included in a nuclear power generation facility unit 811 constituted inside a main body 1 of a pressurized- 811a includes a nuclear water power generation production control unit 811b that provides power production showing the construction of the double pipe structure piping line control side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, Nuclear power plants operating at nuclear power plants showing the construction of an example Nuclear hydroelectric power plant dock showing the composition of an example Hydroelectric power plant construction of hull locomotion control of several marine hydroelectric power plant flood control stations (593, 594, 595) Elemental ocean source nuclear waste treatment showing machine position control configuration Pressurized water type dual structure Reactor main body (1) (593,594,595) Hull position transfer Construction equipment installation control (811a) Concrete placement plant (865) showing the construction machine position control arrangement of movement control and concrete mixer truck (868) on the concrete finisher (866) ) Construction diagram of the connecting structure of construction machine.
FIG. 50 is a schematic view showing a structure of a nuclear power plant 2 in accordance with the present invention. FIG. 50 is a schematic view of a nuclear power plant 2 in FIG. 811a) is provided with a power generation control unit (811b) for generating power production showing the construction of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, Elemental Marine Nuclear Power Plant Dock showing the configuration of a nuclear power plant operating nuclear power plant to provide a water type dual structure reactor facility Dock of a marine hydroelectric power plant (593,594,595) constructed at the upper part of a deck of a ship deck (SDU) Hydroelectric power plant construction Element location for controlling construction machinery Nuclear waste disposal for marine resources Pressurized water double structure reactor facility (593,594,595) of a plurality of marine nuclear power plants floating inside the sieve (1) (593, 594, 595) of the hull position shifting construction machine, the asphalt finisher (811a), the asphalt finisher (864) 872 of the boom 882a and the diesel pile hammers 883 in the pile driver 872 and the pile driver 882 in the asphalt spreader 872, respectively.
[Figure 51] Figure 51 is a schematic diagram of a nuclear power plant (811) constructed inside a main body (1) of a pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention, 811a) includes a hydroelectric power production control unit (811b) for generating power production showing the construction of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, An elemental marine nuclear power plant dock showing the configuration of one embodiment of a nuclear power plant providing a nuclear dual-reactor reactor facility. The dock of the marine nuclear power plant (SDU) consists of several marine nuclear power plant flotation stations (593,594,595) Hydroelectric power plant construction Elementary ocean resource-specific nuclear waste treatment facility showing position control structure Pressure type double structure reactor facility main body (1) Several marine nuclear hydropower stations inland (593,594,595) Hull location Moving equipment of construction machinery (811a) Flood of several offshore marine nuclear hydro plants And a bucket dredger 879b of the dredger 879 and the bucket dredger 879b of the construction machinery connecting structure for adjusting the position of the construction machine for adjusting the hull position movement of the readers 593, 594 and 595. FIG.
[Figure 52] Figure 52 is a schematic diagram of a nuclear power plant (811) constructed inside a main body (1) of a pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention, 811a) includes a hydroelectric power production control unit (811b) for generating power production showing the construction of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, An elemental marine nuclear power plant dock showing the construction of a nuclear power plant operating a nuclear power plant having a water-based dual structure reactor facility. A small, medium, large-sized marine hydroelectric power plant floodplain (593,594,595) Hydroelectric power plant for controlling hull position movement Nuclear waste disposal for elementary marine resources showing the position control structure of construction machine Pressurized water double structure (593,594,595) of the marine nuclear power hydroelectric power plant inside the facility body (1), the ship's dredger of the dredger (879) showing the arrangement of the construction machine position control of the ship's position shifting construction machine's control unit (811a) (879a), a bucket dredger (879b), and a grab dredger (879l).
[Figure 53] Figure 53 is a schematic diagram of a facility control section of a floating displacement gyroscopic locator and construction machine included in a nuclear power generation facility unit 811 constituted inside the main body 1 of a pressurized water double- (811a) is provided with a power generation control unit (811b) for generating a power production showing the construction of the double pipe structure piping line regulation side (238) of the nuclear waste disposal of the nuclear power plant, Elementary Marine Nuclear Hydroelectric Power Plant Dock showing the Construction of Nuclear Power Plant Operation of Nuclear Power Plant to Provide Water Type Dual Structure Reactor Facility Dock of Marine Hydroelectric Power Plant (593,594,595) constructed at the upper part of the deck (SDU) Of hydroelectric power plant Construction of machinery Location showing the regulation structure Elementary ocean resource only Nuclear waste treatment Pressurized water type double structure Reactor main body (1) Several marine nuclear hydroelectric power plants with built-in marine nuclear power plants (593,594,595) Hull locomotion Equipment control equipment for construction machinery (811a) Crushers for controlling the construction machine position control system (874) to be.
FIG. 54 is a schematic diagram of a facility control unit of a floating-type poison ship hull structure locating and construction machine included in a nuclear power plant unit 811 constituted inside a main body 1 of a pressurized water double- (811a) is provided with a nuclear water hydroelectric power production control unit (811b) for generating power production showing the configuration of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, Nuclear power plants operating nuclear power plants to provide reactor facilities Elements of marine nuclear power plants showing construction of one embodiment Docking of several marine power plant flood control consoles (593,594,595) on the upper deck (SDU) of the hull deck (1) The internal structure of the pressurized water type double structure reactor facility (1) Several of the marine nuclear hydroelectric power station floodplain (593, 594, 595) hull position shifting construction machine equipment control unit 811a, the previous cylinder 126 showing the construction machine position control arrangement of movement control, and the bossable plunger pump of plunger pump 148 (148b) and the radial plunger pump (148c).
[Figure 55] Figure 55 is a schematic diagram of a nuclear power plant (811) constructed inside a main body (1) of a pressurized water type nuclear reactor waste water treatment plant dedicated to an offshore source according to the present invention, 811a) is provided with a power generation control unit (811b) for generating power production showing the construction of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, Nuclear Power Plant Nuclear Power Plants Having a Main Body (1) of Water Type Dual Structure Nuclear Power Plants Having a Primary Nuclear Hydroelectric Power Plant Dock (SDU) at the top of a deck (SDU) Several ocean nuclear hydroelectric power plant flood control stations (593,594,595) Hydroelectric power plant for control of hull position movement Construction of nuclear power plant, Several Nuclear Nuclear Hydroelectric Power Plants (593,594,595) consisting of the inside of a reactor facility body (1), a hull position shifting and construction machinery facility control unit (811a) A portable lug 607 and a portable lug 607 are attached to the vertical partition wall 605 for disassembling and assembling a plurality of marine nuclear hydroelectric power station flood control assemblies 593, 594, 595 connected to the satellite control units for prevention of nuclear radiation pollution, Large flange connection to lug fin (608) Connection hole (615) Hydraulic power plant Several marine nuclear power plant floodplain (593,594,595) constructed at the top of the deck of the marine nuclear power plant (SDU) And a piston motor (885a) of the hydraulic crane (885). The construction machine connecting structure of the hydraulic cranes (885) and the cylinder (126)
[56] FIG. 56 is a schematic diagram of a facility control section of a floating-type poisoning hull locating and construction machine included in a nuclear power plant 811 constituted inside a main body 1 of a pressurized water double- (811a) is provided with a power generation control unit (811b) for generating a power production showing the construction of the double pipe structure piping line regulation side (238) of the nuclear waste disposal of the nuclear power plant, Elementary Marine Nuclear Hydroelectric Power Plant Dock showing the Construction of Nuclear Power Plant Operation of a Nuclear Power Plant Providing a Water Type Double Structure Reactor Facility Docking of a number of marine nuclear power plant flood control consoles (593,594,595) constructed at the upper part of the deck of a hull deck (SDU) Hydroelectric power plant construction Element location for control of construction machinery Nuclear waste disposal for marine resource only Pressurized water double structure reactor plant A plurality of marine nuclear hydroelectric power station flood control stations (593, 594, 595) constituting the inside of the sieve (1), a cylinder (126) showing a construction machine position adjustment structure for shifting the equipment control section (811a) And a piston motor 885a of the engine 885 shown in Fig.
[Figure 57] Figure 57 is a schematic diagram of a nuclear power plant (811) constructed in the main body (1) of a pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention, 811a) is provided with a power generation control unit (811b) for generating power production showing the construction of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, Elementary Marine Nuclear Hydroelectric Power Plant Dock showing the Construction of Nuclear Power Plant Operation of a Nuclear Power Plant Providing a Water Type Double Structure Reactor Facility Docking of a number of marine nuclear power plant flood control consoles (593,594,595) constructed at the upper part of the deck of a hull deck (SDU) Hydroelectric power plant construction Element location for controlling construction machinery Nuclear waste disposal for marine resources Pressurized water double structure reactor facility A number of marine nuclear power plants (593, 594, 595) inside the main body (1) Hull position shifting Construction machinery equipment control unit (811a) Hydraulic power plant or marine power plant aberration Control of the hull position of several marine nuclear power plant flood control consoles (593,594,595) in the upper part of the deck of the ship's hull (SDU) of the Marine Nuclear Hydroelectric Power Plant showing the pump aberration (264) and the main valve (265) Of the construction machinery connected with the wind turbine, which shows the control structure of the construction machine.
FIG. 58 is a schematic diagram of a marine hydroelectric power production control unit (hereinafter, referred to as &quot; marine hydroelectric power generation control unit &quot;) for generating power included in a nuclear power plant unit 811 constituted inside the main body 1 of a pressurized- 811b) Incinerator containing Toricelli's theorem which shows the construction machine position control arrangement of the hull locomotion of the marine dock (SDU) of the marine power plant's docking station (593,594,595) of several marine nuclear hydroelectric power plants at the upper deck (SDU) 269) The theoretical hydraulic power for the operation of the flow rate and the flow rate of the seaweed is constituted by the input to the aberration and is configured to rotate the aberration and the generator, and the water intake facility 680o is installed in the water intake facility 680n which is the same as the arrangement of the multi- (944) units of multi-tiered hydroelectric power plants (944) of marine Seisoh Hydroelectric Power Plant (943) with power generation facilities (680p) and waterproof facilities (680q) An elemental offshore power plant dock showing the composition of the embodiment. A number of offshore hydropower stations (593,594,595) constructed on the upper deck of the hull deck (SDU) Nuclear waste treatment Pressurized water double structure reactor facility (1) Several marine nuclear hydroelectric power plants with built-in flue gas reservoir (593,594,595) Internal displacement control equipment of construction machine (811a) Flow control hydroelectric power plant It is the strabismus construction diagram of construction machine connection structure.
[Figure 59] Figure 59 is a schematic diagram of an apparatus for regulating the equipment of a floating displacement echo hull position shifting construction machine included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention 811a includes a hydro-nuclear power generation production control section 811b for generating power production showing the construction of the double pipe structure piping line regulation side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, (593, 594, 595) constructed at the upper part of the deck (SDU) of the hull deck of the hydroelectric power plant (1) equipped with a pressurized water reactor facility for the elemental nuclear waste disposal, which shows the configuration of the construction machinery, Several marine nuclear power plant Hydroelectric support sikdok (593594595) Ship positioning control of construction machinery parts (811a) shows the development of the universe construction equipment position control to adjust the configuration of the mobile And a boom 882a and a diesel filer 882 in a pile driver 876 and a pile driver 882 in an asphalt finisher 871 and an asphalt spreader 872 on a hearth safety device 864 connected to a satellite radiation control section Hammer (883) Double structure block of construction machine connection structure Tank pipe pier (928), dual structure block tank pipe bridge (937) and nuclear waste disposal The crude drilling machine (908) into the inside of the ocean tunnel transport device (941) Nuclear power plant construction This is a schematic diagram of a construction machine connection structure.
[0064] FIG. 60 is a schematic diagram of the nuclear power plant 811 constructed inside the main body 1 of the pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention, 811a) includes a control unit (811b) for generating power to show the construction of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear power plant, An elemental marine power plant showing the construction of one embodiment of a nuclear power plant operating a nuclear power plant having a dual structure reactor facility body (1) The hull positional movement of several marine hydroelectric power plant flood control consoles (593, 594, 595) (1) Inside the main body (1) of the pressurized water type double structure reactor facility (593,594,595) Hull location Moving machinery construction equipment control (811a) Moving control construction machinery Location development showing the position control arrangement And the satellite control unit for prevention of nuclear radioactive contamination. Nuclear power plant nuclear waste treatment unit constructed by installing nuclear power plant enlargement of the marine power plant. The upper tank barge hull (591) and the holding tank lower barge hull (592) (598) Substantially detailed assembly process illustrating the floating support lug coupling pin connection shaft (606) and the floating lug (607) in the floating support hood assembly assembly at the center of the nuclear power generation facility (811) Nuclear Power Plant Nuclear Waste Disposal Unit An elemental nuclear power plant showing the arrangement of the construction machinery control section of the ship hull.
FIG. 61 is a schematic diagram of a nuclear power plant 811 constructed inside a main body 1 of a pressurized water type nuclear reactor waste water treatment plant dedicated to an offshore source according to the present invention. 811a includes a nuclear water power generation production control unit 811b that provides power production showing the construction of the double pipe structure piping line regulating side 238 of the nuclear waste disposal of the nuclear power plant, (593, 594, 595) constructed at the upper part of the deck (SDU) of the hull of the ship. Hydraulic power plant construction machine An elemental ocean source nuclear waste treatment showing the position control configuration. Pressurized water type double structure reactor facility main body (1) Hydroelectric power plants dependent sikdok (593594595) Ship positioning control of construction machinery parts (811a) shows the development of the universe construction equipment position control configuration of the mobile regulation (879a) and a bucket dredger (879b) of the dredger (879) connected to the satellite control parts for prevention of nuclear radioactivity contamination and the steel plate bending method for the piping block of the marine power plant lifting plant Fig. 2 is a partial view showing the partial side view of a steel structure inside a pipe having a double pipe structure providing a basic method, and a construction diagram of a nuclear power plant lifting hood assembly hull assembly showing the construction of a steel pipe manufacturing process.
FIG. 62 is a schematic diagram of a nuclear plant construction unit 1 including a pressurized water type double structure reactor facility 1 for marine nuclear waste treatment according to the present invention. 811a includes a nuclear water power generation production control unit 811b that provides power production showing the construction of the double pipe structure piping line control side 238 of the nuclear waste disposal of the nuclear hydroelectric power plant, (593,594, 595) constructed at the upper part of the deck (SDU) of the ship's hull deck. (593,594, 595) The elemental ocean source nuclear waste treatment showing machine position control configuration. Pressurized water type double structure reactor facility main body (1) Nuclear power plants Hydropower support sikdok (593594595) Ship positioning control of construction machinery parts (811a) shows the development of the universe construction equipment position control configuration of the mobile regulation And a satellite control unit to prevent radioactive contamination of the hull. Construction Machinery Nuclear Power Plant Nuclear Waste Treatment Unit (811a) Enlargement of marine power plant Maintaining tanks of marine power stations Top tank barge hull (591) and holding tank bottom barge hull 592 to the secondary structure block tank 598 central supporting tanks and the auxiliary supporting coupling detachable portable lug coupling pin connection shaft 606 and the portable lug 607 at the same time, Nuclear Power Generation Facilities of Nuclear Power Generation Facilities (811) Nuclear Waste Disposal Ship Hull Location Moving Elemental Nuclear Power Generation Facility Showing Construction Machinery Control Section Construction of Marine Power Plant for Construction of Marine Power Plant Steel pipe bending method for piping block of food warehouse and double pipe structure inside pipe Partial section showing the front side structure detailed block diagram and a block of steel pipes for nuclear power plant support sikdok hull assembly method showing a manufacturing process diagram.
[Figure 63] Figure 63 is a schematic diagram of a nuclear power plant (811) constituted inside the main body (1) of the pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention, 811a) is equipped with a nuclear power generation production control unit (811b) for generating power production showing the construction of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, An elemental marine power plant showing the construction of one embodiment of a nuclear power plant operating a nuclear power plant having a dual structure reactor facility body (1) The hull positional movement of several marine hydroelectric power plant flood control consoles (593, 594, 595) (1) Inside the main body (1) of the pressurized water type double structure reactor facility (593,594,595) Hull location Moving machinery construction equipment control (811a) Moving control construction machinery Location development showing the position control arrangement And a satellite control unit for prevention of nuclear radioactive contamination. Construction Machinery Nuclear Power Plant Nuclear Waste Treatment Facility Extension of the marine power plant to the marine power plant The holding tank top of the flood control consignment tank The upper barge hull (591) and the holding tank lower barge hull (592) Dual structural block tank 598 Core supporting tanks and auxiliary support detachment Portable lug coupling pin 606 and portable lug 607 for elemental detail assembly assembly at sea (811) Nuclear power plant nuclear waste treatment unit (811a) Ship position transfer Elementary nuclear power plant showing construction of the control unit of the construction machinery Pipeline construction Shipbuilding bridge (928), which constitutes the main part of the marine nuclear power plant, The marine tunnel consisting of the bridge (937) and the inside of the marine tunnel traffic device (941) Internal train (771) Marine Nuclear Hydroelectric Power Plant Construction System is a perspective configuration of the connection structure.
[64] FIG. 64 is a diagram showing an arrangement of a facility control unit (not shown) of a flood control system for a floating-type floodplane hull locating and construction machine included in a nuclear power plant 811 constituted inside a main body 1 of a pressurized water double- 811a) includes a hydroelectric power production control unit (811b) for generating power production showing the construction of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, An elemental offshore power plant showing the configuration of a nuclear power plant operating a nuclear power plant providing a water double-structure reactor facility. A hydroelectric power plant for the control of hull position movement of several ocean power plant flood control consoles (593,594,595) (1) The internal structure of the dual structure reactor (1) Several marine nuclear power plant Hydroelectric support sikdok (593594595) Ship positioning control of construction machinery parts (811a) shows the development of the universe construction equipment position control to adjust the configuration of the mobile And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant Nuclear waste disposal unit of marine power plant Enlargement of the marine power plant The holding tank of the flood control consignment tank The upper barge hull (591) and the holding tank lower barge hull (592) Dual structural block tank 598 Core supporting tanks and auxiliary support detachment Portable lug coupling pin 606 and portable lug 607 for elemental detail assembly assembly showing floating assembly hull assembly at sea Nuclear power plant (811) Nuclear power plant nuclear waste disposal unit (811a) Ship position transfer Elementary nuclear power plant showing construction of the control unit of the construction machinery Pipeline construction Shipbuilding bridge (928), which constitutes the main part of the marine nuclear power plant, To illustrate the overall configuration of a marine nuclear hydroelectric power station floodplane comprising the bridge (937) and the interior of the marine tunnel traffic system (941) A structure showing the construction of the distribution system of the marine nuclear hydroelectric power plant with the whole structure showing the dual structure holding tank and the lifting stand combination system is shown as a decomposition-coupling unit of the marine nuclear hydroelectric power plant floating block block tank This is a schematic diagram of a marine nuclear power plant flood control system showing the decomposition and coupling structure of the block tank of the stand.
[65] FIG. 65 is a schematic diagram of a facility control unit (not shown) included in the nuclear power plant unit 811 constructed inside the main body 1 of the pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention 811a includes a nuclear water power generation production control unit 811b that provides power production showing the construction of the double pipe structure piping line regulating side 238 of the nuclear waste disposal of the nuclear power plant, (593, 594, 595) constructed at the upper part of the deck (SDU) of the hull of the ship. Hydraulic power plant construction machine An elemental ocean source nuclear waste treatment showing the position control configuration. Pressurized water type double structure reactor facility main body (1) Power plants dependent sikdok (593594595) Ship positioning control of construction machinery parts (811a) shows the development of the universe construction equipment position control configuration of the mobile regulation And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant Nuclear waste disposal unit of marine power plant Enlargement of the marine power plant The holding tank of the flood control consignment tank The upper barge hull (591) and the holding tank lower barge hull (592) Dual structural block tank 598 Core supporting tanks and auxiliary support detachment Portable lug coupling pin 606 and portable lug 607 for elemental detail assembly assembly showing floating assembly hull assembly at sea Nuclear power plant (811) Nuclear power plant Nuclear waste disposal Ship hull location Elementary nuclear power plant showing construction of the control section of the construction machinery Pipeline The pipe bridge (928) and the bridge bridge (937) constituting the main part of the marine nuclear power plant ) And the interior of the marine tunnel traffic system (941). A block diagram of the assembly structure of the marine nuclear power plant flood control system showing the combined structure of the crude storm tank and flood control system is shown in Fig. This is a schematic diagram of a marine nuclear power plant lifting plant nuclear power plant lifting cocoon hull assembly method showing the disassembly and coupling type configuration in tank unit.
FIG. 66 is a schematic diagram of a nuclear power plant 811 constructed in the main body 1 of a pressurized water reactor type nuclear reactor waste water treatment plant for marine resources according to the present invention, 811a), a marine nuclear power generation production control unit (811b), which provides power production showing the construction of a double pipe structure block pipeline control shaft (238) for nuclear waste disposal of a nuclear power plant, Nuclear power plants operating a nuclear power plant providing a structural reactor facility An elemental marine power plant dock showing the configuration of an example Hydraulic power plant for controlling the displacement of several marine hydroelectric power plants (593,594,595) constructed on the upper part of a deck of a ship (SDU) (1) The internal structure of the double-structure reactor facility for pressurized water treatment (593,594,595) Hull Location Moving Equipment Construction Controls (811a) Construction Controls of Moving Controls Space Controls And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant Nuclear waste disposal unit of marine power plant Enlargement of the marine power plant The holding tank of the flood control consignment tank The upper barge hull (591) and the holding tank lower barge hull (592) Dual structural block tank 598 Core supporting tanks and auxiliary support detachment Portable lug coupling pin 606 and portable lug 607 for elemental detail assembly assembly showing floating assembly hull assembly at sea Nuclear power plant (811) Nuclear power plant Nuclear waste disposal Ship hull location Elementary nuclear power plant showing construction of the control section of the construction machinery Pipeline The pipe bridge (928) and the bridge bridge (937) constituting the main part of the marine nuclear power plant ) And the interior of the marine tunnel traffic system (941). A block diagram of the assembly structure of the marine nuclear power plant flood control system showing the combined structure of the crude storm tank and flood control system is shown in Fig. This is a schematic diagram of a marine nuclear power plant floatation type nuclear hydroelectric power plant flood control hull assembly method showing the disassembly and coupling system configuration by tank unit.
[Figure 67] Figure 67 is a schematic diagram of a nuclear power plant (811) constructed inside a main body (1) of a pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention, 811a) includes a hydroelectric power production control unit (811b) for generating power production showing the construction of the double pipe structure piping line regulating side (238) of the nuclear waste disposal of the nuclear hydroelectric power plant, An elemental offshore power plant showing the configuration of a nuclear power plant operating a nuclear power plant providing a water double-structure reactor facility. A hydroelectric power plant for the control of hull position movement of several ocean power plant flood control consoles (593,594,595) (1) The internal structure of the dual structure reactor (1) (593, 594, 595) Hull Location Moving Equipment Construction Control Equipment (811a) Moving Controls Construction Machinery Space Control And a satellite control unit for prevention of nuclear radioactive contamination. Construction machinery Nuclear power plant Nuclear waste disposal unit of marine power plant Enlargement of the marine power plant The holding tank of the flood control consignment tank The upper barge hull (591) and the holding tank lower barge hull (592) Dual structural block tank 598 Core supporting tanks and auxiliary support detachment Portable lug coupling pin 606 and portable lug 607 for elemental detail assembly assembly showing floating assembly hull assembly at sea Nuclear power plant (811) Nuclear power plant nuclear waste disposal unit (811a) Ship position transfer Elementary nuclear power plant showing construction of the control unit of the construction machinery Pipeline construction Shipbuilding bridge (928), which constitutes the main part of the marine nuclear power plant, To illustrate the overall configuration of marine nuclear power plant flood control consoles comprising the bridge 937 and the interior of the marine tunnel traffic system 941 This is an example of the construction of a marine nuclear power plant floating feeder distribution system with a full-scale deployment scheme showing a mid-tank holding tank and a flood-control system. This is a schematic diagram of a marine nuclear power plant float-type nuclear hydroelectric power plant float-type hood assembly method showing the decomposition-coupling system configuration in block tank unit.
[Figure 55] to [Figure 67] are schematic diagrams illustrating an embodiment of a marine nuclear hydroelectric power plant having a dual structure nuclear reactor water treatment type nuclear reactor waste water treatment plant according to the present invention.
68 is a schematic view showing a conventional pressurized water reactor (hereinafter, referred to as &quot; water reactor &quot;) included in a nuclear hydroelectric power plant 811 constituted inside a main body 1 of a pressurized water double- (803) A pressurized water reactor (803) of a conventional nuclear power plant showing an essential constitution of an embodiment formed by the operation of the nuclear power plant of the nuclear power plant. The elemental pressurized water reactor type reactor (803) side perspective configuration.
[69] FIG. 69 is a graph showing the results of a conventional pressurized hard water contained in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility 1 having the double structure block tank dust collector according to the present invention, Type nuclear reactor facility (803). FIG. 8 is a side view showing an elementary structure of a pressurized water reactor type nuclear reactor (803) nuclear power plant of a conventional nuclear power plant showing an essential constitution of an embodiment formed by operation of a nuclear power plant.
[70] FIG. 70 is a view showing a conventional hydro-hydro-power plant unit 811 constituting an inside of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste disposal with a double structure block tank dust collector according to the present invention, Type nuclear reactor facility (803) A pressurized water reactor type nuclear reactor (803) of a conventional nuclear power plant showing the essential constitution of an embodiment formed by the operation of the nuclear power plant of the nuclear power plant. The elemental pressurized water reactor type nuclear reactor 803) side perspective view.
FIG. 71 is a graph showing the relationship between the conventional pressurization (pressurized water) contained in the nuclear hydroelectric power plant 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility 1 having the dual structure block tank dust collector according to the present invention, (803) A pressurized water reactor (803) of a conventional nuclear power plant showing an essential constitution of an embodiment formed by the operation of the nuclear power plant of the nuclear power plant. The elemental pressurized water reactor type reactor (803) side perspective configuration.
72 is a schematic view showing a conventional pressurized water reactor including a double structure block tank dust collector according to an embodiment of the present invention, Water reactor type nuclear reactor (803) Elemental pressurization shown in a decompressing side of a pressure vessel (813) of a pressurized water reactor type reactor (803) of a conventional nuclear power plant showing an essential constitution of an embodiment formed by operation of a nuclear power plant FIG. 22 is a perspective view of the decompression side wall of the pressure vessel 813 of the water-cooled reactor installation 803. FIG.
FIG. 73 is a graph showing the results of a conventional nuclear reactor power plant nuclear waste treatment method included in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention 1029 from a decommissioning facility 1030 to a nuclear waste disposal system 1040 according to a conventional design of a nuclear waste disposal process 1040.
74 shows a conventional thermal power plant 626 having a power plant connection structure equivalent to that of the nuclear power plant 811 constituted inside the main body 1 of the pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, The thermal power generator 772 of the thermal power plant 626 of the thermal power plant 626 shown in the external view in terms of the operation of the thermal power generator 772 of the conventional thermal power plant 626 showing the essential constitution of the thermal power generating operation of the thermal power plant 626, This is an elemental side view of the outer strap.
FIG. 75 is a schematic diagram illustrating a conventional nuclear power plant including a nuclear power plant 811 constituted inside a main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, A nuclear waste disposal apparatus for a nuclear power plant having a nuclear waste disposal apparatus provided for the purpose of operating a nuclear waste disposal apparatus, A nuclear waste disposal apparatus for a nuclear power plant of a conventional nuclear power plant.
76 is a schematic view showing a boiling water reactor unit 802 included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention, Equipment (803) Nuclear waste disposal type double-structure reactor facility 1 of the conventional nuclear power plant for nuclear waste treatment only for a conventional nuclear power plant shown in cross section of a conventional nuclear power plant showing an essential constitution of an embodiment formed by nuclear power plant operation of nuclear power plant Of the nuclear power plant of the boiling water reactor system 802 and the pressurized water reactor system 803 of the nuclear power generation facility unit 811 constituted by the nuclear power plant.
77 is a view showing the nuclear waste generated inside the production power central control room 781 included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, Operation of Nuclear Power Plant with Nuclear Power Plant Having Cutter and Robot 912 by Remote Control of Processing Apparatus The production power central control room 781 of the nuclear power generation facility 811 of the nuclear power plant during operation of the nuclear power plant, The nuclear waste disposal method of a nuclear power plant having a cutting machine and a robot (912) by a remote control of a nuclear waste disposal apparatus built in the inside of a nuclear power plant, (811) Production power Nuclear waste disposal device consisting of inside of central control room (781) Cutter and robot by remote control (912) Nuclear waste treatment facility Of an exploded side perspective view diagram.
FIG. 78 is a schematic view showing the structure of a nuclear power plant providing nuclear fuel industry cycle 1077 included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention. The atomic power plant operation of the nuclear power plant 811 showing the configuration of the nuclear power plant operation example of the nuclear power plant unit 811, the nuclear fuel industry cycle 1077, FIG. 10 is an exploded side perspective view of a nuclear fuel process cycle and a repair inspection scene of a nuclear fuel industry cycle (nuclear reactor) 811 nuclear fuel industry cycle 1077 during the operation of a nuclear power plant of a conventional nuclear power plant.
79 is a view showing a nuclear power plant (nuclear power plant) 811 constructed in the main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, Nuclear Power Generation Facilities (811) Operation of Nuclear Power Plant Nuclear Power Generation Facilities showing the configuration of a nuclear power plant of a power plant The nuclear power generation facility of a conventional nuclear power plant Fig. 3 is an exploded side view of the operation of the thermal power generation operation of the thermal power plant during operation.
FIG. 80 is a schematic diagram showing a nuclear power plant (nuclear power plant) 811 constituted inside a main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, Nuclear power generation facility part (811) of a conventional nuclear power plant showing the construction of one embodiment of the nuclear power plant of the power plant The turbine rotating blade (267) of the thermal power generation operation method of the conventional thermal power plant and the operation method of the steam locomotive Is a side view showing the constituent elements of the thermal power generation operation mode of the thermal power plant of the nuclear power generation facility 811 constructed inside the main body 1 of the pressurized water type pressurized water reactor for marine resources only.
FIG. 81 is a schematic diagram of a nuclear power plant (nuclear power plant) for providing thermal power generation operation of a thermal power plant included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water double- Nuclear power plant 811 steam pipe 779 and steam or strong gas high-temperature high-pressure steam inlet 780 and the boiler operating core inside the boiler (see FIG. 783 are decomposed in side view and in cross-section. FIG. 8C is a schematic side view of a constituent aspect of a thermal power generation operation method of a decomposition side thermal power plant of a nuclear power generation facility 811 during operation of a nuclear power plant of a conventional nuclear power plant.
FIG. 82 is a diagram illustrating a conventional nuclear power plant unit 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention. The nuclear power generation facility 811 of the conventional nuclear power plant showing the construction of one embodiment of the nuclear power plant in which the construction of the nuclear power plant of the nuclear power plant is shown showing the construction of the connection structure of the conventional production power central control room 781 and the transmission measuring room transformer room 782 This figure shows the elemental aspect of the thermal power generation operation method of the thermal power plant showing the thermal power generation and operation methods of the nuclear power operation side.
FIG. 83 is a schematic view showing a selenium rectification type apparatus for inputting into a plurality of types of welding systems included in a nuclear power plant unit 811 constituted inside the main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention. DC arc welder and AC arc welder Other than the conventional AC arc welder and the AC arc welder, an electronic control device included in the nuclear power generation facility 811 of the conventional nuclear power plant constituting an embodiment of the pressurized water reactor for nuclear waste disposal, A conventional AC welding machine and AC arc welding machine other than the selenium rectification type DC arc welding machine and the AC arc welding machine which are inserted into a plurality of types of welding methods of the welding machine 811f.
84 is a view showing a configuration of a power transmission unit 811d for transmitting power included in a nuclear power plant 811 constituted inside a main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the present invention A superconducting power generator 1060, a superconducting power generation line 1061, a superconductor 1062, an electromagnetic force 1063 constituting a scheme 1079 of an electromagnetic propulsion line, a magnetic force 1064, The nuclear power plant of the conventional nuclear power plant constituting one embodiment of the pressurized water reactor facility for processing the nuclear waste of the magnetic levitation train 1066, the magnetic levitation train 1066, the semiconductor 1067 and the new material 1068, The superconducting power generator 1060, the superconducting power line 1061, the superconductor 1062, and the scheme 1079 of the electromagnetic propulsion line constituted by the superconducting power generator 1060, the superconducting power generator 1060, the power transmission portion 811d, An electromagnetic force 1063, a magnetic force 1064, and a magnetic levitation high-speed road (1065), and a side perspective structure of the Maglev train 1066, a semiconductor 1067, and a new material 1068 FIG.
[85] FIG. 85 is a view showing an electronic control regulating apparatus construction machine control unit 811f included in the conventional nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility 1 for marine nuclear waste treatment according to the present invention. And a hydraulic cylinder 623 and a door excavator 856 for a hydraulic cylinder in the hydraulic rotary cylinder 620. The operation of the conventional nuclear power plant is the same as that of the conventional nuclear power plant, The disassembled side of the bulldozer 855 and the excavator 866 of the construction machine constituting the construction site 1083a of the North Korean construction ceremony connected to the north and north roads of the electronic control adjusting apparatus construction machine control unit 811f included in the power generation facility unit 811, And a hydraulic cylinder 623 and a door excavator 856 for a hydraulic cylinder in the hydraulic rotary cylinder 620. The hydraulic excavator 856 is a hydraulic excavator.
86 is a power transmission unit 811d for transmitting the power contained in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention And the submarine mineral collecting robots 912 are a lateral sash construction view of a partial new material 1068 made up of shape memory alloy new materials 1068. FIG.
87 is a view showing a partial new material (FIG. 87) composed of new materials 1068 included in the nuclear power plant 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention 1068), and a superabsorbent resin (1081), and is equipped with a pressurized water type double structure reactor facility for processing a nuclear waste only source for a marine nuclear power plant, which constitutes an embodiment of a marine nuclear power plant. Absorbing resin 1081 of the part of the new material 1068 constituted by the new materials 1068 included in the in-operation nuclear power plant 811. Fig.
88 is a view showing the structure of the reciprocating engine constituting the aircraft 1108 included in the nuclear power plant 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine nuclear waste treatment according to the present invention (1109) and an airplane inspection view (1110).
[89] FIG. 89 shows an embodiment of a nuclear power plant 811 constructed inside a main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the present invention. (593,594,595) of a number of marine nuclear power plants, a boiling water reactor (802), a pressurized water reactor (803), a gas cooling furnace reactor (804), and a multipurpose hot gas reactor (805), a new conversion furnace reactor (806), and a high-speed proliferation furnace reactor (838). (593,594,595) of several marine nuclear hydroelectric power plants constructed inside the structural reactor facility main body (1) Several nuclear reactor facilities Several nuclear hydroelectric power plants A boiling water reactor unit 802, a pressurized water reactor unit 803, a gas cooling furnace reactor unit 804 and a multipurpose hot gas reactor unit 805 to be supplied to a floating plant (593,594,595) nuclear power plant 672 of a power plant, This is a side cross-sectional view of the nuclear power plant operating system consisting of the nuclear power plant (806) and the fast breeder reactor facility (838).
FIG. 90 shows an embodiment of the nuclear power plant 811 constituting the inside of the main body 1 of the pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, (593, 594,595) nuclear power plant (672) and a pressurized water reactor facility (803) to be installed in a nuclear power plant as a construction machine in a marine nuclear hydroelectric power plant. (1) Inside of a large number of nuclear reactors (593,594,595) Nuclear power plants (672) of a number of marine nuclear hydroelectric power plants showing the construction of nuclear power plants And a pressurized water reactor unit (803) to be charged is constituted by a construction machine.
FIG. 91 is a schematic diagram showing the construction of a pressurized water reactor installation 803 (see FIG. 91) in a nuclear waste treatment reactor installation included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water double- ), Which is a nuclear waste disposal type nuclear reactor, is installed in a nuclear water hydraulic power plant having a dual structure block tank dust collector for injecting nuclear waste FIG. 8 is a side view showing a construction of a pressurized water reactor assembly 803 according to an embodiment of the present invention, in which the pressurized water reactor assembly 803 is constructed by a construction machine.
92 is a schematic view showing the construction of a pressurized water reactor installation 803 (see FIG. 92) in a nuclear waste treatment reactor facility included in a nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine source exclusive nuclear waste treatment according to the present invention. ) To a nuclear power plant having a double structure block tank dust collector constituting an embodiment of a nuclear waste treatment reactor facility coupling method for providing input to a construction machine. A side structure of a disassembly-type system constituting a pressurized water reactor facility (803) constituting a pressurized water reactor type double-structure reactor facility for ocean nuclear waste treatment for marine resources, which is an embodiment of a decomposition- .
FIG. 93 is a schematic diagram showing the structure of a pressurized water reactor apparatus (hereinafter referred to simply as a "reactor apparatus") constituting a nuclear waste treatment reactor facility included in a nuclear power generation facility unit 811 constituted inside a pressurized water dual structure nuclear reactor facility main body 1 for marine nuclear waste treatment, (803) constituting a nuclear hydraulic power plant having a double structure block tank dust collector constituting an embodiment of a nuclear waste treatment reactor facility coupling method for providing a nuclear power plant reactor (803) One embodiment of a pressurized water type double structure reactor facility for nuclear waste treatment for elemental marine resources showing decomposition coupling method is shown in FIG. 1, which is a schematic view of a pressurized water reactor installation 803 are constituted by a construction machine.
FIG. 94 is a schematic diagram showing the construction of a pressurized water reactor installation 803 included in the nuclear power generation facility 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, In one embodiment of the present invention, an embodiment of a double-structure reactor installation for pressurized water treatment for nuclear waste treatment for marine resources, which constitutes an embodiment of a combined method, is a marine nuclear power plant having a pressurized water reactor installation for treating nuclear waste of the present invention, And is a side view of a disassembly and coupling system constituting a pressurized water reactor installation 803 to be introduced.
FIG. 95 is a schematic diagram showing a configuration of a nuclear waste disposal apparatus for nuclear waste disposal included in a nuclear power generation facility unit 811 constituted inside the main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention A double structure block tank constituting an embodiment of a distributing and inputting device coupling system for supplying a pressurized water reactor installation (803) to a construction machine; a pressurized water reactor installation for processing nuclear waste of a nuclear power plant having a dust collector; And the pressurized water reactor unit 803 constituting the pressurized water reactor unit 803 constituting the pressurized water reactor unit 803 is constituted by a construction machine. Waste Treatment The deep water reactor (803) that constitutes a pressurized water double structure reactor installation is constructed by a construction machine. Before the reactor equipment-side, a cross-sectional perspective diagram.
[96] FIG. 96 is a view showing an embodiment of a nuclear waste nuclear waste disposal unit included in a nuclear power generation facility unit 811 constructed inside a main body 1 of a pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention (593,594,595) of several offshore and offshore nuclear hydroelectric power stations on land and ocean, which consist of multiple nuclear reactor facilities, and a nuclear reactor (672). Nuclear waste treatment Double structure block tank bridge (929) Construction of nuclear power plant consisting of construction machinery Nuclear power plant (672) that constitutes nuclear waste disposal Nuclear power plant consisting of multiple nuclear reactor facilities as construction machine Several marine (593,594,595) of a nuclear power plant and nuclear waste (672) of a nuclear waste treatment double structure block tank bridge (929) A plurality of nuclear reactor facility arranged to configure equipment in nuclear power plant operation method scene of a nuclear power plant 672, which consists of a construction machine system aspect is a cross-sectional diagram.
97 is a view showing an example of a nuclear waste nuclear waste treatment unit 811a included in a nuclear power generation facility unit 811 constructed inside a main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the present invention, (593, 594, 595) nuclear power plants (672) of several offshore and offshore oceanic hydroelectric power plants comprising a plurality of nuclear reactor facilities constituting the nuclear reactor waste building (929) A nuclear reactor (672) that constitutes reactor operation nuclear waste disposal consisting of a nuclear reactor construction equipment consists of a plurality of nuclear reactor facilities as a construction machine. (593,594,595) at nuclear power plants of several marine nuclear power plants (672) nuclear waste treatment dual structure block tank bridges (929) (672) of a nuclear power plant operating system comprising a construction machine and a rain.
FIG. 98 is a schematic diagram showing a power transmission unit for transmitting disaster prevention preventive control power included in the nuclear power plant unit 811 constituted inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, When the heater of the nichrome wire 659 is installed inside the doctor ventilation 585 in front of the fan 195 constituted by the heater fan 811d, the heater fan 642 for keeping the air warm is blown The cooling device and the hot air balloon are connected to the transformer room 782 and the central control room 781 in the engine 226 of the power generator, And a plurality of blowers 941 in the nuclear power plant 811 constructed as a nuclear power plant dedicated to the nuclear power plant for marine nuclear power generation.
FIG. 99 is a schematic diagram of a power transmission unit for transmitting disaster prevention preventive control power included in a nuclear power plant 811 constituted inside the main body 1 of a pressurized water type nuclear reactor waste water treatment plant for marine resources according to the present invention, The second generation, the IC, and the third generation, and the LSI and the VLSI, respectively. The fourth generation is the fourth generation, The IC, which is the heart of the fifth generation of computers that will be equipped with the artificial intelligence to compose computation and processing by themselves, is a semiconductor, a new material, and a Rotary cylinder (rack and pinion type -NRP, 620) And a rotary cylinder (rack and pinion), which is provided in the nuclear power plant 811 constituted inside the main body 1 of the pressurized water double-structure reactor facility for ocean nuclear waste treatment as shown in FIG. Figure 6 shows a side perspective view of the type that consists of open type -NRP, 620 devices.
100 is an excavation equipment used on the land included in the nuclear power plant 811 constructed inside the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment according to the present invention, A hydraulic cylinder 623 which is provided with a hydraulic excavator 845 and is configured to be disassembled and disassembled into a hydraulic cylinder 623 and an excavator 845 by a crane 861 and an excavator 845 After that, it is equipped with a construction machine that builds a foundation pier of the bottom of the sea by using a bolt hammer which is used for the connection of the bolt nut for pier foundation column work. The barge ship hull (591) .
101 is a schematic diagram showing a conventional pressurized water reactor type reactor facility 803 included in the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention, The pressure of the elementary pressurized water reactor type nuclear reactor 803 shown in the side view of the decompression inside the pressure vessel 813 of the pressurized water reactor type nuclear reactor 803 of the conventional nuclear power plant showing the essential constitution of one embodiment formed by the operation of the nuclear reactor And FIG. 8B is a perspective view of the internal decomposing side strainer of the container 813.
FIG. 102 is a view showing an example of an embodiment of a nuclear power plant constructed by operation of a nuclear power plant of a conventional nuclear power plant included in a nuclear power plant unit 811 constituted inside the main body 1 of a pressurized water type double structure reactor facility for marine nuclear power generation Figure 23 shows the structure of the fissile fission of uranium-235 nuclear fuel, showing the structure of the nuclear fission of uranium-235,
[FIG. 103] is a diagram showing a nuclear chain reactor internal nuclear fuel fission inside a nuclear power plant included in a nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for marine nuclear waste treatment according to the present invention The middle side view is a side view showing the difference between the atomic bomb and the reactor, and the lower drawing is a side view showing the process of generating the plutonium in the uranium 238, A steam generator 810, a pressurizer 814, and a coolant 816 of a tiller reactor vapor take-off system 1073,
FIG. 104 is a view showing a configuration of one embodiment formed of a conventional nuclear power plant included in a nuclear power plant 811 constituted inside the main body 1 of a pressurized water type nuclear power plant for marine nuclear power generation according to the present invention. Sectional view of the elementary conventional nuclear power plant reactor building 688 and the cross section of the elementary reactor building 688 and fuel rods 689 detailed side view of the fuel rods 689 in detail.
[105] FIG. 105 is a view showing a configuration of one embodiment formed of a conventional nuclear power plant included in a nuclear hydroelectric power plant unit 811 constituted inside the pressurized water type double structure reactor facility 1 for marine nuclear waste treatment according to the present invention Sectional view of a cross section of an elemental reactor building 688 showing an exemplary conventional nuclear power plant reactor building 688 explosion configuration.
[Fig. 74] to [Fig. 105] are diagrams illustrating an embodiment of a marine nuclear power plant having a main body 1 of a pressurized water double-structure reactor facility for marine resource- to be.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. Therefore, the present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the width, length, thickness, and the like of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

The main constituent of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste disposal with a dual structure block tank dust collector of the present invention is K SD 3705 hot rolled stainless steel as a material first, and it is selected as the upper part of the sea surface and the upper surface of the earth The use of a dual structure firefighter jet nozzle device is provided,

In a nuclear power plant facility constituting a distribution input device of a nuclear reactor waste treatment facility of a marine nuclear hydroelectric power plant having a dual structure block tank dust collector,

K SD 3705 Hot-rolled stainless steel pipe with cylindrical shape and double structure block tank holding tank and double structure block tank The inner block tank and the outer block tank installed on the outside of the circumferential surface of the holding tank are supported and reinforced on the barge hull The material selection is made with KS D 3705 steel (KS symbol: S TS x HP, S TS te ain less S-Steel H-Hot P-plate)

The size of the floodplain, which constitutes several marine nuclear hydroelectric plants,

Small floating floodgate block block that constitutes a small floatable dock In the upper barge hull size,

Width × length × height × thickness of steel plate (Tie), 600M × 800M × 40M × 30mm,

Medium lifting type poison holding block that constitutes a medium lifting stand The tank top upper barge hull size,

Width × length × height × thickness of steel plate (Tie; mm), 2 km × 3.2 km × 40 M × 32 mm,

Large float-type poison pillars that make up a large floodplain block tank tank top barge hull size,

Width × length × height × thickness of steel plate, 10km × 12km × 40M × 35mm in three forms of the distance of the standard crossing the earth,

Nuclear waste treatment of 40.000km standard constituting the crossing of the earth Double structure block tank pipe bridge In the marine tunnel traffic equipment,

40.000km Nuclear waste treatment Double structure block tank pipe bridge Marine tunnel equipment,

The standard specification of the above-mentioned Marine Nuclear Hydroelectric Power Plant equipment distributing /

It is composed of a marine nuclear hydroelectric power plant facility distribution dispenser which consists of four sides of width × length × corner thickness × thickness of steel plate × production unit length (15M × 15M × π 15M × 35mm × 0.5km).

Nuclear waste treatment dual structure block tank bridge bridge composed of marine nuclear hydroelectric power plant facility distributing and inputting equipment Marine tunneling equipment of marine tunnel traffic facility of marine tunnel traffic equipment facility (15M × 15M × π15M × 35mm × 0.5km) The bridge,

5m in diameter and 5m in depth of 5m at the depth of the sea floor,

A double pipe structure tank pipe which composes a marine tunnel traffic facility. Several bands for construction of a pier bridge and several construction machines are installed. The pipe bridge is installed at a height of 300m above sea level,

It is designed to be built with several band guides and several construction machines for the installation of anti-sinking rescue vessels which constitute a marine nuclear hydroelectric power plant equipped with a pressurized water reactor for nuclear waste disposal, and then to the top of the sea level (SLL) It is desirable that all maritime vessels should be equipped with safety mooring vessels equipped with a mooring device to prevent sinking by providing a height adjustment, and it should be composed of 10.000 people shelters in case of an earthquake.

                  (Example 1. [TEST 1])

As shown in Figs. 1 to 105, preferably, in a pressurized water double structure nuclear reactor facility for treating a nuclear waste for marine resources only,

The double structure block tank 598 is provided with a bow and a stern connection, while a welding process is performed to the banding joint portion of the high-strength stainless steel steel plate 597 with a welding machine, a cutting tool, a drill lathe, A large flange 614 is provided at the connecting portion of the large flange 614 to form a double structure reactor assembly for pressurized water nuclear waste treatment for marine resources in the manufacturing process lathe process, Respectively,

The same dual-structure block tank 598 as the inner block tank 596 and the outer block tank 599 located outside the inner block tank 596 has the same structure as the double- ,

The pressurized water type double structure reactor installation includes a first auxiliary steel pipe 600 for a block tank and a second auxiliary steel pipe 600 for a block tank which provide a connection between the inner block tank 596 and the outer block tank 599, The first auxiliary steel pipe 600 for the block tank, the second auxiliary steel plate 601 for the block tank, the vertical partition wall 605, and the second auxiliary steel plate 605 for the block tank are provided with the horizontal partition wall 605, the horizontal partition 609, the steel beam 149, The horizontal barriers 609 and steel beams 149 and the snap holes 602 and the diaphragm manholes 610 are separately cut by a computer laser cutter and then transported to a crane. A dual structure block tank 598 welded to provide a double-walled reactor structure for pressurized water to provide nuclear waste treatment;

The body of the inner block tank 596 for manufacturing the inner block tank 596 constituting the nuclear waste treatment is moved to the inner position of the outer block tank 599 by the overhead crane 861 and the conveyor 633 And the inner block tank (596) is welded to the inside of the outer block tank (599) of the pressurized water type double structure reactor facility, (593,594,595) facilities of the power plant, and a double structure nuclear reactor for nuclear power plant,

(928), nuclear waste treatment double structure block tank pipe bridge (929), double structure block tank pipe bridge (937) and nuclear waste treatment double structure block tank A plurality of distribution sides and double structure block tanks 598 for providing nuclear waste disposal with connectionable disconnection structure connected to the tunnel traffic apparatuses 941 are connected to a double structure reactor (705) consisting of the inside of the facility body (1);

The nuclear power plant of the marine nuclear power plant (811) of the marine nuclear power plant equipment of the floating position control of the marine plant (593,594,595) of several marine nuclear power plants constituting inside the main body (1) of the pressurized water double- Hull position transfer Nuclear waste disposal for the construction of the input of the construction machine For the pressurized water double structure reactor facility,

A nuclear power generation nuclear waste treatment unit 811a, a power generation and production unit 811b, a traffic transportation unit 811c of a construction machine, and a power transmission unit 811c that constitute the inside of the nuclear power generation facility 811 of the dual structure nuclear power plant, A power transmission unit 811d, a nuclear power plant safety control production production front end 811e, an electronic control adjustment apparatus construction machine control unit 811f, an electronic sensor valve screw control unit 811g, A fire fighting natural disaster prevention control section 811j, a snowfall natural disaster prevention control section 811k, a fire natural disaster prevention control section 811h, a forest fire natural disaster prevention control section 811i, A flood natural disaster prevention control section 811n, a drought natural disaster prevention control section 811o, a landslide natural disaster prevention control section 811p, And a control unit 811q for controlling the fish and shellfish scattering of the fish, A dam control unit 811s connected to the control unit 811r for controlling the fish and shellfish scattering, a control unit 811t for controlling the supply of groundwater and deep seawater, A shared water surface embedding process control unit 811u, And a satellite control unit 811z for preventing radioactive contamination of the nuclear power plant, so as to constitute a nuclear power plant 811 inside the pressurized water type double structure reactor facility main body 1 for processing a nuclear waste.

A vertical partition wall 605 in which a partition wall manhole 610 constituting a pressurized water double structure reactor installation of the nuclear power generation facility unit 811 is formed and a communication device hydraulic cylinder door 624 provided in the horizontal partition wall 609 and an emergency stair step staff (631) The equipment consists of the transportation equipment provided by the welding process;

The plurality of stopper plates 625, which are provided as a connection structure of a traffic device at the time of repairing both inside and outside of the double structure block tank 598 constituting the pressurized water double structure reactor installation,

(597) Bending and bending machine of high-tensile strength stainless steel with bending type roller bending machine and three bending roller bending machine of press braking type bending machine of section steel bending bending machine, 625 are provided,

A plurality of inner block tanks 596 and a plurality of outer block tanks 599 of a double structure block tank 598 constituted by a cap-tight fitting assembly of a double structure block tank 598, A welding process for welding the plug-and-hold assembly of the plug plate 625 without the large-sized flange and the bolting assembly provided in an egg-shape with the upper and lower ends of the double structure block tank and the large- And the distribution system of the double structure nuclear reactor equipped with the pressurized water,

Double-structure barge hull (591) at the top of a holding tank inside the main body (1) of the pressurized water double-structure reactor facility for treatment of nuclear waste for marine resources consisting of distributing and inputting devices of the above reactor facilities is located at the upper part of the hull deck (SDU) The cranes 861 having a capacity of 5000 tons for installing the guide rails 618 to the left and right sides of the deck deck,

The transportation chain cranes 861 are positioned on the guide rail 618 at the upper end of the deck deck and the double and triple sliding hatch covers 153 are fixed to the opening and closing ports at the time of renovation,

When the lid of the semicircular stopper plate 625 is dismantled, the crane 861 is connected to the disassembly-engaging portable lug of the block tank locomotive control device formed in the double structure block tank dust collector 794, at the crane boom of the construction machine crane 861 651 and a shackle and a crane boom hook ring 652 to provide a connection with a portable lug formed in the double structure block tank dust collector 794 to move the double structure nuclear reactor processing equipment and,

The deck deck configured to feed the dual structure reactor facility is provided with several openings to allow the crane 861 to operate and to position the dual structure block tank dust collector 794, A double structure block tank dust collector 794 is provided in the inside of the hull 591 so that a nuclear waste disposal empty space is located inside a double structure nuclear reactor waste processing type dual structure reactor facility for a dual structure barge hull 591;

And a crane 861 constituting the inside of the barge hull 591. The wire rope and the shackle of the crane boom 651 of the construction machine crane 861 are connected to the disassembly- A double-walled block tank cleaner (803) is connected to the deck deck of the pressurized water reactor assembly (803) with a crane boom hook hook (652) 794), the pressurized water reactor installation 803 is positioned inside the double structure barge hull 591, and then a double structure reactor installation for a nuclear waste treatment for pressurized water for the ocean source is provided,

After the assembly of the integral stopper plate 625 of the double structure reactor installation is completed, the opening is provided with the double and triple sliding hatch covers 153 being closed by the clamping device,

In the marine nuclear power plant having the dual structure reactor facility 803, the cooling water 287 constituting the control material of the nuclear fuel explosion prevention and the hot water double structure reactor facility for the nuclear waste disposal 803) and a dual structure block tank dust collector (794) for nuclear waste disposal of the nuclear facilities of the nuclear power plant operating the nuclear power plant,

(287) of the nuclear fuel explosion-proof control product that constitutes the prevention of sinking of the pressurized water reactor facility for processing nuclear waste of the marine nuclear hydroelectric power plant, and the nuclear waste disposal to the marine nuclear hydroelectric power plant and,

In the double structure block tank dust collector constituting the prevention of fuel explosion of the marine nuclear hydroelectric power plant,

A plurality of double structure reactor facilities constituting the double structure block tank dust collector and constituting a marine nuclear power plant connected to the land;

At the connection side connected to the land constituting the marine nuclear hydroelectric power plant,

The distribution side constituting the nuclear waste treatment double structure block tank bridge water marine tunnel traffic apparatus 941 located in the ocean constituting the connection side,

A control side for providing a connection side of a hydraulic control electronic control device for preventing a nuclear fuel explosion of the ocean constituting the distribution side,

A double structure barge hull (591) at the upper end of a holding tank, which is a floating dish (593, 594, 595) of several marine nuclear power plants equipped with the hydraulic control system constituting the adjusting side, and holding tanks (590) Disassembly of the block tank position shifting device from the holding tank 590 Coupling lug coupling lug pin coupling side 606, lug 607 and lug coupling side coupling bolt 603 and lug coupling side coupling disassembly nut 604), and a plurality of construction machine cranes (861) for controlling the height of the flood control ports (593, 594, 595) of the plurality of marine nuclear power plants on the respective adjustment sides.

The control side, which comprises the construction machine crane (861) constituting the regulating side and constitutes the position control of the pressurized water double-structure reactor facility for processing the nuclear waste-only nuclear waste,

(1) Double-structured nuclear reactors for processing marine nuclear waste, consisting of pressurized water nuclear waste reactors for the controlled source of marine resources (2) In addition, a pressurized water type double structure reactor facility for the treatment of nuclear waste for marine resources is provided inside,

The inner block tanks 596 and the outer block tanks 599, which are capable of disassembling and disassembling the pressurized water type double structure reactor facility for processing nuclear wastes constituting the nuclear waste storage facility, and the outer block tanks 599, The welding machine of the welding process and the upper part of the guide rail 618 located at the upper end of the deck deck are provided with the transporting bodies of the reactor facilities inside the crane 861, The dust collector (794) is equipped with double-structure reactor facilities for the pressurized water treatment of nuclear waste for marine resources,

The nuclear reactor power plant reactor double structure block tank dust collector (794) constituting the pressurized water reactor type nuclear reactor treatment facility for the marine nuclear power plant described above, the inner block tank 596 connected to the equipment and the outer block tank 599 are connected to the construction machine The nuclear waste generated from the upper end portion SDU of the double structure barge hull 591 at the upper end of the sea surface upper end portion SLU holding tank which is the connection structure of the double structure block tank 598 is collected at the lower end of the sea surface SLL SLD) By storing the nuclear waste on one side of the double structure block tank precipitator 794 at the lower end of the vacant spaces located in the double structure barge hull 592 at the lower end of the holding tank, A double structure block tank dust collector 794 is provided at the lower end of the empty space located in the double structure barge ship hull 592 at the lower end of the SLD landing tank, The disaster of the radioactive disaster is caused by the nuclear waste disposal for marine resources.

The nuclear waste discharged from the operation of the nuclear waste treatment pressurized water type double structure nuclear reactor equipped with several marine resources is provided to the dual structure block tank dust collector 794 ) Storage is provided on the lower side of the equipment,

And a double structure block tank dust collector 794 that constitutes a storage at a lower side of the lower end of the double structure block tank dust collector 794 to treat nuclear waste The inner block tank 596 connected to the double structure block tank dust collector 794 provided with control articles and the outer block tank 599 are assembled to form a double structure block tank structure, A nuclear waste disposal due to the leakage of the nuclear fuel radiation stored in the nuclear waste at the lower end of the tank dust collector 794 is prevented in advance by having the double structure block tank dust collector 794,

A dual structure block tank consisting of the dual structure block tank scrubber 794 and the inside of the main body 1 of the pressurized water reactor type nuclear reactor waste processing water source dedicated to the prevention of nuclear waste disaster in advance, For the marine resource-only nuclear waste disposal system,

Nuclear wastes are collected and stored in a plurality of inner block tank 596 and a plurality of outer block tanks 599 at the lower part of the empty space before and after a large explosion accident which constitutes a pressurized water type marine reactor installation,

A plurality of double structure block tank dust collectors 794 fixedly provided with reinforcing concrete mats 225 and steel beams 149 having a thickness of m which are put into the nuclear reactor facility of the road surface lower surface portion GLD of the double structure block tank 598, And an inner block tank (596) having an inner block tank (596), which is located inside the third wall of the nuclear fuel reactor, and a nuclear explosion control device Production,

(1) of the pressurized water type double structure reactor facility main body (1) constituting the nuclear power generation production source for the ocean source, Nuclear waste disposal The nuclear waste disposal of nuclear power plants is composed of electric vehicles, ships, space rockets and artificial satellites, equipped with electric trains connected to the marine tunnel traffic facility (941), which is a connection structure of pressurized water double structure reactor facility.

A hydroelectric power plant to be used in the production of alternative power generation power, a nuclear waste treatment double structure block tank bridge to prevent nuclear fuel explosion, a marine tunnel transport device (941), and a nuclear reactor consisting of a pressurized water double- A construction machine comprising a nuclear fuel cycle of a waste fuel industry and a marine lifting carrier to form a position shift control;

It is preferable to configure it.

Preferably, the nuclear waste-treated pressurized water double-structure reactor installation inserted into the pressurized water double-structure reactor facility constituting the nuclear waste treatment of the nuclear power plant operation,

A first wall pellet 681 of secure nuclear fuel and a covering tube 682 protecting the second wall fuel rod 689, a third wall reactor pressure vessel 813, a fourth wall containment vessel 808, (688) of the reactor building (688) composed of the fifth wall reinforced concrete mat (225) is replaced with five-layered protective walls to provide a double structure reactor body (1) Nuclear waste treatment of pressurized water type double structure reactor facility equipped with pressurized water reactor equipment constituted inside,

The double structure block tank dust collector 794 of the nuclear waste processing pipe manufacturing process distribution side 705 composed of the nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine source exclusive nuclear waste treatment, (941) and a double structural block tank dust collector (794). It is equipped with a pressurized water type double structure reactor facility in the process of manufacturing a nuclear waste treatment pipe, Constitute the operation of the nuclear waste disposal nuclear power plant;

The facilities of the regulating-side nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation in the pressurized water type double structure reactor facility for the nuclear waste treatment for marine resources constituting the nuclear power plant operation,

In the dual structure barge hull 591 at the lower end of the holding tank constituting the facility of the nuclear power plant, an unmanned robot is inserted into the SDM of the hull deck so as to prevent leakage of nuclear fuel,

At the center of a plurality of inner block tanks 596 provided in a double structure block tank dust collector 794 for preventing leakage of the nuclear fuel, nuclear waste disposal pressurized water double structure reactor facilities for nuclear operation are separately provided A pressurized water reactor installation is provided inside the pressurized water double structure reactor installation to be inserted into the crane 861 on the adjustment side,

A guide rail 618 located at the upper end portion SDU of the double structure barge hull 591 at the upper end of the strut tank constituting the pressurized water reactor installation is installed to the left and right sides of the deck deck, The position of the pressurized water reactor arrangement is provided on deck deck guide rail 618,

The conveying of the pressurized water reactor installation to the inside where the crane 861 constituting the upper end of the deck deck guide rail 618 is located,

And a double structure block tank dust collector 794 constructed by replacing five-fold protective walls inside the barge hull constituting the transportation of the pressurized water reactor installation, and a pressurized water double structure reactor equipment constituting the nuclear waste treatment,

The nuclear waste disposal and dispensing apparatus constituting the pressurized water type dual structure reactor facility is provided with the crane 861 for moving and installing the fuel explosion control dispensing and inputting apparatus,

A construction machine crane 861 for repairing the inside and outside of the marine tunnel traffic device 941 connected to the double structure block tank dust collector 794 constituting the crane 861 and the double structure block tank dust collector 794 ) Nuclear waste treatment plant Double-structured nuclear reactor facility of pressurized water manufacturing process constitutes nuclear power plant operation;

And a double structure block tank dust collector 794 constituting the nuclear power plant operation of the pressurized water type double structure reactor plant. In the control side of the operation of the pressurized water type double structure reactor plant nuclear power plant,

A double-structure large-sized sliding hatch cover 153 is provided at a position where the crane 861 constituting the control side modification of the operation of the pressurized water type double-reactor installation operates, to protect the double- and triple pressurized water double- Respectively,

(1) of the pressurized water type double structure reactor facility for the treatment of the nuclear waste for the ocean source, as the construction traffic transportation parts for adjusting the position of the regulating side constituting the double or triple pressurized water double structure reactor facility. A double structure block tank dust collector 794 on a distribution side 705 connected to a nuclear waste treatment pipe manufacturing process consisting of a nuclear power generation facility unit 811 and a nuclear power plant constructed by a pressurized water double structure reactor facility for nuclear waste treatment Wherein the process comprises the steps of:

The dual structure nuclear reactor nuclear reactor nuclear power plant double structure nuclear reactor equipped with the double structure block tank dust collector 794 constituting the nuclear power plant operation in the nuclear waste disposal water pressure type double structure reactor facility constituting the nuclear waste processing pipe manufacturing process,

(1) Reactor facilities consisting of exhaust gas outlet and inlet which are the same as the exhaust system of the exhaust gas facility which is composed of the inside of the pressurized water reactor type double reactor nuclear reactor facility A dual structure block tank pipe 794 for blocking nuclear waste and nuclear radioactive contaminants stored in the nuclear waste disposal unit 794, The rated output is 1 million kW and 700,000 kW for the separated pressurized light water reactor and the pressurized heavy water reactor. The double structure reactor type is vertical type, and the pressure vessel is a horizontal pressure tube. The operating temperature is 296 to 310 ° C. The operation pressure is 158.2 kg to 110 kg, and the fuel to be used is fuel for use of low enriched uranium and natural uranium, and the coolant 816 and the moderator 6 76), and the period of preventive maintenance for fuel replacement period is set to be one year to 1.5 years,

The construction of dual-structure nuclear reactors for marine nuclear power plants of marine nuclear power plants, the construction of dual-structure nuclear power reactors for nuclear power plants,

The nuclear radioactivity contaminants constituting the nuclear waste locating passage are,

Several temperature and pressure sensors Sensors of temperature and pressure of the safety valve Sensors with double-structure, pressurized water supply in operation When the temperature inside the facility reaches 320 degrees Celsius in high temperature and high pressure,

A dual-structure block reactor (794) in which a temperature-pressure sensor is connected to a computer in the safety control room to provide an alarm message transmission. A pressure sensor And to transmit the alarm message to the computer of the safety control room,

In the nuclear waste-treated pressurized water double-structure reactor installation having the double structure block tank precipitator 794 constituting the reactor operation of several reactor facilities in the nuclear reactor constituting the alarm message transmission,

The explosion nuclear wastes pass through the inner block piping line (74a) of each location of the pressure vessel opening to each of several temperature pressure sensing sensors and safety valves constituting the pressurized water type double structure reactor facility, Constituting the opening of the temperature-sensing sensor safety valve 472 connected with the inner block tank of the lower end of the pressure vessel 813 while the wastes are being stored;

In the outer block piping line 74b constituting the opening of the temperature-sensing sensor safety valve 472,

A flashing warning lamp 99, a pressure gauge 101, and a temperature sensor bimetal 102 and a connection structure, which are stored in an inner block tank constituting the outer block piping line 74b, And is connected to the detection sensor switch 103 and the level pressure switch 104 for controlling the flow rate check operation and the safety valve 472 of the flow rate check flow meter 105 and the pipeline line automatic pneumatic valve transport device 916, A plurality of double-structured reactor installations having a laser cutting machine and a double structure block tank dust collector 794 connected to the construction machine and the drilling machine through through holes, The safety valve 472 of the automatic pneumatic valve conveying device 916 connected to the thermocouple thermometer sensor switch 103 so as to operate the nuclear reactor constituted by the pressurized water type dual structure reactor facility, Nuclear power plants, including the operation of nuclear reactors for nuclear waste treatment,

In the nuclear waste disposal pressurized water type double structure reactor installation including the double structure block tank precipitator 794 among the reactor facilities constituting the operation of the nuclear power plant with the safety valves 472,

A double pipe structure block pipe line constituting the nuclear waste disposal pressurized water type double structure reactor facility comprises a plurality of through holes to form a double pipe structure block piping line 74 and a plurality of safety valves 472 are connected to a block piping line A double structure reactor installation for pressurized water for nuclear power generation with a marine source is provided by providing a hydraulic spanner for connecting flanges in the line 74, the bolts 24 and the nuts 25 with the gaskets 32,

On the outer wall surface of the reactor building 688 constituting the pressurized water type double structure reactor facility having the hydraulic spanner,

The nuclear waste (540) constituting the nuclear waste treatment reservoir (599) is connected to one of the double structure block tanks (598) having a diameter twice the size of the outer wall surface of the reactor building (688) Processing apparatus,

      (1) of the pressurized water type double reactor reactor facility equipped with a nuclear waste disposal type double reactor reactor facility connected to a double structure block tank dust collector (794) constituting the nuclear waste disposal apparatus. And a nuclear hydro-power generation unit 811. The block pipe line has a plurality of through holes and is connected to the double pipe structure block piping line 74 A plurality of safety valves 472 are opened and a heavy water is distributed to the coolant 816 and the moderator 676 to be connected to the double structure block tank dust collector 794, Configure a processing device;

A nuclear waste disposal unit for a marine resource, a dual structural nuclear reactor facility (1), a double structure block tank dust collector (794) provided with a safe and continuous nuclear radiation leakage control of the nuclear power generation facility (811) And a nuclear waste disposal pressurized water double-structure reactor facility constituting the nuclear power plant operation is provided,

(2) for the operation of the nuclear power plant constituted by the pressurized water type double structure reactor facility main body (1) for treating the nuclear waste for marine resources,

Nuclear Waste Treatment of Marine Nuclear Waste Treatment Nuclear waste treatment of marine nuclear power plant constituting pressurized water type double structure reactor facility Nuclear radioactivity A leakage preventing electronic control device is provided,

The nuclear waste disposal apparatus 794 disposed at the upper end of the double structure block tank precipitator 794 sequentially without mixing the pressurized water double structure reactor facilities of the nuclear power plant for nuclear waste treatment constituting the leakage prevention of nuclear reactor activity of the reactor facility, A tank tank 295 is provided in a marine nuclear waste treatment type double-layer reactor facility for pressurized water,

(593,594,595) of marine nuclear power plants constructed inside the main body (1) Double-structure barge hull (591) at the upper end of the holding tank constituting the prevention of sinking of the marine nuclear power plant, And a dual structure barge ship hull 592 at the lower end of the holding tank are included in a marine nuclear power plant,

In the marine nuclear waste processing type pressurized water double structure reactor apparatus constituting the nuclear waste processing apparatus,

A connection structure composed of a steam generator 810 and a steam dryer 786 installed outside the pressure vessel 813 of the double structure block tank dust collector 794 constituting the nuclear waste disposal pressurized water double structure reactor facility is constructed In addition,

The nuclear waste-treated pressurized water double-structure reactor facility constituted by the containment vessel 808 constituting the connection structure on the fourth wall of the pressurized water type double structure nuclear reactor installation and the double structure block tank collector 794 included on the fifth wall ,

A plurality of inner block tanks 596 constituting the pressurized water type double structure reactor facility and a plurality of outer block tanks 599 are connected to each other to be connected to the mixing equipment mixer machine 649 of the distribution injector of the nuclear fuel explosion control, A coolant 816 as a fuel explosion preventive control material that is supplied to the same pressure vessel 813 as the furnace immediately before the reactor large explosion, cooling water 287 for injecting heavy water into the moderator 676, The mixing chamber 648 is provided with a mixture of loess mixtures which generate soap bubbles mixed with the mixer machine 649 into the pressurized water reactor installation, (808) to prevent the explosion of nuclear fuel due to a decrease in temperature inside the pressurized water type double structure reactor facility,

In the mixer machine 649 composed of the cooling water 287 and the loess mixtures, which are mixed with the mixer machine 649, which is a nuclear fuel explosion-proof control article constituting the nuclear fuel explosion prevention of the pressurized water double structure reactor facility for processing nuclear waste,

The fuel explosion prevention control article is put into the pressure vessel 813 at one time by having yellow soil mixtures for generating soap bubbles mixed with the coolant 287 and a mixer machine 649 composed of yellow soil mixtures, A plurality of firefighter nozzles 10 for cleaning the interior of the reactor installation cleanly after the occurrence are provided inside the pressure vessel 813 and the inside of the containment vessel 808 with the cooling water 287 Constitute the control of nuclear fuel explosion control;

A firefighter nozzle 10 is provided to be filled with cooling water 287 constituting a cleaning process inside the nuclear reactor facility without the insertion of the UAV constituting the explosion prevention of the nuclear fuel,

A nuclear waste treatment pipe manufacturing process consisting of a nuclear power generation facility 811 constituted inside the main body 1 of a pressurized water type nuclear reactor nuclear waste processing pressurized water type nuclear reactor having the nuclear waste disposal pressurized water type double reactor installation, ) And dual structural block tank dust collector (794). The double structure block tank dust collector (794) is equipped with a pressurized water type dual structure reactor facility in the manufacturing process of the nuclear waste treatment pipe (705) of the nuclear waste treatment plant manufacturing process of the nuclear power generation facility unit (811)

And a dual structure block tank dust collector 794 constituting a nuclear reactor operation of several nuclear reactor facilities in a marine nuclear waste treatment type pressurized water double reactor structure constituting a distribution side 705 of the nuclear waste processing pipe manufacturing process, Nuclear waste treatment In a pressurized water double structure reactor installation,

The cooling water 287 stored in the nuclear waste treatment tank tank 295 located at the upper end of the double structure block tank precipitator 794 sequentially without being mixed with the reactor facilities constituting the nuclear waste disposal pressurized water double- ) Mixed with the mixer machine 649 in the third wall reactor pressure vessel 813 located below the tank tank and in the fourth wall containment vessel 808 by a plurality of temperature pressure sensors And the safety valve 472 and the hatch cover 153 are opened by sensing a temperature pressure sensor,

The cooling water stored in the inner block piping 74a of the block piping line 74 at each of the upper end portions of the pressure vessel 813 of the reactor installation constituting the safety valve 472 and the hatch cover 153 is opened by the temperature pressure sensor sensing 287) and the mixer machine (649), the water tank tanks constituting the yellow soil mixture (927) generating the soap bubbles mixed with the toothpaste forms the inside of the third wall reactor pressure vessel (813) and the fourth wall containment vessel 808), and the opening and closing of the safety valve coupled with the circulating water pump (242) is provided with a screw control with an electronic sensor valve to constitute a double structure nuclear water reactor nuclear waste processing type double structure reactor facility,

The cooling water 287 and the loess mixture 927 mixed with the mixer machine 649 of the nuclear reactor facility by the adjustment of the electronic sensor valve screw constituting the opening and closing of the pressurized water type double structure reactor facility safety valve are connected to the pressure vessel The pressurized water reactor facility for processing nuclear waste constituting the transfer to the fourth protective wall containment vessel 808 and the inside of the fourth protection wall containment vessel 813,

The mixture of the cooling water and the loess mixture mixed in the mixer machine 649 constituting the pressurized water reactor for nuclear waste treatment is supplied to the inside of the reactor core 681 and the reactor core 681 through the nuclear waste treatment control cooling water and the mixer machine 649 in the interior of the pressure vessel 813 of the pressurized water type double structure reactor facility by the water supply pump 241 inside the pressure vessel 813 and the fourth protective wall The vessel 808 constitutes transfer within the pressure vessel 813 of the pressurized water dual structure reactor facility,

The mixture of the loess mixture 927 mixed with the mixer machine 649 constituting the conveying unit 808 at the same time is inputted into the pressurized water reactor installation and immediately after the earthquake has stopped the circulating water pump 242 is supplied to the pressurized water reactor installation In order to prepare for internal nuclear power,

A nuclear waste disposal apparatus having a double structure block tank dust collector 794 that continuously constitutes safe operation of a nuclear reactor constituting the nuclear power plant and prevents explosion of a pressurized water reactor,

A nuclear waste treatment plant consisting of a nuclear power plant 811 constituted inside the main body 1 of the pressurized water type pressurized water reactor dedicated to nuclear waste treatment for the offshore source constituting explosion prevention of the reactor facility; A marine tunnel traffic device connected to the building block tank dust collector 794,

A double structure block tank dust collector (794) having a construction machine and a lifting console as a connection structure for repairing the outside of a marine nuclear power plant, and a pressurized water double structure connected to the manufacturing process of a nuclear waste treatment pipe A marine tunnel transport device connected to the operation of a nuclear power plant, comprising a dual structure block tank dust collector (794) connected to a nuclear waste treatment pipe manufacturing process with a reactor facility;

It is preferable to configure it.

Preferably, for operation of the nuclear power plant of the pressurized water type double structure reactor constituting the pressurized water type double structure reactor facility for the ocean nuclear waste treatment,

A double structure block tank of a pressurized water type double structure reactor installation to a fifth wall, and a plurality of double structure block tank collectors 794 for storing radiation nuclear waste (224) connecting the outer wall surface of the reactor building wall to one another. The nuclear power plant of the pressurized water type double structure reactor facility which constitutes the inside of the power plant is provided,

In the nuclear power plant 811 formed before and after the operation of the nuclear power plant constituted by the coupled connection structure of the pressurized water type double structure reactor facility, nuclear fission is generated inside the pressurized water double structure reactor facility, The steam turbine 267, which rotates the steam generator 267 to produce power,

A rotary shaft for a nuclear power generator installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the atomic power generator 772 for converting the power generated from the steam turbine 267; An electromagnet coil 774,

A nonrotating armature coil 773 for a nuclear power generator installed on the circumference of a rotating rotor electromagnet coil 774 for the nuclear power generator and a rotor 773 integrally formed with the nuclear power generator 772 and the rotary shaft 198 to the steam turbine 267, And a frame 775 for fixing the nuclear waste to the nuclear power plant 811. The nuclear power plant 811 includes a reactor body of the nuclear power plant of the land and the ocean, Nuclear waste treatment plant of the pressurized water type double structure reactor facility composed of the nuclear power generation facility unit 811 The marine tunnel communication unit connected to the distribution side 705 and the double structure block tank dust collector 794 is connected to the inside (794) Nuclear waste disposal for marine resources connected to nuclear waste treatment pipe manufacturing process Pressurized water double structure reactor facility operation ;

In the hydroelectric power plant which is alternatively constituted for the operation of the nuclear power plant at the time of renovation of the pressurized water type double structure reactor facility for ocean nuclear waste treatment,

(191) in the form of a hydraulic pressure reducer (35) for providing a kinetic energy conversion of the kinetic energy of the water with a flow rate of water, A large hydroelectric generator seeside facility 944 equipped with a large hydroelectric generator 942 having a seesaw crane boom zone 942 of a tower crane that provides a vertical rotation operation with a plurality of marine nuclear power plants (593,594,595) nuclear power plants (672) of hydroelectric power plants, and large hydroelectric generators that constitute nuclear hydroelectric power plants within the main body (1) of pressurized water reactor type nuclear reactor wastes for marine resources,

And a pressure reducer (35) configured to provide kinetic energy of water with a flow rate of the current to the inside of the hydroelectric power room constituting the nuclear hydroelectric operation of the nuclear power and constituting mechanical energy, so that the introduction pipe (191) In the seizure facility 944 of the large hydroelectric generator constituting the present invention,

The center shaft frame 673 constituting the large hydroelectric generator seeside facility 944 is installed in the seesaw crane boom section of the tower crane having a multi-stage entrainment type man- 942) to provide power generation facilities for generating electric power, thereby providing nuclear power to the inside of a nuclear power plant facility of a floating nuclear power plant (593,594,595) of several marine nuclear hydroelectric power plants in the ocean. Including large hydroelectric generators,

(593, 594, 595) nuclear power plants (672) of several offshore and offshore ocean nuclear hydroelectric power plants constituting the large hydroelectric generator seeside facility (944) and internal nuclear waste water treatment double- A double structure block tank dust collector included in the power generation and production unit 811b of the nuclear hydroelectric power generation facility 811 is installed as several generators for nuclear waste disposal and power generation of the nuclear reactor facility, And a power transmission unit 811d comprising a power generation and production unit 811b of the nuclear hydroelectric power plant 811 and power transformers for transmitting power,

A double structure block tank dust collector 794 constituting nuclear power plants of several nuclear reactor facilities of a nuclear power plant for nuclear power generation, In the nuclear hydropower plant composed of structural reactor facilities,

A cooling water inlet 352 of a cooling water piping line constituting a connection structure with a condenser 790 is provided under the body of the steam turbine 267 of the nuclear hydroelectric power plant 811 constituted by the pressurized water double structure reactor plant,

In front of the condenser 790 constituting the cooling water inlet 352 of the nuclear power plant 811,

And a circulation water pump 242 connected to the cooling water inlet 352 of the cooling water piping line to the piping line 169 through a water passage constituting the front of the condenser 790, A dual structural block tank dust collector 794 of a nuclear waste treatment pipe manufacturing process distribution side 705 composed of a nuclear power generation facility unit 811 constituted inside a pressurized water double structure reactor facility main body 1 for marine nuclear waste treatment, (794) Nuclear waste treatment pipe manufacturing process Nuclear waste treatment for marine resources Nuclear power plant construction for pressurized water type double structure reactor facility Including the pressurized water type double structure reactor facility of a nuclear power plant,

In a marine nuclear power generation facility constituted in a pressurized water type double structure reactor facility having a double structure block tank dust collector 794 constituting the pressurized water type double structure reactor facility,

A feed pump 241 is provided at the rear end of the condenser 790 constituting the pressurized water type double structure reactor facility and outside the reactor facility,

And a purifier (809) constituting the outside of the reactor in front of the feed pump (241) constituting the pressurized water type double structure reactor plant,

The reactor internal piping line at the front of the purifier 809 is provided with a plurality of coolant pumps 243 so that the reactor pressure vessel 813 containing the fuel of the enriched uranium 812, 798) and a pressure vessel 813 of a pressurized water type double structure reactor facility constituted outside the reactor pressure vessel 813,

When the safety device control rod 798 is installed inside the pressure vessel 813 of the pressurized water type double structure reactor facility and shaking occurs,

The control rod 798 is inserted into the pressure vessel 813 at a time so that the nuclear reactor operation of the nuclear reactor facility can be stopped urgently and the reactor facility of the nuclear hydroelectric power plant of the land and ocean and the nuclear waste- A nuclear waste treatment pipe manufacturing process of the nuclear power generation equipment section 811 constituting the inside of the reactor facility body 1 and a marine tunnel transportation device inside the dual structure block tank dust collector 794 of the distribution side 705, (794) Nuclear waste treatment plant manufacturing process Pressurized water type dual structure nuclear plant construction constituting nuclear plant operation;

The dual structure nuclear reactor facility of nuclear power plant having double structure block tank dust collector (794) for operating nuclear power of pressurized water reactor facility constituted inside pressurized water reactor nuclear reactor facility main body In the nuclear power plant of

A first wall pellet 683 of a nuclear reactor reactor constituting the pressurized water reactor installation,

The inside of the third wall reactor pressure vessel 813 which is generated by the collision of the cladding 682 constituting the cladding pipes 682 protecting the second wall fossil rod 689 before and after the earthquake,

The safety valves 472 formed with the plurality of temperature pressure sensors are opened just before the nuclear fuel explosion in the fourth wall containment vessel 808 and the nuclear waste disposal process located at the upper end of the upper end double structure block tank precipitator 794 of the pressure vessel 813 The inside of the third wall reactor pressure vessel 813 located below the water tank 295 with the loess mixture 927 mixed with the cooling water 287 stored in the apparatus water tank 295,

The safety valve 472 and the hatch cover 153 in which the plurality of temperature pressure sensors are formed immediately before the explosion in the fourth wall containment vessel 808 are opened and the inner block of the block piping line 74 of each of the upper and lower portions of the pressure vessel 813, The cooling water 287 stored in the pipe 74a and the loess mixture 927 generating the toothpaste-shaped soap bubbles mixed with the mixer machine are introduced into the third wall reactor pressure vessel 813 Cooling water 287, which is a nuclear fuel explosion-proof control product, and a mixture of loess mixtures 927 mixed with a mixer machine are put into the fourth wall containment vessel 808 at the same time into the nuclear waste disposal pressurized water type double structure reactor facility, In addition,

In the inner block pipe 74a of each of the block piping lines 74 constituting the pressurized water reactor installation,

The explosive nuclear waste 224 constituting the inner block pipe 74a passes through the inner block pipe 74a and the outer block pipe 74b is filled with cooling water And the yellow mortar mixture 927 for generating soap bubbles mixed with the mixer machine and the mixer machine is introduced into the pressure vessel 813 and the fourth protective wall containment vessel 808 through the feed pump 241, Preventive control article transport,

A dual structure block tank (598) for storing nuclear waste (224) constituting the transfer of the fuel explosion-proof control article is provided at an inner lower end position of each portion,

Nuclear waste 224 constituting the internal lower end position is moved and stored at each position of the double structure block tank 598 and the temperature pressure sensing sensor safety valve 472 connected to the inner block tank 596 of the pressure vessel 813 is opened Nuclear power plant operation of the nuclear reactor is composed of the nuclear power plant of nuclear power plant of land and ocean and the nuclear power plant of nuclear power plant (811) composed of the main body (1) The nuclear waste treatment pipe manufacturing process and the dual structural block tank 794 of the distribution side 705. In connection with the internal and external marine tunnel communication equipment, there is a pressurized water reactor facility for treating nuclear waste, Tank Dust Collector (794) Consists of a pressurized water type double structure reactor facility operation connected to the nuclear waste processing line manufacturing process;

In the nuclear power plant constituted by the pressurized water type double structure reactor facility of the nuclear power plant having the double structure block tank dust collector 794, the nuclear power plant constituting the operation of the pressurized water reactor apparatus nuclear power plant,

The outer block piping 74b of the block piping line 74 constituted by the pressurized water double structure reactor facility is connected to the inside of the nuclear waste disposal tank 295 located at the upper end of the inner block tank 596 And a yellow soil mixture 927 for generating soap bubbles in the form of toothpaste mixed with a mixer machine so that the inside of the pressure vessel 813 and the inside of the fourth protective wall container 808 ),

The cooling water constituted by the containment vessel 808 of the pressurized water type double structure reactor facility and the loess mixture 927 generating the toothpaste form soap bubbles to be mixed with the mixer machine are supplied to the nuclear fuel explosion prevention The control objects are mixed with the cooling water 287 stored in the respective portions of the inner block tank 596 and the outer block tank 599 as loess mixture 927 generating soap bubbles in the form of toothpaste, ) Is filled with the inside and outside of the nuclear reactor facility, the nuclear reactor's temperature will be lowered. The nuclear fuel explosion will stop and nuclear reactors will be stopped in an emergency, and the reactor facilities of the nuclear and hydroelectric power plants of the land and ocean, The nuclear waste water treatment pipe manufacturing process consisting of the nuclear hydroelectric power generation facility 811 inside the pressurized water type double structure reactor facility main body 1, (794) Nuclear waste treatment plant manufacturing process with pressurized water type double structure reactor facility Operation of nuclear power plant with double structure nuclear reactor facility &Lt; / RTI &gt;

In the double-walled pressurized water reactor structure of the nuclear power plant constituting the double structure block tank dust collector 794 including the nuclear operation of several reactor facilities constituting the double structure pressurized water reactor apparatus for nuclear waste treatment,

A pressure vessel 813 of the nuclear reactor facility is provided with a nuclear reactor power plant nuclear reactor constituting the pressurized water type dual structure reactor facility and a cutter or a submarine mineral collecting robot 912 for remote control in disassembling the nuclear reactor facility, When the internal fuel explosion stops, the plurality of temperature and pressure sensing sensor safety valves 472 provide full closing,

When the nuclear reactor constituting the entire safety valve 472 of the reactor installation is operated, normally,

A plurality of pressure sensors for pressure sensing in the nuclear power plant constituting the entire pressure and temperature sensing sensor safety valves 472 are installed in the submerged barge of the ocean which constitutes several reactor facilities before and after the safe operation of the reactor facility ;

In the pressurized water type double structure reactor equipment constituted in the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation in the pressurized water double structure reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant,

(593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear waste disposal. Nuclear waste disposal in a nuclear nuclear hydroelectric power plant. Double structure block tank dust collector (794) and nuclear waste treatment double structure block tank pipe bridge Marine tunnel access A dual structure block of nuclear waste treatment having a nuclear waste treatment dual structure block tank scrubber 794 with an adjusting side for coupling to the connecting sides of the apparatus 941. A pipe bridge of a nuclear power plant having a tank dust collector. A pressurized water reactor facility for processing nuclear waste constituting a nuclear waste treatment dual structure block tank scrubber 794 having an adjustment side coupled to the connection sides of the nuclear waste treatment dual structure block tank 794;

So as to form a coupling.

Preferably, it is provided with connection structure construction machine cranes 861 that can be decomposed and combined in a marine vessel manufacturing plant constituting a pressurized water reactor facility for processing nuclear waste, to provide production control of the dual structure block tank precipitator 794 A nuclear power plant unit 811 constituted by the inside of the pressurized water type double structure reactor facility main body 1 for ocean nuclear waste treatment;

A nuclear power plant having a dual structure block tank precipitator 794 for constituting a nuclear power plant inside the main body 1 of a pressurized water type nuclear reactor waste water treatment type water nuclear reactor dedicated to the nuclear power generation facility 811, In a water reactor installation,

A nuclear power plant having a double structure block tank dust collector 794 constituting the pressurized water reactor installation, and a nuclear power plant 811 constituting the inside of the main body 1 of the pressurized water type nuclear waste treatment- A nuclear waste nuclear waste disposal unit 811a included in the nuclear waste disposal unit 811a;

Nuclear power plant operating safe and continuous nuclear power plant in Nuclear Power Plant Nuclear power plant operation to prevent nuclear fuel explosion Prevention of Nuclear Power Plant Operation in Nuclear Power Plant Replacement Power Generation (591) at the top of the holding tank constituting the holding tank, and equipped with hydropower generators located at the lower end of the barge ship hull (591) at the upper part of the holding tank, A power generation and production section 811b of the power generation facility section 811;

The nuclear power plant 811b of the nuclear power generation facility 811 has a plurality of reactor facilities and a plurality of transportation vehicles of the construction machine. A double structure block tank dust collector 794 composed of a plurality of inner block tanks 596 connected to the outer block tank 599 and a central portion of the outer block tank 599 and both front and rear portions of the outer block tank 599 are opened to connect the position movement control apparatus construction machine crane 861, The crane boom 651, the crane boom hook 652 and the conveyor 633 of the crane boom 651 and the conveyor 633 to control the position of the pressurized water reactor for nuclear waste treatment,

A construction machine crane (861) of a construction machine constituting a pressurized water reactor arrangement constituting the position shift control by the carrier, in a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a dual structural block tank dust collector, The dual structure block tank reactor system is equipped with a nuclear reactor waste disposal system,

(861) of the construction industry crane (861), the marine installed connection structure capable of disassembly and disassembly in the manufacturing of the industrial docking dock, 1) a traffic transportation unit 811c of a construction machine connected to a power generation and production unit 811b included in the nuclear power generation facility unit 811 constituted inside;

In the transportation transportation unit 811c of the construction machine constituting the nuclear hydroelectric power plant 811,

A control side for providing nuclear waste disposal capacity adjustment by having storage tanks of a nuclear waste disposal system of a nuclear reactor constructed inside a pressurized water double structure reactor facility main body 1 for processing an ocean source exclusive nuclear waste;

The control side of the nuclear waste hydrothermal power plant's nuclear waste treatment pressurized water type double structure reactor facility apparatus described above,

(1) is treated in a column block tank (590) of a nuclear power plant (811) constituted by a pressurized water type double structure reactor facility main body The nuclear waste treatment dual structural block tank pipe bridge 928 of the double structure block tank 598 and the double structure block tank pipe bridge 941 connected to the connection side (1) Nuclear reactor facility consisting of several nuclear reactors, which are divided into a number of nuclear reactors, and a nuclear waste disposal unit A nuclear power plant, a nuclear power plant, and a nuclear power plant.

The distribution side of the pressurized water type double structure reactor equipment constituting the discharge of the nuclear waste is,

A nuclear power plant for nuclear power generation, a nuclear power plant, a nuclear power plant, a nuclear power plant, and a nuclear power plant, A power transmission unit 811d for distributing and discharging nuclear waste;

In the power transmission unit 811d equipment for distributing the nuclear waste to constitute discharge,

Power transmission unit (811d) Nuclear waste disposal for marine resources before and after operation of nuclear reactor safety facility constituting facility Nuclear waste disposal facility of exhaust gas facility to prevent natural disaster consisting of pressurized water double structure reactor facility main body (1) (811e) of nuclear power plant safety control and management production section (811e) constituting nuclear power generation equipment section (811) constituted inside the main body (1) of pressurized water type pressurized water type nuclear waste treatment processing facility having the same exhaust gas outlet and entrance, ;

In the nuclear power plant safety control management production electric power generating unit 811e equipment constituting the nuclear power generation facility unit 811,

(688A), turbine building (688B), control building (688C), auxiliary building (688D) and diesel generator building (1) (688E), nuclear fuel building (688F), and waste building (688G). The reactor structure (688Z) is equipped with nuclear power plant buildings (688Z) The control unit 811f of the electronic control regulating apparatus is equipped with a crane boom 651 and a conveyor 651 of the position movement regulating apparatus construction machine crane 861 while the nuclear power plant of the ocean is equipped with a large- 633) transporting bodies, and electronically controlled regulating devices, each of which is provided with an electronic control regulating device having an operating control of the carrier, An electronic control regulating device construction machine control unit 811f of the nuclear hydropower generation facility 811 constituting the facility main body 1;

In the electronic control apparatus construction machine control unit 811f equipment constituting the nuclear hydropower generation facility unit 811,

Nuclear waste disposal for marine resources (2) Pressurized water type double structure reactor facility (1) Nuclear reactor consisting of internal nuclear waste disposal unit equipped with storage tanks to control the capacity of nuclear waste, Waste Treatment Pressurized water type double structure reactor facility Main body (1) Nuclear power generation facility (811) composed of inside is safe and continuous Treatment of nuclear waste for exclusive use of marine resources Pressurized water type double structure reactor facility Main body (1) Nuclear fuel explosion The barge hull 591 at the upper end of the dual structure holding tank provided with the prevention means is configured in the power generation and production unit 811b of the pressurized water type double structure reactor facility for the marine resource exclusive nuclear waste treatment;

In the barge hull 592 at the lower end of the double structure holding tank constituting the power production and production section 811b,

An electronically controlled screw control unit 811g that includes several nuclear reactor facilities of a nuclear waste disposal nuclear power plant and constitutes an electronic control unit constituting the nuclear power generation facility unit 811;

In the electronic control screw control unit 811g that constitutes the nuclear power generation facility unit 811,

The lag 607, the lug connecting side engaging bolt 603 and the lug connecting side engaging disassembling nut 604 from the holding tank 590 to the disassembling-engaging portable lug-engaging lug-pin connecting side 606 of the block tank position- And the position of the respective adjustment sides are adjusted so that the nuclear plant nuclear waste disposal unit 811a to 810a included in the nuclear power generation facility unit 811 provided inside the main body 1 of the pressurized water double- A sensor valve screw control unit 811l to constitute a nuclear reactor waste water treatment type dual structure nuclear reactor facility;

In the disaster prevention prevention and control unit 811h provided in the nuclear power plant 811,

Nuclear waste disposal for marine resources (2) Pressurized water type double structure nuclear reactor facility (1) Nuclear power plant consisting of internal nuclear waste disposal shielding tanks, equipped with regulating side to regulate nuclear waste capacity, Nuclear waste treatment Pressurized water double structure Reactor main body (1) The nuclear power generation facility (811) inside the barge ship hull (591) at the top of the dual structure holding tank which provided safe and continuous explosion prevention of the nuclear fuel explosive nuclear power plant, In the barge hull 592 at the lower end of the double structure holding tank, the power generation unit is connected to the power production facility constituting the power transmission unit 811d equipment which distributes the nuclear waste to constitute the discharge,

A disaster prevention preventive control unit 811h constituting a connection with an electronic control regulating unit constituted in the nuclear power generation equipment unit 811 by having a double structure reactor facility for a nuclear waste disposal treatment for marine resources only;

In addition to the pressurized water reactor facility constituting the connection with the disaster prevention preventive control section 811h constituting the nuclear power generation facility section 811,

The groundwater and deep sea water capacity supply regulating unit 811i, the common and shared water surface burial regulating unit 811j, A satellite control unit 811k for preventing radioactive contamination of nuclear radiation, and an electronic sensor valve screw control unit 811g for a distribution input device and a marine tunnel transportation device 941 ) And the transport equipment with the control of the position of the construction equipment for the marine source only nuclear waste treatment pressurized water type double structure nuclear reactor facility body (1) is configured to include;

The dual structure block tank dust collector 794 constituting the nuclear power generation nuclear waste processing unit 811a to the electronic sensor screw control unit 811g of the nuclear power hydroelectric power generation unit 811 has a water pressure double- For structural reactor installations,

      A nuclear reactor facility is installed on both sides of the fore and aft ends of a plurality of inner block tanks 596 of the double structure block tank reactor aspirator 794 constituting the nuclear reactor facility in the crane boom section 651 of the position movement control apparatus construction machine crane 861, A crane boom hook 652 and a conveyor 633 to provide a positional control to the carrier of the pressurized water reactor installation,

A nuclear waste disposal unit for a marine resource, a dual structural nuclear reactor facility (1), a double structure block tank dust collector (794) provided with a safe and continuous nuclear radiation leakage control of the nuclear power generation facility (811) A nuclear power plant consisting of

In the double-structure reactor installation for pressurized water treatment for ocean nuclear waste,

A dual structural nuclear reactor facility for the operation of a nuclear water reactor for marine resources, a double structure reactor for nuclear power plants, and a pressurized water double structure reactor facility provided inside the dust collector,

Nuclear waste disposal Treatment of nuclear waste for marine resources constituting double-structure reactor of pressurized water type Pressurized water type double structure reactor facility is provided to freely control the amount of power generated by nuclear power generation while preventing the leakage of nuclear radiation, In addition,

The nuclear waste disposal type double-structure reactor facilities for the nuclear waste disposal for preventing the leakage of the nuclear radiation of the nuclear reactor facility are not mixed with each other, and the nuclear waste located in the upper part of the double structure block tank collector 794 The input of the waste tank 295 into the waste treatment apparatus is provided in the nuclear waste disposal pressurized water double structure reactor facility,

(593,594,595) of marine nuclear power plants constructed inside the main body (1) Double-structure barge hull (591) at the upper end of the holding tank constituting the prevention of sinking of the marine nuclear power plant, And a dual structure barge ship hull (592) at the lower end of the holding tank are included in a marine nuclear power plant,

Nuclear waste treatment dual structural block tank pipe bridge to prevent fuel explosion prevention Marine tunnel transport equipment (941)

Operation of nuclear reactors before and after renovation of pressurized water reactor facilities Operation of nuclear reactors at double-structure barge ship hull (591) equipped with hydro generators in electric power production and production of alternate- A maritime tunnel transport device 941, and a construction machine comprising the marine carriers and constituting the movement control;

It is preferable to configure it.

Preferably, the distribution side 705, which constitutes the nuclear waste treatment pipe manufacturing process included in the nuclear power generation facility unit 811,

(593, 594, 595) of several marine nuclear power plants included in the nuclear power generation facility unit (811) constituting the nuclear waste treatment pipe manufacturing process of the distribution side (705) and the floating nuclear power plant Treatment of Nuclear Waste Treatment for Nuclear Hydroelectric Power Plant in Nuclear Hydroelectric Power Plant (1) Treatment of Nuclear Waste Treatment for Nuclear Power Plant in Nuclear Hydroelectric Power Plant Nuclear waste treatment of pressurized water type double structure reactor facility of pressurized water type double structure reactor facility. A dual structure block tank bridge pier 928 and a dual structure block tank bridge 937 constituted by a block tank 598 and a dual structure block tank precipitator 794 for controlling the leakage of the nuclear activity of the connection side, Tank tube bridge (937) Includes the nuclear waste disposal system of pressurized water type double structure reactor of nuclear power plant (672) constituting disconnection side of connection side,

In the pressurized water reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having the double structure block tank dust collector 794 on the distribution side 705 constituting the nuclear waste disposal pressurized water double structure reactor facility of the nuclear power plant 672,

(593, 594, 595) hull of a marine nuclear power plant is connected to the distribution side (705, 595) hull by means of steel plates (597) of high-strength stainless steel constituted by the nuclear waste disposal pressurized water double- The double structure block tank 598 constituting the double structure block tank dust collector 794 is provided with nuclear waste treatment by the nuclear reactor facility,

An inner block tank 596 located at the center of the double structure block tank 598 constituting the nuclear waste treatment by the nuclear reactor facility and an outer block tank 599 located outside the inner block tank 596, (794) double-structure block tank dust collector (794) with cutting structure and welding process at the industrial site in the form of structure.

(600) for a block tank connected to a double structure block tank pipe bridge (937) device composed of a pressurized water double structure reactor facility nuclear waste treatment at one side of the double structure block tank dust collector (794) A dual structure block tank dust collector (794) provided with a second auxiliary steel plate (601) as a connection structure device between the cutting process and the welding process; and a connection structure at the connection side to the aft and stern connection position of the equipment (794) Includes a large flange (614) that constitutes waste treatment,

A large flange 614 positioned as a connection structure at a joint portion of a connection flange joining portion processing hole 615 of a large flange constituting a large flange 614 of a pressurized water double structure nuclear reactor for processing nuclear waste, (1) A double structure nuclear reactor facility (1) for treatment of nuclear waste for marine resources, while providing a pressurized water reactor facility manufacturing and processing process for nuclear waste of a nuclear hydroelectric power plant having a double structure block tank dust collector (794) The double structure block tank dust collector 794 on the distribution side 705 of the nuclear waste processing pipe manufacturing process of the nuclear power generation equipment unit 811 constituting the inside of the nuclear waste treatment facility is operated so as to operate the nuclear power plant with the pressurized water double- ;

In the closure iron plate 625 facility of the nuclear waste-treated pressurized water double structure reactor facility having the double structure block tank dust collector 794 on the distribution side 705 constituting the nuclear power plant operation,

(794) facilities on the distribution side (705) of the pipe making process constituting the stopper steel plate (625) equipment of the pressurized water type double structure reactor facility, and the steel plates (597) of the high- And a conveyor 633 having a ceiling crane 861 and a conveyor 633 for passing the double structure block tank dust collector 794 to the conveying process with a bending process and a cutting and conveying process sequence through the marking process, And a high-strength stainless steel plate 597 is provided with a foaming bending process machine provided with a foaming and a foaming and bending processing machines provided at each thickness of the high-strength stainless steel plate 597 constituting the equipment, , A V-type folding (b), and a round folding (c)

A double structure block tank dust collector (not shown) on the distribution side 705 of the nuclear waste processing pipe manufacturing process of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 constituting the bending process, (794), comprising a pressurized water type double structure reactor installation of a nuclear water hydropower plant, and a pressurized water double structure reactor installation of a nuclear waste disposal system;

A bending type press braking type bending machine, a bending type roller bending machine and a bending type three bending roller bending machine, which are constituted by a pressurized water double structure reactor facility for nuclear waste treatment, A bending and bending machine of a high-strength stainless steel plate 597 is provided to bend and cut a pressurized water type double structure reactor facility,

The overhead crane 861 and the conveyor 633, which are fed into the conveying process constituting the bending and cutting process of the pressurized water type double structure reactor installation,

The bending joint portion of the high-tensile stainless steel plate 597 constituting the bending and cutting process of the pressurized water type double structure reactor equipment is provided with a transporting body for controlling the welding position, and a welder, a cutting tool, a drill lathe and a cutter, Disassembly of the nuclear waste treatment plant with the welding process at the banding joint of the stainless steel plate (597) Nuclear waste treatment for marine resources Disposal of the nuclear waste treatment plant manufacturing process of the nuclear power plant (811) Side dual-structured nuclear reactor with a double structure block tank cleaner 794 on the side 705;

A nuclear waste disposal pipe manufacturing process distribution side 705 of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 on a distribution side 705 constituting a nuclear power plant with a pressurized water double structure reactor facility for nuclear waste treatment, In the pressurized water reactor facility of the United States,

A large structural block tank 598 composed of the pressurized water type double structure reactor facility, a large flange 614 as a connecting portion of a large flange 614 located at a fore and aft connecting portion of the dust collector 794, (625) is provided as a pressurized water type double structure reactor facility connection structure on the pipe manufacturing process distribution side (705) of the manufacturing and processing lathe process,

In the inner block tank 596 constituting the pipe manufacturing process distribution side 705 of the pressurized water type double structure reactor facility and the outer block tank 599 located outside the inner block tank 596, 794) Nuclear waste treatment plant internal block tank (596) with the manufacture of the manufacturing process facility In a pressurized water dual structure reactor installation,

The welding process of the pressurized water type double structure reactor facility includes a ceiling crane 861 and a conveyor 633 which are fed into the outer block tank 599 to control the positional movement of the pipe manufacturing equipment, The welding process of the reactor facilities is provided with a welding machine,

The double-structure nuclear reactor of the pressurized water type double structure nuclear reactor facility is provided with a double structure cylindrical connection structure constituting the welding machine for the welding process of the pressurized water type double structure reactor facility. ) Nuclear Waste Treatment Tube Manufacturing Process Dual Structure Block of Distribution Side (705) Nuclear Waste Treatment with Marine Dust Collector (794) Nuclear Waste Treatment of Pressurized Water Type Dual Structure Reactor Facilities Including nuclear waste disposal with reactor facilities,

In a pressurized water dual structure reactor installation 705 of a nuclear waste treatment plant manufacturing process distribution side of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 on a distribution side 705 constituting the nuclear waste treatment,

A double structure block tank dust collector 794 composed of the pressurized water type double structure reactor facility, a plurality of outer block tanks 599, a first auxiliary shape steel tank 600 for a block tank, A second auxiliary steel plate for a block tank 601, a vertical partition wall 605, a horizontal partition wall 609 and a steel beam 149. The first auxiliary steel pipe 600 for the block tank and the second auxiliary steel plate And the horizontal barriers 609 and the steel beams 149 and the snap holes 602 and the diaphragm manholes 610 are connected by a computer laser cutter to a pressurized water double structure reactor facility Respectively,

The fifth protective walls formed on the outer wall surface of the fourth protective wall containment vessel 808 are provided with the nuclear waste for the offshore source, Processed Pressurized Water Type Double Nuclear Reactor Equipment Nuclear power generation equipment part 811 constructed inside the main body 1 Nuclear waste treatment pipe manufacturing process Nuclear waste for marine resources having dual structure block tank dust collector 794 on the distribution side 705 The pressurized water type dual structure reactor facility constitutes nuclear power plant operation;

In the reactor facility of the nuclear waste treatment plant manufacturing process distributing side 705 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 constituting the nuclear power plant with the pressurized water type dual structure reactor facility,

The vertical partition wall 605 having the partition wall manhole 610 of the double structure block tank dust collector 794 constructed by the pressurized water type double structure reactor facility and the horizontal partition wall 609 are provided with the traffic device hydraulic cylinder door 624, And the step (s) 631 are provided by welding processes,

The above-mentioned transportation system hydraulic cylinder door 624 and the emergency stairs and the steps 631 are provided with marine tunnel traffic devices for distributing the double structure block tank dust collector 794 constituting the welding process, Nuclear Waste Treatment Plant Consisting of Nuclear Power Plant (811) Consisting of a Water Type Double Structure Reactor Facility (1) In the process of manufacturing a nuclear waste water treatment plant inside and outside of a marine tunnel transport device at the distribution side (705) Nuclear Power Plant Alternative Power Generation A nuclear power plant with dual structure block tank dust collector (794) equipped with hydropower generators for power generation and production constitutes a nuclear power plant with a pressurized water double structure reactor facility;

A double structure reactor (794) of a distribution side (705) constituting a nuclear power plant with the pressurized water type double structure reactor installation, and a double structure block tank collector (794) In the facility,

A double structure block tank dust collector (794) composed of the pressurized water type double structure reactor facility, a bending type bending machine of a reactor facility, a press brake type bending machine, a bending type roller bending machine, Bending type roller bending machines, bending and folding processes of high-strength stainless steel plate (597), and a pressurized water type double structure reactor facility is provided with a double structure block tank reactor facility,

In the stopper plate 625 dust collector (794) equipment constituting the pressurized water double structure reactor facility with the double structure block tank reactor facility,

A double structure block tank 598 comprising a cylindrical egg-shaped coupling structure constituting a dust collector 794 of the pressurized water type double structure reactor facility and constituted by a cap-tight coupling assembly of a double structure block tank 598, Tank 596 and a plurality of outer block tanks 599. The large flange to the dust collector 794 facility, which comprises machines of the welding process at the upper and lower ends of the block tanks, respectively, is provided with a bolting connection device, (1) of the pressurized water type double structure reactor facility (1) of the nuclear waste disposal dedicated for offshore source, which is equipped with marine tunnel traffic apparatuses for distributing the double structure block tank dust collector (794) ) Nuclear waste treatment plant in the manufacturing process Distribution side (705) Marine tunnel Inside and outside of the traffic system Renewal system Nuclear power plant connection structure Nuclear power plant Alternative power generation Manufacturing configuration operations to fulfill the original reference made of a pressurized water nuclear waste disposal facility for double structure reactor of a nuclear power plant comprising a double tank structure block dust collector (794) and;

In the pressurized water double structure reactor installation on the distribution side of the nuclear waste processing pipe manufacturing process of the nuclear power plant having the double structure block tank dust collector 794 on the distribution side 705 composed of the pressurized water type double structure reactor facility,

The double structure block tank (794) reactor double structure block tank (598) of the pressurized water type double structure reactor plant The welding process assembly of the bolting coupling assembly and the stopper plate (625) is provided with a stopper plate ) Double-structure block-type tank dust collector (794) for explosion-proof type of multiple reactor facilities composed of welding process assemblies consisting of a double-structured pressurized water reactor (1) The nuclear waste disposal and dispensing apparatus and the nuclear fuel explosion control apparatus are provided as dispensing and inputting apparatuses,

A double structure block tank dust collector 794 which is provided as a connection structure for a nuclear power plant inside and outside the marine tunnel transportation device on the distribution side 705 of the nuclear waste treatment pipe manufacturing process composed of the pressurized water type dual structure reactor facility, To construct nuclear reactors with double-walled pressurized water reactor facilities for the nuclear waste disposal of nuclear power plants;

In a pressurized water double-structure reactor installation for nuclear waste disposal of a nuclear power plant 811 of a nuclear power plant having a double structure block tank dust collector 794 on a distribution side 705 constituted by the pressurized water type double structure reactor facility,

(593,594,595) composed of a pressurized water type double structure reactor facility, and the installation position of the nuclear hydroelectric power plant (811) is set to a hydraulic cylinder machine Respectively,

The construction of the hydraulic cylinder machine is equipped with the elevator control system for flood control, the mooring device formed on the barge preventing sinking type, and the pressurized water double structure of the nuclear power plant which regulates the position of the nuclear power plant, It is designed to operate nuclear reactors that prevent explosion of reactor facilities,

In the pressurized water reactor facility for the nuclear waste treatment of the nuclear hydroelectric power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 on the distribution side 705 constituted by the pressurized water double structure reactor facility,

In the nuclear power plant 811 composed of the pressurized water type dual structure reactor facility,

A double structure block tank dust collector (794) is installed at a marine nuclear power plant to prevent the explosion of several reactor facilities in the nuclear fuel chamber to prevent environmental pollution caused by nuclear waste constituting the nuclear power generation facility unit (811). In order to secure the safety of the nuclear power generation facilities and to ensure the renovation of the reactor facilities by continuous operation, the nuclear power plant was installed and the double structure block tank dust collectors (794) of the floating nourishment readers of several marine nuclear hydroelectric power plants (593,594,595) (804) of nuclear power plant with dual structure block tank dust collector (794) equipped with hydraulic power generators for the production and production of alternate-capacity alternating-current power generation. City Nuclear Power Plant Connection Structure Nuclear Waste of Nuclear Waste Disposal Facility With the nuclear fuel cycle of the nuclear fuel industry, The nuclear waste generated from the nuclear waste water treatment plant 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 constituting the inside of the main body 1 of the pressurized water double- Operation of pressurized water type double structure reactor;

As shown in FIG.

Preferably, the nuclear waste fuels industry comprises a pressurized water dual-structure reactor facility for nuclear waste treatment of the nuclear power plant 811 of a nuclear power plant having a dual structural block tank dust collector 794 on the distribution side 705 In the nuclear fuel cycle,

(593,594,595) Nuclear power plant (672) of several marine nuclear hydroelectric power plants constituting the nuclear fuel cycle of the pressurized water type double structure reactor facility nuclear fuel industry (672) and double body nuclear reactor equipment body A nuclear waste fuel processor 683 of the nuclear waste fuel industry of the nuclear waste processing unit of the nuclear power generation facility 811 of the nuclear power plant having the dual structure block tank dust collector 794 of the distribution side 705 constituted by the nuclear fuel waste processing unit,

Uranium 812, which constitutes the nuclear fuel cycle of the pressurized water dual-structure reactor fuel plant industry, provides for the processing of nuclear fuel 683 at the reprocessing plant 228,

In the conversion plant 229 constituting the nuclear fuel cycle of the nuclear fuel industry,

The fuel is supplied to uranium fluoride 812 and the nuclear fuel cycle of the nuclear waste fuel plant of the nuclear waste treatment facility is provided to transfer the nuclear fuel 683 to the concentrator 230,

Providing a conversion at uranium dioxide conversion plant 229, uranium fluoride 812 constituting the nuclear fuel cycle,

And a fuel rod (689) constituting processing in the state of a pellet (683) constituting a pressurized water double structure reactor plant fuel cycle,

Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,

The fuel rods 689 are prepared at the conversion / processing factory 231,

The reprocessing fuel rods 689 constituting the nuclear fuel cycle,

Again, it includes a forklift carrier that constitutes a transfer of nuclear fuel 683 to the nuclear power plant 672,

The nuclear power plant 672, the reprocessing plant 228, the concentration plant 230 and the conversion plant 229, the conversion and processing plant 231 constituting the pressurized water type double structure reactor plant nuclear fuel cycle,

(705) and a nuclear waste (224) treatment facility of the nuclear fuel industry located at the top of the floating deck deck deck of the sinking prevention type of the sinking prevention type of 40 m above the sea surface of the sea, and the inside and outside of the nuclear power plant 672 Including the fuel cycle of the pressurized water double-structure reactor facility nuclear fuel industry to prevent nuclear radioactivity pollution,

A dual structure block tank of distribution side 705 constituting inside of pressurized water type double structure reactor facility main body 1 for treatment of nuclear waste 224 constituting said pressurized water type double structure reactor facility fuel cycle, The fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear power generation facility 811 of the nuclear power plant having the dust collector 794 is provided,

(593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear fuel cycle. Mooring devices and diving buoyancy control devices and nuclear waste disposal devices in the nuclear power plant (672). Disassembly and disassembly is performed at the marine vessel manufacturing plant of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 at the nuclear waste disposal facility distribution side 705 of the reactor facility at the hydroelectric power generation facility 811 A nuclear fuel cycle of the nuclear waste processing facility of a possible connection structure and a nuclear fuel cycle of the nuclear fuel industry;

In the nuclear fuel cycle of the nuclear waste fuel industry constituting the nuclear waste disposal apparatus of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation by the pressurized water reactor facility,

The double structure block tank dust collector 794 on the distribution side 705 of the nuclear waste treatment pipe manufacturing process composed of the nuclear power generation facility unit 811 constituted inside the pressurized water double structure reactor facility main body 1 for the marine source exclusive nuclear waste treatment, Nuclear waste of the nuclear waste disposal system to operate the nuclear plant of the reactor facility To construct the nuclear fuel cycle of the nuclear fuel industry, it is necessary to construct the nuclear power plant before and after the operation of the nuclear power plant. A nuclear waste disposal pipe manufacturing process consisting of a nuclear power generation facility unit 811 constituted by the inside of the structural reactor facility main body 1, and connecting structures having remote control rods for remodeling inside and outside of the traffic apparatus on the distribution side 705 (794) Nuclear waste treatment plant manufacturing process The pressurized water type nuclear reactor equipment is constructed to operate the nuclear power plant;

In the nuclear power plant 811 of the nuclear power plant operating within the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,

A nuclear power plant having a double structure block tank dust collector 794 at a distribution side 705 of a nuclear waste processing tube manufacturing process constituting the nuclear power generation facility unit 811, A nuclear waste disposal apparatus connected to the nuclear waste disposal marine tunnel transportation apparatus 941 and a nuclear waste disposal processing type dual structure nuclear reactor facility main body 1 having a position movement control with nuclear waste disposal transportation carriers, It is equipped with internal construction machinery and hydroelectric generators constructed in the production and production of alternate generation electric power for nuclear power plants to supply nuclear power plants with nuclear power plants equipped with dual structure block tank dust collectors. &Lt; / RTI &gt;

(705) constituting the nuclear waste treatment pipe manufacturing process included in the nuclear power generation facility unit (811) constituted inside the pressurized water type double structure reactor facility body (1) constituting the pressurized water type reactor facility, )silver,

(593,594,595) of several marine nuclear hydroelectric power plants constituting the pressurized water type double structure reactor facility and individual pressurized water type of the nuclear power plant constituted of the inside of the pressurized water double structure nuclear reactor facility main body (1) A double structure block tank bridge pier 928 and a dual structure block tank bridge 937 constructed of a nuclear waste treatment dual structural strut block tank 590 and a nuclear waste treatment dual structural block tank 598 of a dual structure reactor installation, A dual structure block tank dust collector 794 for controlling the nuclear radiation leak at the connection side,

And a pressurized water double structure reactor facility for nuclear waste disposal of a nuclear power plant 672 constituting a disassembly coupling side connection side of a double structure block tank bridge 937 constituting the double structure block tank precipitator 794,

The fuel cycle distribution side (705) of the nuclear fuel industry located at the top of the deck deck of a flood prevention type barge deck 40 m above sea level in the ocean; and

Nuclear waste (224) treatment and distribution facility, comprising a nuclear fuel cycle of a nuclear fuel pollution prevention nuclear fuel pollution reactor, which is comprised of inside and outside of a nuclear power plant (672)

A double structure block tank dust collector 794 on the distribution side 705 constituting the inside of the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste 224 constituting the fuel cycle, The fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal unit of the nuclear power generation facility (811) of a nuclear power plant is provided in the pressurized water double structure reactor facility,

(593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear fuel cycle in the pressurized water type double structure reactor facility, and the mooring device, diving buoyancy control device and nuclear waste treatment device carrier and reactor facility The nuclear power plant 811 of the nuclear power plant having the double structure block tank dust collector 794 of the nuclear waste treatment facility distribution side 705 of the reactor facility at the nuclear power generation facility 811 before and after the safe operation of the reactor facility, The reactor is equipped with a nuclear fuel cycle of a nuclear waste treatment facility consisting of a connection structure capable of disassembling at a manufacturing plant, and is constructed to operate the nuclear power plant with a pressurized water type double structure reactor facility for nuclear waste treatment;

The nuclear waste fuels constituting the nuclear waste disposal apparatus of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 constituting the nuclear power plant operation by the pressurized water type double structure reactor facility, In the nuclear fuel cycle of industry,

(811) consisting of nuclear reactor facilities of nuclear and marine nuclear power plants constituting the nuclear fuel cycle of the nuclear waste fuel industry, and nuclear water reactor type double reactor nuclear reactor facility (1) Nuclear waste in the nuclear waste treatment plant Nuclear waste in the nuclear waste processing unit that constitutes the fuel cycle of the nuclear fuel industry Nuclear power plant operation in the nuclear power plant constituting the fuel cycle of the nuclear fuel industry A post-configuration step; and

Nuclear waste disposal for marine resources Nuclear waste treatment plant consisting of pressurized water type double structure reactor facility (1) Nuclear power generation facility consisting of internal nuclear power generation facility (811) Remodeling inside and outside of transportation device at distribution side (705) (794) Nuclear waste treatment plant manufacturing process comprising pressurized water reactor plant with connection structure with control roast;

A nuclear power plant is constructed by constructing a holding block tank (590) constituted by the sea depth by a pressurized water reactor facility in the unit of the depth of the sea surface (SLL)

(593, 594, 595) nuclear power plants (672) of several offshore nuclear hydroelectric power plants of the ocean in the nuclear waste treatment section (811a) constituting the nuclear power generation facility section (811) (1) Nuclear Reactor Installed in the Nuclear Power Plant Operation In the rotary table lathe machine 908 of the drilling machine,

A boom boom of a crane boom of an overhead crane 651 located at the upper end of the drilling machine room with a crude oil at the time of crude oil connected to a plurality of pipe racks 854 constituting a rotary table lathe machine 908 of a drilling machine, A boom hook (652) and a wire rope (19) are connected to each other,

The pipe rack 854 in the excavation preparation standby state constituting the mooring unit in the crude oil double-wall reactor-equipped double-walled reactor installation,

A plurality of pipe racks 854 provided as connection structures of the sea level lower end SLD of the sea level SLL constituting the pipe rack 854,

The core drill 917 constituting the pressurized water type dual structure nuclear reactor facility pipe rack 854 is,

A double-structure reactor installation 913 of a pressurized water type double structure reactor core 917 is provided with a drilling hole 936 while a drill 917 is installed at an excavation hole 936 provided at a joint structure with a core drill 917, A construction machine operation connection structure mounted on each of the strut block tank upper barge hulls provided with a crank 846 and provided as a connection structure at the position of the hydraulic cylinder machine 624 and the key bed 616, Prevention line 634 of the mooring unit that constitutes the line distribution input,

The rotary table lathe machine 908 of the crude oil-boring drilling machine, which is located in the connection structure inside the drilling machine machine room constituting the lower end of the overhead crane 651 constituting the sinking prevention retention line 634,

And a plurality of hydraulic cylinder keys 623 for drilling located at the center portion opposite to the circular table line constituting the rotating body of the rotary table lathe machine 908,

And a plurality of hydraulic cylinders 623 for drilling, which are connected to each other at a line center portion of the line, and are provided with several keys 623,

A rotary table lathe machine 908 of a drilling machine for drilling oil for crude oil, constituting the position shift control of the line-opposing central part, is moved to a position opposite to the center line position, and the position of the connection structure And a rotary table lathe machine (908) for connecting the rotary table lathe,

A plurality of pipe racks 854 are continuously provided at a central position by a rotating body connection structure constituting the rotary table lathe machine 908, and several pipes (not shown) provided at a point of a crude oil borehole 936, And has a rack 854 as a connection structure and has a connecting structure positioned as a choke bar position connecting structure at the time of crude oil so as to have a crude oil bore hole 936 as a rotary shaft core drill 917 for excavating a hole of a crude oil bore hole 936 A nuclear waste disposal reactor type reactor nuclear plant operating apparatus of a nuclear waste disposal unit 811a constituted inside a main body 1 of a pressurized water double structure reactor facility for marine nuclear waste treatment,

A helicopter stop 619 positioned as a deck deck upper center peripheral connection structure constituting peripheral equipment of the block steel towers 116 of the nuclear waste disposal apparatus constituting the nuclear power plant is provided as a pressurized water reactor facility for nuclear waste disposal and,

A satellite launch pad 643 and a space rocket launch pad 646 of a space rocket 612 are provided to provide a positioning position for a safety control room left side connection structure constituting a deck deck peripheral equipment of the block pylon 116 A nuclear waste disposal reactor facility nuclear reactor operating device of the nuclear waste disposal unit 811a constituted around the satellite launching platform 643 and the space rocket launching platform 646 is provided as a pressurized water double structure reactor facility for nuclear waste disposal,

The nuclear reactor plant of the nuclear power plant constituting the upper part of the deck deck of the block pylon 116 is provided with the satellite launching platform 643 and the space rocket launching platform 646, And the natural loess soil 158 is connected to the upper part of the floating deck deck deck, which is located at the connection structure, with the submarine line wiring 946 as a connecting structure constituting the inside of the deodorizing microorganism 921, , &Lt; / RTI &

And a natural loess soil (158) of a loess mixture which generates toothpaste-form soap bubbles mixed with a fire extinguishing control product cooling water composed of a connecting structure provided at the top of a deck deck of the block steel towers (116) by a mixer machine, (921) breeding prevention,

The natural loess (158) of the loess mixture, which generates soap bubbles in the form of a dentifrice mixed with a fire control control supply coolant with a mixer machine, is fed to the top of the floating deck deck deck comprising the loess mixture (158) Respectively,

The countermeasure for preventing harmful red tide in the seabed constituting the harmful tidal microorganism 921 to prevent the propagation of the harmful tidal microorganisms 921 occurring in the seabed constituting the natural loess soil 158 of the loess mixture at the upper deck deck of the block pylon 116,

A natural yurt 158 is inserted into the yatch basket 951 of the harmful redeye suction dust collector constituting the harmful red tide to prevent propagation of the harmful tide, and the yatch basket 951 constituting the input of the natural loess 158 according to the depth of the sea floor, / RTI &gt;

The harmful redeye microbes 921 are stored by the harmful redeye suction dust collector constituting the greeneyed basket 951 so that the harmful redeye microbes 921 are removed by the natural yellow soil 158 inside the greeneyed basket 951, The reactor is equipped with a pressurized water reactor,

At the bottom of the body bottom constituting the removal of the harmful tidal microorganism (921), the natural loess soil (158)

The harmful tidal microorganism 921 is replenished with natural loess soil 158 on the seabed by a moving tackle winch 137 constituting a position control,

A seesaw crane boom girder 942 of a tower crane for substituting for a quarrel constituting the tuna winch 137, a wire rope 19 and a wire rope chain 915, 135,

In the nuclear power plant (811) of the reactor facility of nuclear power plant which is composed of nuclear power plants of nuclear power plants of the land and sea and nuclear power plant of the nuclear power plant, Waste Treatment Tube Manufacturing Process Dual structure block tank (794) on the distribution side (705) Nuclear power plants constituting the operation of the nuclear power plant Several nuclear reactors before and after the failure,

An apparatus for constructing a nuclear reactor with a nuclear fuel cycle of a nuclear fuel industry connected to a nuclear waste disposal marine tunnel transportation device 941 to operate a nuclear reactor reactor with a pressurized water reactor for nuclear waste treatment,

A construction machine equipped with nuclear waste disposal trucks,

Nuclear Reactor Alternative Power Generation Nuclear Reactor Dual Reactor Reactor Facility with Nuclear Fuel Cycle for Nuclear Fuel Industry and Equipments for Removal of Harmful Reduced Microorganism (921) in Nuclear Waste Treatment;

It is preferable to configure it.

                   (Example 2. [TEST 2])

As shown in FIGS. 89 to 90, in a dual structure reactor facility for storing nuclear waste in a double structure block tank dust collector constructed inside a marine nuclear hydroelectric power plant having a pressurized water type double structure reactor facility for processing nuclear waste,

The inner block tank 596 and the outer block tank 599, which can be disassembled and coupled to the nuclear reactor facility, are connected by a double structure connecting structure. The laser cutting machine and the welding machine of the welding process are provided. (794) facility of the structural block tank dust collector,

A double structure block tank 594 is provided at the lower end portion of the connection structure of the double structure block tank 598 in which the inner block tank 596 connected to the double structure block tank collector 794 of nuclear power generation and the outer block tank 599 are assembled, By storing the nuclear wastes on one side with the dust collector 794, the dual structure block tank dust collector 794 prevents a disaster caused by leakage of nuclear fuel radiation coupled by a plurality of reactor facility connection shafts,

The nuclear waste discharged from the operation of a plurality of nuclear reactor facilities is stored in the empty space of the double structure block tank dust collector 794 composed of nuclear waste disposal apparatuses,

An inner block tank 596 connected to a nuclear waste treatment dual structure block tank dust collector 794 provided with nuclear waste treatment control items constituted inside the main body 1 of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for treating nuclear waste, And the outer block tank 599 are assembled, a nuclear waste disposal due to the leakage of the nuclear fuel radiation is stored in the double structure block tank dust collector 794 in advance In addition,

As shown in FIGS. 89 to 90, a plurality of nuclear reactors of a nuclear power plant storing nuclear waste of a dual structure block tank dust collector constituted inside a marine nuclear hydroelectric power plant equipped with a pressurized water reactor for nuclear waste treatment In addition,

The nuclear waste is stored in one place in a plurality of inner block tanks 596 and the lower end of the empty spaces of the plurality of outer block tanks 599 before and after a large explosion accident which constitutes several reactor facilities, An inner block tank 596 with a single number of double structure block tank cleaners 794 fixedly provided with reinforcing concrete mats 225 and steel beams 149 having a thickness of m m to be put into the reactor floor facility GLD reactor facility ), Which is located inside the third wall of the nuclear reactor to which the nuclear fuel has been injected, and a distributor of nuclear fuel explosion control, It consists of reactor facilities,

A double structure block tank dust collector 794 for nuclear waste treatment on the distribution side of the nuclear waste treatment pipe manufacturing process included in the nuclear hydroelectric power generation facility 811 constituted inside the marine nuclear hydroelectric power plant having the pressurized water reactor facility for nuclear waste treatment ), Which is a connection structure of several nuclear reactor facilities of a nuclear power plant having a nuclear power plant (hereinafter referred to as &quot; nuclear power plant &quot;),

As shown in FIGS. 89 to 90, in several reactor facilities constituted in a pressurized water double structure reactor facility for nuclear waste disposal of a marine nuclear hydroelectric power plant having the double structure block tank dust collector,

Several reactor installations inserted into the dual structure block tank dust collector 794,

A first wall pellet 681 of a secure nuclear fuel,

A cladding tube 682 for protecting the second wall fuel rod 689,

A third wall reactor pressure vessel 813,

A fourth wall containment vessel 808,

A double structure block tank dust collector 794 configured by replacing the reactor building 688 portion of the reactor facilities of the reactor building 688 composed of the fifth wall reinforcing concrete mat with the protective walls provided in five layers, A nuclear waste disposal dispensing device,

(811) consisting of a nuclear hydroelectric power plant internal to a marine nuclear hydroelectric plant equipped with a pressurized water reactor facility for nuclear waste disposal equipped with nuclear fuel explosion control dispensing devices and equipped with a dual structural block tank dust collector, A double structural block tank collector (794) as a connection structure for repairing inside and outside of a marine tunnel traffic device (941) combined with a double structure block tank dust collector (794) on the distribution side of the pipe manufacturing process. The reactor structure of the nuclear reactor is composed of two nuclear reactors,

The facility of the nuclear power plant having the double structure block tank dust collector 794 constituting the operation of the nuclear power plant in the pressurized water double structure reactor facility for treating nuclear waste,

The double structure barge hull 591 at the lower end of the holding tank of the adjustment side prevents leakage of the fuel into the inside of the hull deck center portion S D M by the double structure block tank dust collector 794,

A plurality of nuclear reactor facilities for nuclear waste disposal of nuclear power plants are provided on both sides of a bow and stern of a central portion of a plurality of inner block tanks 596 provided with a double structure block tank dust collector 794, And a guide rail 618 located on the upper part SDU of the double structure barge hull 591 at the upper end of the holding tank is installed to the left and right of the deck deck and the crane 861 of 5000 ton capacity is installed on the deck A position is provided on the deck guide rail 618,

Transporting the reactor installation to the inside where the crane (861) is located at the top of the deck deck guide rail (618)

A nuclear waste disposal and dispensing apparatus having a double structure block tank precipitator 794 constructed by replacing five-fold protective walls inside the barge hull,

The nuclear fuel explosion-control distribution dispenser is provided with the crane 861 and the construction machine crane 861 is installed inside and outside of the marine tunnel traffic device 941 connected to the dual structure block tank dust collector 794, A double structure block tank dust collector 794, and a dual structure block tank dust collector 794 constructed of a plurality of nuclear reactor facilities for manufacturing a nuclear waste treatment pipe.

The distribution side constituting the nuclear waste treatment pipe manufacturing process included in the nuclear hydroelectric power generation facility unit 811,

As shown in Figs. 91 to 95, it is also possible to use floating-type readers (593, 594, 595) of small, medium and large sized marine nuclear power plants constituting the nuclear power plant 672 and marine nuclear power Nuclear waste treatment of marine nuclear hydroelectric power plants with pressurized water reactor facility for individual nuclear waste disposal of nuclear hydroelectric power plants consisting of hydroelectric power plants The double structure strut block tanks 590 and the nuclear waste treatment dual structure block tanks 598 Double structure block tank bridge pier (928) and dual structure block tank pipe bridge (937) that make up the connection and double structural block tank dust collector (794) to control the nuclear radiation leakage on the connection side. Type double-structure reactor installation of a nuclear waste disposal nuclear reactor (672) that constitutes disassembly-side decomposition,

The distribution side constituting the nuclear waste processing pipe manufacturing process of the nuclear hydroelectric power generation unit 811 constituted inside the marine nuclear hydroelectric power plant having the pressurized water reactor facility for treating nuclear waste,

In the pressurized water reactor installation of the nuclear hydroelectric power plant having the dual structure block tank cleaner 794 on the distribution side,

Steel plates 597 made of high-strength stainless steel constituted by a pressurized water reactor facility are provided to assemble the double structure block tank 598,

An inner block tank 596 positioned at the center of the double structure block tank 598 constituted by the pressurized water reactor facility and an outer block tank 599 located outside the inner block tank 596, (794) Nuclear waste treatment on one side of the equipment Double structure block tank pipe bridge (937) Dispensing device of the bridge (937) A double structure block tank dust collector (794) equipped with a first auxiliary steel pipe (600) for a block tank and a second auxiliary steel plate (601) connected to the double structure block distributing and inputting device of a cutting process and a welding process, And a large flange (614) which constitutes a position as a connecting structure of the connecting shaft to the connecting position,

Large flange connection joint of large size flange composed of pressurized water type double structure reactor facility for nuclear waste processing joint part machining hole (615) large flange (614) located at the connection part is equipped with a drill lathe and cutter of cutting tool A dual-structure block tank (794) is constructed inside a marine nuclear hydroelectric power plant equipped with a pressurized water type double structure reactor facility for nuclear waste disposal while providing a pressurized water reactor facility manufacturing and processing process for nuclear waste of a nuclear hydroelectric power plant. A double structure block tank dust collector 794 on the distribution side of the nuclear waste water treatment pipe manufacturing process of the nuclear hydroelectric power generation facility 811 and a pressurized water double structure Including reactor installations,

As shown in FIGS. 91 to 95, in a reactor installation of a nuclear hydroelectric power plant having a dual structure block tank 598 dust collector 794 on the distribution side constituted by the reactor facility,

A double structure block tank dust collector (794) at the distribution side of the nuclear waste processing pipe manufacturing process of the nuclear hydroelectric power plant (811) constituted of the inside of a marine nuclear hydroelectric plant having a pressurized water reactor facility for processing nuclear waste, ), Which is a nuclear power plant for nuclear waste disposal,

As shown in FIGS. 91 to 95, the reactor facility on the distribution side of the nuclear waste processing pipe manufacturing process of the nuclear hydroelectric power plant having the dual structure block tank dust collector 794 on the distribution side constituted by the above- ,

A large flange 614 is connected to a large flange 614 located at a stern and aft connecting portion of a double structure block tank dust collector 794 constituted by a pressurized water reactor facility. A connecting structure of the pipe manufacturing process distribution side of the process lathe process,

In the inner block tank 596 constituted by the pressurized water reactor equipment and the outer block tank 599 located outside the inner block tank 596, the double structure block tank dust collector 794, And an inner block tank 596 is provided with an overhead crane 861 and a conveyor 633 that are fed into the outer block tank 599 to control the positional movement of the pipe manufacturing process equipment, A welding process of the welding process,

(811) consisting of the inside of a marine nuclear hydroelectric power plant equipped with a pressurized water reactor facility for nuclear waste disposal equipped with a double structure cylindrical connection structure composed of a pressurized water reactor facility, and a nuclear waste treatment pipe manufacturing process distribution And a dual structure block tank cleaner 794 for the nuclear reactor of the nuclear power plant,

As shown in FIGS. 91 to 95, a nuclear waste treatment pipe manufacturing process of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 on the distribution side constituted by the above-described pressurized water reactor installation, In the pressurized water reactor installation,

The fifth protective walls formed on the outer wall surface of the fourth protective wall containment vessel 808 are provided with a pressurized water reactor apparatus for processing nuclear waste, (811) comprising a nuclear water hydroelectric power plant having a double structure block tank dust collector (794) on the distribution side of a nuclear waste processing pipe manufacturing process, and a pressurized water reactor , Which constitutes the operation of nuclear power plants,

As shown in FIGS. 91 to 95, a nuclear water reactor having a dual structure block tank dust collector 794 on the distribution side constituted by the pressurized water reactor installation, In addition,

The vertical partition wall 605 and the horizontal partition wall 609 provided with the partition wall manhole 610 of the double structure block tank dust collector 794 constituted by the pressurized water reactor facility are provided with a traffic device hydraulic cylinder door 624, (631) are provided with welding processes and are equipped with marine tunnel traffic devices for distributing and loading the double structure block tank dust collector (794) for preventing the explosion of the nuclear reactor facility. Inside the nuclear nuclear hydroelectric power plant having the pressurized water reactor facility for nuclear waste treatment And a double structural block tank dust collector 794 as a connection structure of a nuclear water hydraulic power plant inside and outside of a marine tunnel transportation apparatus on the distribution side of the nuclear waste processing pipe manufacturing process comprising a nuclear hydroelectric power plant unit 811 The operation of a nuclear power plant is composed of the pressurized water reactor facility of the nuclear waste disposal of one nuclear power plant,

As shown in FIGS. 91 to 95, a nuclear water reactor having a dual structure block tank dust collector 794 on the distribution side constituted by the pressurized water reactor installation, In addition,

The double-structure block tank 598 of the double structure block tank dust collector 794 comprising a pressurized water reactor installation is welded to the welding plate assembly 625 of the bolting assembly and the closure plate 625, A nuclear power plant unit 811 having a double structure block tank dust collector 794 for preventing explosion of a plurality of nuclear reactor facilities constituting a process assembly and constituting the interior of the pressurized water type double structure reactor facility main body 1 for nuclear waste treatment, The nuclear waste disposal and dispensing apparatus and the nuclear fuel explosion control apparatus are provided as dispensing and inputting apparatuses,

Nuclear Waste Treatment Tube Manufactured by Nuclear Reactor Manufacturing Process Nuclear waste of a reactor facility of a nuclear power plant equipped with a double structure block tank dust collector (794) as a connection structure of a nuclear power plant inside and outside of a marine tunnel transportation device at a distribution side The reactor is equipped with a pressurized water reactor facility to be operated,

As shown in FIGS. 91 to 95, the pressure of the nuclear waste disposal of the nuclear hydraulic power plant unit 811 of the nuclear power plant having the dual structure block tank dust collector 794 on the distribution side constituted by the above- In a water reactor installation,

(593,594,595) consisting of a small, medium and large sized hydro-electric power plant with a small-sized, large-sized, and pressurized water reactor facility, and 40m above sea level to exclude the weather condition of the tsunami as disaster prevention equipment. 811) are installed, and a mooring device and submersible buoyancy regulating devices are installed on the barge line to prevent sinking, so that the position of the nuclear power plant can be adjusted to eliminate the effects of earthquake and tsunami as a disaster prevention device. It is composed of a pressurized water reactor facility to prevent the explosion of nuclear reactor facilities,

As shown in FIGS. 91 to 95, the pressure of the nuclear waste disposal of the nuclear hydraulic power plant unit 811 of the nuclear power plant having the dual structure block tank dust collector 794 on the distribution side constituted by the above- In a water reactor installation,

At the nuclear hydropower generation facility 811 comprising the pressurized water reactor facility,

A double-structure block tank dust collector (794) was installed at the marine nuclear power plant to prevent the explosion of a large number of nuclear reactors installed in the nuclear fuel chamber to prevent environmental pollution caused by nuclear waste composed of pressurized water reactor facilities. (593,594,595) of small-sized and medium-sized and large-scale marine nuclear hydroelectric power plants to secure the safety of nuclear power plant reactor facilities and ensure the maintenance of reactor facilities by continuous operation. Nuclear waste in nuclear waste disposal unit of nuclear waste treatment facility inside and outside of tunnel traffic equipment Repairing of inside and outside Nuclear waste of distribution unit consisting of inside of marine nuclear hydroelectric power plant equipped with pressurized water reactor facility for nuclear waste disposal with nuclear fuel cycle of nuclear fuel industry A dual structure block tank scrubber 794, Configuring the nuclear powered by the pressurized water reactor nuclear power plant of bovine hydro nuclear waste disposal of seolbibu 811, and

As shown in FIGS. 91 to 95, the nuclear waste fuel processing system comprising the nuclear waste processing device of the nuclear hydroelectric power generation facility 811 of the nuclear power plant having the dual structure block tank collector 794 on the distribution side In the nuclear fuel cycle,

(593,594,595) of a small, medium and large sized nuclear hydroelectric power plant constituting the nuclear fuel cycle of the nuclear fuel industry, and a double structure block tank dust collector (794) of a distribution shaft (705) The spent nuclear fuel 683 of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear hydroelectric power plant 811,

The remaining uranium 812, which constitutes the nuclear fuel cycle of the nuclear fuel industry, provides the nuclear fuel 683 processing at the reprocessing plant 228,

In the conversion plant 229 constituting the nuclear fuel cycle of the nuclear fuel industry,

The fuel is supplied to uranium fluoride 812 and the nuclear fuel cycle of the nuclear waste fuel plant of the nuclear waste treatment facility is provided to transfer the nuclear fuel 683 to the concentrator 230,

Providing a conversion at uranium dioxide conversion plant 229, uranium fluoride 812 constituting the nuclear fuel cycle,

And a fuel rod (689) constituting processing in the state of pellets (683) constituting the fuel cycle,

Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,

The fuel rods 689 are prepared at the conversion / processing factory 231,

The reprocessing fuel rods 689 constituting the nuclear fuel cycle,

Again, it includes a forklift carrier that constitutes a transfer of nuclear fuel 683 to the nuclear power plant 672,

The nuclear power plant 672 constituting the nuclear fuel cycle, the reprocessing plant 228, the concentration plant 230, the conversion plant 229, the conversion and processing plant 231,

(404m) above sea level, a nuclear fuel cycle distribution side of the nuclear fuel industry located at the top of the deck deck, and a nuclear waste (224) disposal input and output facility, and is installed inside and outside the nuclear power plant (672) Which comprises the nuclear fuel cycle of the nuclear fuel industry comprising an internal nuclear hydroelectric plant with a pressurized water reactor facility for nuclear waste disposal to prevent nuclear radiation contamination,

A nuclear water hydraulic power plant unit 811 of a nuclear power plant having a dual structure block tank dust collector 794 on the distribution side constituted by a marine nuclear hydroelectric power plant having a pressurized water reactor facility for treatment of nuclear waste 224 ), The nuclear fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus is prepared,

(593,594,595) of a small, medium and large sized marine nuclear hydroelectric power plant constituting the fuel cycle of a pressurized water reactor plant. (593,594,595) Mooring device and diving buoyancy control device of the nuclear power plant (672) Nuclear power plant facilities (811) before and after the safe operation of reactor facilities of nuclear facilities Nuclear power plant facilities of nuclear power plants equipped with dual structure block tank dust collector (794) 811), including the fuel cycle of the nuclear fuel industry of the nuclear waste treatment facility, which consists of a disassembly-connectable structure at the marine vessel manufacturing plant, and to operate the nuclear power plant with the pressurized water reactor facility for nuclear waste treatment,

As shown in FIGS. 91 to 95, the nuclear waste fuel processing equipment of the nuclear waste fuel processing equipment constituting the nuclear waste processing unit of the nuclear power generation facility 811 of the nuclear power plant having the dual structure block tank cleaner 794 on the distribution side In the cycle,

(811) consisting of a nuclear power plant (811) consisting of a nuclear power plant of nuclear power plant of land and ocean and a nuclear water nuclear power plant equipped with a pressurized water reactor facility for nuclear waste disposal. Structured block tank dust collector (794) Nuclear power plant with nuclear fuel cycle of the nuclear waste fuel processing equipment of the nuclear waste disposal unit to constitute the operation of the reactor of the nuclear reactor plant.

Nuclear waste treatment plant consisting of Nuclear Hydroelectric Power Plant (811) consisting of inside of marine nuclear hydroelectric plant equipped with pressurized water reactor facility for nuclear waste disposal. (794) a nuclear waste disposal pipe manufacturing process; and a reactor structure for the reactor structure of the nuclear waste disposal pipe manufacturing process;

The nuclear power plant (811) of nuclear reactors operating in nuclear power plants, consisting of nuclear power plant nuclear power plants in land and marine nuclear power plant and nuclear power plant with marine nuclear power plant equipped with pressurized water reactor facility for nuclear waste disposal, , A disaster prevention device connected to an alternative generation power device before and after the failure of several nuclear installations of a nuclear power plant configured to operate the nuclear power plant with a double structure block tank dust collector (794), a nuclear waste disposal marine tunnel communication device (941) A construction machine composed of a marine nuclear hydroelectric power plant equipped with a pressurized water reactor facility for nuclear waste disposal with a position shift control by waste handling carriers, a wind turbine generator and a thermal power generator Hydrogen generators are installed in reactor facilities of nuclear power plants with dual structure block tank dust collectors. A nuclear waste processing pipe manufacturing process included in a nuclear hydroelectric power plant 811 constituting an inside of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for processing nuclear waste, The distribution side,

(593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the nuclear power plant (672)

Nuclear waste treatment of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for the treatment of individual nuclear waste of a nuclear power plant constituting an inside of a marine nuclear hydroelectric power plant having a pressurized water reactor for nuclear waste treatment, A dual structure block tank bridge 928 and a dual structure block tank bridge 937 comprising a nuclear waste treatment dual structure block tank 598 and a dual structure block tank precipitator 794 )Wow,

Double structure block tank pipe bridge (937) Includes pressurized water reactor facility for the nuclear waste disposal of the nuclear waste disposal nuclear power plant (672) constituting disjunctive connection at the connection side,

As shown in FIGS. 91 to 95, a pressurized water reactor apparatus for processing nuclear waste in a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 on a distribution side constituting a pressurized water reactor apparatus for treating nuclear waste In addition,

(794) Large flange connection of the large flange to be installed in the equipment (614) Large flange (614) located at the connecting part of the connection part is provided with a drill lathe and cutter of the cutting tool The construction of a pressurized water reactor facility for the nuclear waste disposal of a nuclear power plant having a dual structural block tank dust collector (794), a nuclear hydroelectric power plant comprising an internal nuclear hydroelectric power plant having a pressurized water reactor facility for processing nuclear waste, The dual structure block tank dust collector 794 on the distribution side of the nuclear waste processing pipe manufacturing process of the power generation equipment section 811 constitutes the nuclear power plant with the pressurized water reactor facility of nuclear waste processing,

As shown in FIGS. 91 to 95, a nuclear water reactor having a dual structure block tank dust collector 794 on the distribution side, a pressurized water reactor apparatus In addition,

A dual structure block tank (598) constituting a dual structure block tank scrubber (794) reactor plant. The welding process assembly of the bolting coupling assembly and the plugging plate (625) is a cap assembly of a plug- A nuclear water hydraulic power plant 811 having an explosion-proof double structure block tank dust collector 794 and a nuclear water nuclear power plant having a pressurized water reactor for nuclear waste treatment A pressurized water reactor arrangement of nuclear waste processing consisting of a welding process assembly and bolting coupling assemblies,

The fuel explosion control apparatus constituting the pressurized water reactor apparatus for nuclear waste disposal,

Nuclear waste treatment plant manufacturing process The marine tunnel constructed on the distribution side is equipped with a double structure block tank dust collector (794) as a connection structure of the nuclear power plant inside and outside the repairing system of the inside and outside, and the pressurized water reactor And the operation of the nuclear power plant,

The pressure vessel 813 constituting the nuclear power reactor by the pressurized water reactor installation 803 is formed of the turbine 267 and the generator 772 at an intermediate position between the steam generator 810 and the cooling water 287 into the condenser 790, And the cooling water is discharged to the pressurized water reactor facility 803 through the waterproof channel,

The water supply is provided to the steam generator 810 through the feed pump 241 connected to the condenser 790 constituting the pressurized water reactor assembly 803 and the water supply to the steam generator 810 is provided to the steam generator 810, (593,594,595) Nuclear power plant (672) and dual tube block piping line located inside a marine nuclear hydroelectric power plant equipped with pressurized water reactor facility for nuclear waste disposal (74) And a nuclear waste disposal unit (811a) for connecting the nuclear radioactive pollutants to the nuclear waste disposal unit (811a) to provide a nuclear waste location movement control unit and a nuclear waste location movement channel, each of which comprises a double piping line (74)

Includes a nuclear power plant of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for processing nuclear waste constituting a pressurized water reactor facility (803)

A double pipe structure block piping line 74 is formed in a plurality of through holes of a double structure block tank dust collecting unit constituting the pressurized water reactor assembly 803,

A plurality of safety valves 472 constituting the double pipe structure piping line 74 of the pressurized water reactor assembly 803 are connected to the block piping line 74 by the bolts 24 and the gasket 32 to the nuts 25, A flange connection connection is provided,

A double structure block tank 598 having a diameter twice the diameter of the pressurized water reactor assembly 803 provided on the outer wall surface of the reactor building 688 constituting the flange connecting connection of the pressurized water reactor assembly 803 is provided with a core External block tank for waste treatment storage tank (599) and dual structure block tank dust collector reactor facilities combined with radiation type connection structure to treat nuclear waste disposal dispenser and nuclear fuel (683) explosion control pressurized water reactor facility (803) Respectively,

And includes a pressurized water reactor unit 803 constituting an internal part of a marine nuclear hydroelectric unit having a pressurized water reactor unit for processing nuclear waste, constituting a pressurized water reactor unit 803,

To prevent the explosion of the fuel 683 of the pressurized water reactor reactor facility 803 constituting the pressurized water reactor assembly 803,

The nuclear reactor 681 for constituting the pressurized water reactor installation 803 and the nuclear fuel 683 explosion prevention control articles just before the reactor explosion outside the reactor core 681 are provided with a pressurized water reactor for nuclear waste treatment A double structure block tank constructed inside a marine nuclear hydroelectric power plant; a nuclear waste disposal unit (811a) provided with a reactor facility; a pressure sensor (801) for detecting the temperature of the safety valve connected to the temperature pressure sensor of the pressurized water reactor Sensor and fuel explosion prevention control equipment input,

(593,594,595) of marine nuclear power hydroelectric power plants of small size, medium size and large scale of ocean constituting pressurized water reactor facility (803), mooring device, diving buoyancy control device and distributing input device of nuclear waste treatment (803) of the pressurized water reactor reactor (803) Double-structured block tank dust collector (794) constructed in the nuclear power generation nuclear waste treatment section (811a) of the reactor facility at the nuclear hydroelectric power generation facility section (811) The pressurized water reactor facility 803 is provided to supply the pressurized water reactor facility 803 at a marine vessel manufacturing plant,

A double structure block tank (794) connected to the internal side of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste disposal, which is a detachable coupling structure constituting a pressurized water reactor installation (803). A nuclear water hydraulic power plant having an internal water nuclear power plant having a double structure block tank dust collector for nuclear waste treatment so as to operate the nuclear power plant, One embodiment includes a pressurized water reactor facility 803 that feeds a floating nuclear power plant (593, 594, 595) nuclear power plant (672) of a small, medium and large sized marine nuclear power plant on land and ocean.

As shown in FIGS. 96 to 97, the pressurized water reactor facility for treating nuclear waste of a nuclear hydroelectric power plant constituted by the double structure block tank 598,

A double structure block tank (598) constituting a pressurized water reactor installation of a nuclear hydroelectric power plant is provided with a distributing input nuclear waste disposal apparatus of a double structure block tank dust collector (794) for controlling a nuclear radiation leak, (593,594,595) of marine small, medium and large sized marine nuclear hydroelectric power plants consisting of marine nuclear hydropower plants equipped with facilities, distribution of mooring devices, diving buoyancy control devices and nuclear waste disposal at nuclear power plants (672) Nuclear Waste Treatment Plant in Nuclear Power Plant (811) Before the Safety Operation of the Nuclear Waste Treatment Plant in the Input and Reactor Facilities The Nuclear Power Plant (811) Includes facilities of a nuclear power plant (672) consisting of the inside of a marine nuclear hydroelectric plant equipped with a pressurized water reactor facility for treatment .

A double structure block tank dust collector of a nuclear hydroelectric power plant (811) constituting an inside of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for processing nuclear waste of land and ocean constituting the nuclear power plant (672) The manufacturing process distribution side,

(593,594,595) nuclear power plants (672) of marine small, medium and large sized marine nuclear hydroelectric power plants constituting the distribution side of the above nuclear waste processing pipe manufacturing process, and marine nuclear hydroelectric power plants The double structure block tank dust collector of the nuclear power generation equipment unit 811 constituting the inside of the power plant is connected to the screw control unit 811g of the diving progression ready controllable dispensing device 811g constituting the connection side of the nuclear waste treatment pipe manufacturing process of the reactor equipment, Included in the facility,

As shown in FIGS. 96 to 97, in the submerging-ready movable-control-distribution-dispensing device screw adjusting portion 811g constituting the distribution side of the pipe manufacturing process,

A double structure block tank hull disassembly and connection portable lug 607 provided in a horizontal and vertical type coupling structure at respective portions of the strut tank upper barge hull 591 and the strut tank lower barge hull 592 constituting the screw adjusting portion 811g, Horizontal double structure block tank having a number of lug processing holes 615 constituting the hull drilling hole 615 and an elongated hole 616 for a double structure block tank hull disassembly and movement regulating unit in a block unit hull disassembly coupling portable lug pin connecting shaft 606 ) Double-structured block tank vertical to processing hole 615 Hull disassembly coupling Portable lug pin connection shaft 606 Machining hole 615 and block unit dual structure block tank Hull breaker hole Slot hole 616 for position control And the number of the barge hull 591 at the upper end of each of the double structure block tank holding tanks and the barge hull 592 at the lower end of the double structure block tank holding tank 590, A double structure block tank hinged to several lug processing holes 615 among a plurality of connection shafts 606 bound to a plurality of processing holes 615 provided at respective portions in a straight shape, 606) removal,

And a holding tank (590) constituted by a connecting shaft (606) double structure block tank (598) provided with a single row connecting shaft (606) binding constituting the removal of the lug pin connecting shaft (606)

The dive-ready-to-run preparation control unit 811g, which constitutes the holding tank 590,

(593,594,595) nuclear power plants (615) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants of the ocean by providing the distribution input devices of the anti-sinking resident lines (634) A connection structure capable of disassembling and coupling the facility is provided with a screw control section 811g for assembling at sea level,

And a diving progress preparation movable adjustment screw control unit 811g constituting a connection side of the nuclear waste disposal pipe manufacturing process of the nuclear power plant 615 facility nuclear waste treatment plant 593,594,595 of the marine power plant constituting the screw control unit 811g, Structural Block Tank (598) Holding Tank (590) Bottom Connection Barge Line Connected to each part of the hull Block unit of diving control unit Double structure Block tank (598) Bellows butterfly valve (622) A suction port 585a of the doctor ventilation 585 of the damping control device and a discharge port 585b of the doctor ventilation 585 and a double structure block tank hydraulic cylinder for the hull traffic control device A pressurized water reactor facility for the treatment of waste of the barge hull constituted by the door 624 and the plugged steel plate 625 and the connecting portion of the double structure piping line automatic pneumatic valve conveying device 916 and the engine control power motor control module 106 And

(593,594,595) Nuclear power plants (615) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants with ready-to-operate diving operation, each connected to each part of the barge ship hull constituting a pressurized water reactor facility for waste disposal. And a horizontal double structure block tank holding tank 590 is provided with a diving control device to convert the vertical double block tank holding tank 590 into a vertical holding block tank 590,

(593,594,595) of a small-sized and large-scale oceanic hydroelectric power station of the ocean to prepare for the submergence proceeding to the lower part of the sea level (SLD) (672) Distribution distributing device A large scale marine nuclear hydroelectric power plant with a butterfly valve 622, a high pressure multistage multi-stage disaster prevention pump 8, and a blower 641 of a doctor ventilation 585 to prevent sinking, (593,594,595) Nuclear power plants (672) Includes pressurized water reactor installations,

(593, 594, 595) nuclear power plants (672) of marine small, medium and large sized marine nuclear hydroelectric power plants are installed in the distributing and inputting apparatuses of the sink prevention resident lines (634) To protect the reactor facilities,

A reactor building (688) consisting of an internal nuclear hydroelectric power plant with a pressurized water reactor facility for nuclear waste disposal. A nuclear-hydroelectric power plant with a pressurized water reactor facility for nuclear waste disposal, The double structure block tank dust collector of the nuclear hydroelectric power generation unit 811 constituting the inside is prepared to prepare for the diving progress including the connection side of the nuclear waste treatment pipe manufacturing process of the reactor facility. And a control unit 811g,

96 to 97, the dive-ready-for-operation-ready-control-distribution-dispensing device constituting the connecting side of the screw adjusting portion 811g includes:

Preparation of the diving operation Double structure block constituting the operation regulating dispensing device Tank (590) Connection point between the upper and lower part of the tank (590) Dual structure block tank formed in each barge Line Hank decomposition coupling portable lug (607) A connection shaft 606 of the water reactor installation,

A lug pin 603a of a lug connection side engagement bolt and a lug engagement pin 603b of a lug connection shaft separation and disassembling nut 604 constituting a diving progress preparation movable regulatory distribution dispensing device and a lug pin (608) can be disassembled and coupled to a hydraulic rotary cylinder machine (619) for position control of the distribution system of the traffic apparatus equipment and a hydraulic cylinder machine (624) for a block unit double structure block tank hull disassembly coupling control apparatus A pressurized water reactor facility for nuclear waste disposal is provided,

A number of lug processing holes 615 provided in a double structure block tank hull disassembly and coupling portable lug 607 constituting disassembly and coupling with the hydraulic cylinder machine 624 and a block unit double structure block tank hull disassembly coupling position movement controller The horizontal double structure block tank 598, which constitutes the long hole 616,

Double structure tank tank 598 Double-structure tank tank with double-structure block tank hull disassembly for towing and transport of tugboat 636 provided on semi-submerged operation line 637 constituting disassembly bridge Bridge saddle for construction of piers (621) for a block unit double structure block tank hull decomposition / coupling device, which is constituted inside a marine nuclear hydroelectric power plant equipped with a pressurized water reactor facility for nuclear waste treatment in the same form as the reactor unit (617)

The hull diving position adjustment moving device of the sinking ship holding line 634 constituting the band guide 621 and the hull weight 107 for controlling the diving buoyancy are connected to the double structure block tank holding tank lower barge hull 592, (634), which are capable of submergible connection, to provide the assembly of the sea surface of the nuclear hydroelectric power plant,

Nuclear Hydroelectric Power Plant (811) with a connection structure of a reactor building (688) consisting of a marine nuclear hydroelectric power plant equipped with a pressurized water reactor facility for nuclear waste disposal constituting a pressurized water reactor facility for nuclear waste of nuclear hydroelectric power plant, The double structure block tank dust collector is included in the pressurized water reactor installation for nuclear waste disposal, the screw control section (811g) for the preparation of the diving operation ready controllable dispensing apparatus constituting the connection side of the nuclear waste processing line manufacturing process of the reactor plant,

96 to 97, the nuclear hydraulic power plant 811 constituting the internal part of the marine nuclear hydroelectric power plant having the nuclear water reactor for pressurized water reactor for constituting the screw control part 811g and the connection side, The power transmission portion 811d, which is provided with the transforming devices for transmitting the power of the power transmission portion 811d,

The double structure block tank holding tank lower barge hull 592 constituting the connecting side of the power transmission portion 811d is provided with a dive preparation ready protection at the lower end S L D of the sea surface,

(689) into the nuclear reactor building (688) comprising the interior of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste disposal, which constitutes protection preparation for diving,

An output power source 686 and an input power source 687 of the voltage 684 and the power 685 constituting the diving process readiness protection and the production power is provided as the position movement control devices for providing the production power supply,

The transformer for controlling the movement of the production power supply constituting the diving preparation preparation protection,

Voltage substation 690 constituting the substation control unit constitutes the primary substation 691 and consists of seven steel wires 692 and a transmission line diameter 695 in the center of the transmission line and aluminum strands 693 of 54 strands And a connection side of the power transmission portion 811d constituting the power transmission portion 811d,

The double structure block tank holding tank lower barge hull 592 constituting the connection side of the power transmission portion 811d has a submarine line wiring connection structure and is connected to a marine tunnel crossing railway substation 696 and a middle substation A large plant 698 that provides a production power supply at the primary substation 691 from the high voltage substation 690 with the production power supply shift regulator transformer 96 of the voltage 684 of the substation 697 and the power 685, (699 units), which are equipped with submarine line wiring structure, to supply the production power of pressurized water reactor for nuclear waste disposal,

96 to 97, in the secondary substation 700 that receives the production power from the primary substation 691 constituting the connection side of the power transmission section 811d,

A substructure line 701 constituting a connection side of the power transmission section 811d and a submarine line wiring connection structure constituting a production power supply distribution discharge to a household 702 included in a solar house,

A submarine line wiring line which is located in the submarine line wiring connection structure constituting the connection side of the power transmission portion 811d and a submarine line wiring line composed of the electric pole 95 and the transformer 96,

A step foot hook 703 constituting a connecting side of the power transmitting portion 811d of the pressurized water reactor for nuclear waste treatment and a cathode high voltage wire balancing insulator 704 for balancing the electric power, And the position of the production power supply control device of the pressurized water reactor for nuclear waste disposal is provided,

In the land that constitutes the connection side of the power transmission portion 811d, there is provided a connecting structure for providing the production power supply distribution discharge provided by the wired lines through the underground GLD bottom line of the road surface, Which is equipped with a pressurized water reactor facility for nuclear waste disposal, and a distribution input device for distributing and discharging the production electric power supply, which is composed of the inside of a marine nuclear hydroelectric power plant, And the power transmission unit 811d that constitutes the connection side of the nuclear waste treatment pipe manufacturing process of the nuclear reactor waste plant is provided with the power transmission unit 811d, Constituting a production power supply to an assumption 702 comprising;

 The power transmission unit 811d is connected to the power transmission unit 811d. The power transmission unit 811d includes a pressure water reactor for nuclear waste processing. (811d) as a transformer connection structure having a submarine line wiring connection structure to provide a position in a pressurized water reactor installation of a nuclear hydroelectric power plant,

96 to 97, in the pressurized water reactor facility for nuclear waste treatment of a nuclear power hydroelectric power plant constituting the power transmitting portion 811d,

(634) which provides a sinking ship for lifting the sinking ship constructed in a pressurized water reactor installation of a nuclear hydroelectric power plant, and pressurizes the connection structure constituting the inside of a marine nuclear hydroelectric power plant having a pressurized water reactor installation for nuclear waste disposal, A water reactor facility is provided,

A nuclear water hydraulic reactor pressurized water reactor comprising an internal nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste treatment with a nuclear radiation leak control dual structural block tank dust collector 794 comprising a dual structure block tank 598, In addition,

Safe operation of mooring devices, diving buoyancy control devices and nuclear waste disposal dispensers and reactor facilities at nuclear power plants (593, 594, 595), nuclear power plants (672) of marine small, medium and large sized marine nuclear hydroelectric power plants In the post-war Nuclear Hydroelectric Power Plant (811), there are connection structures that can be disassembled and coupled at the marine shipbuilding factory on the connection side of the nuclear waste treatment pipe manufacturing process of the reactor facility. And a screw adjusting portion 811g constituted by dispensing devices.

A double structure block tank dust collector of the nuclear hydroelectric power plant 811 constituting the inside of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for processing nuclear waste of land and ocean constituting the screw control part 811g, The manufacturing process distribution side,

(593,594,595) nuclear power plant (672) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting the screw control part (811g) of the distribution side and a pressurized water reactor facility Dual structure of Nuclear Hydroelectric Power Plant (811) inside Marine Nuclear Hydroelectric Power Plant Construction of Nuclear Waste Treatment Tube in Dust Collector of Diversion Submerged Buoyancy Provision to Constitute the Connection Side Position Nuclear Power Plant for Operation Control Control Including water reactor installations,

The pressurized water reactor facility of the nuclear power plant constituting the nuclear power plant facility is,

(593,594,595) nuclear power plants (672) of small, medium and large sized marine nuclear hydroelectric power plants constituting the distribution input device of the nuclear power plant facilities of the ocean screw control section (811g) and the pressurized water reactor installation for nuclear waste disposal A nuclear waste disposal double structure block tank marine tunnel transportation device 941 for establishing a connection between the land and the book constructed inside the marine nuclear hydroelectric power plant,

96 to 97, includes a pipe bridge 929 connecting shaft constituting a diverting buoyancy advance preparatory operation control with capacity dispersion control constituting inside the pressurized water reactor facility for nuclear waste disposal,

The two sides of the pipe bridge 937 connected to the double structure strut block tank pipe bridge 928 are disposed at the upper end of the base of the pipe bridge 937 so as to be inserted into the connecting side of the nuclear waste treatment double structure block tank bridge 929, (593,594,595) of a small, medium and large sized marine nuclear hydroelectric power station with an internal position at the top of the pedestal bridge (937) of a tank-holding tank pipe pier (928). An empty space is formed between the inner block tank 596 positioned at the center of the double structure block tank 598 of the dual structure block tank 598 and the position of the pressurized water reactor facility for processing the nuclear waste outside the inner block tank 596 body Respectively,

(593,594,595) nuclear power plants (672) installations of marine small, medium and large sized marine nuclear hydroelectric plants making up the dual structure block tank bridge bridge (929)

The construction equipment located inside the distribution input device hull of the sink prevention resisting line 634 constituting the double structure block tank bridge bridge 929 is provided and the floor base 851 for the mooring device bridge pier is provided on the seabed And then,

(593,594,595) Nuclear power plants (593,594,595) of marine small, medium and large sized marine nuclear hydroelectric power plants consisting of marine nuclear hydropower plants equipped with pressurized water reactor facilities for nuclear waste treatment constituting a dual structure block tank bridge bridge (929) (634) with submarine line injection nozzles and subsea line connection structure of submarine line injection nozzle connection with power distributing equipment equipped with power plant (672) facility and connection structure and nuclear power plant 672) The screw control section of the nuclear hydroelectric power plant unit (811) constituting the inner part of the marine nuclear hydroelectric power plant having the pressurized water reactor facility for nuclear waste disposal with the construction equipment of the distribution input unit located inside the hull of the facility 811g) Dual structure Block tank Dust collector of the nuclear waste treatment pipe Process of diving buoyancy preparation to control connection control side Be equipped with force distribution device input of the power station facility and configured to achieve a nuclear waste disposal pressurized water reactor nuclear power plant a marine hydroelectric power station with pressurized water reactor nuclear power plant, which consists of the inside a hydroelectric power station with a for,

A screw control unit 811g of the nuclear hydroelectric power plant 811 constituting the inside of the marine nuclear hydroelectric power plant having the nuclear water hydroelectric power plant and the pressurized water reactor unit for nuclear waste processing constituting the pressurized water reactor unit, A pressurized water reactor facility is provided to the distribution input device of the block tank-coupled portable lug 607 constituting the connection side of the nuclear waste disposal pipe manufacturing process of the facility,

A nuclear hydroelectric power plant 811 comprising a marine nuclear hydroelectric power plant and pipe bridges 937 constituting a pressurized water reactor facility and provided inside the marine nuclear hydroelectric power plant having a pressurized water reactor for nuclear waste treatment, (593,594,595) of a small, medium and large sized marine nuclear hydroelectric plant in a floating ocean not formed in the upper part of a double-structure block tank pipe bridge (937), including a pressurized water reactor installation in a nuclear power plant,

The marine nuclear hydroelectric power plant is provided with a strut tank upper barge hull (591) and a strut tank lower barge hull (592) constituting a pressurized water reactor installation,

96 to 97, a strut tank upper barge hull 591 constituting a pressurized water reactor system of a nuclear power generation unit of a marine nuclear hydroelectric power plant, and a strut tank lower barge hull 592 constituting a nuclear reactor facility ,

A holding block tank 590 constituting a pressurized water reactor apparatus of a marine nuclear hydroelectric power plant, a separately formed dual structure block tank combined portable lug 607 and a plurality of double structure block tank hull disassembly portable lugs 607 A plurality of hull disassembly-type portable lug pin connecting shafts 606 engaged with the block tank hull disassembly-type portable lug connecting shaft bolt 603 and a lug connecting shaft bolt threaded portion 603a and a lug pin 608 Including the pressurized water nuclear power plant equipment,

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants consisting of an offshore nuclear hydroelectric power plant with a pressurized water reactor facility for nuclear waste disposal constituting a marine nuclear hydroelectric power plant and a pressurized water reactor facility, ,

A nuclear power plant facility is provided in which the landing block tank 590 constituted by the sea depth is constituted by the water depth unit of the sea surface (S L L)

The volume of the double structure block tanks that make up the marine nuclear hydroelectric power plant and the reactor facility,

(0.5 ㎞ x 0.5 ㎞ x 0.5 ㎞) ㎥ of nuclear power plants,

(593), which consists of a marine nuclear hydroelectric power plant and a pressurized water reactor facility, is equipped with a medium and large floating support system (594,595)

A plurality of block tanks provided at respective portions of the dual structure block tank-combined portable lug 607 constituting the marine nuclear hydroelectric power plant and the pressurized water reactor facility are connected to the joining portion processing hole 615 (603) and block tank hull disassembly Portable lug connection shaft Disassembly coupling nut (603) of the portable lug connection shaft bolt (603) Disassembly coupling nut (941) facility of a nuclear power plant constituting a connection structure to a screw thread (603b) of a nuclear waste treatment double structure block tank,

96 to 97, the double structure holding block tank pipe bridge 928 constituting the marine nuclear hydroelectric power plant and the pressurized water reactor facility is constructed as follows.

The construction equipment located on the hull deck deck which is the distributing and inputting device sinking prevention residence line 634 constituting the double structure strut block tank pipe bridge pier 928 and the wreck crank 846 (634) comprising a hydraulic cylinder machine (624) and a connecting structure for providing a fastening to the quickie bed (616)

(593,594,595) of a small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plant with an anti-sinking resident line (634) Submarine line injecting nozzle inside of equipped marine nuclear hydroelectric power station Submarine line of nozzle connecting port Adjustment of wiring position of submerged line and connection structure to prevent sinking Small, medium and large marine nuclear hydroelectric power plants (593,594,595) Prepared nuclear power plant facilities,

A construction equipment connection structure that provides a position on the hull deck deck of the nuclear power plant facility. A nuclear reactor hydroelectric power plant equipped with a pressurized water reactor facility for the treatment of nuclear waste is installed on the seabed. Mooring device Anchor replacement crank 846 to fix the immersion restraining line 634 to the hydraulic cylinder machine 624 and the key bed 616 as a connecting structure,

As shown in FIGS. 96 to 97, the distribution input device of the floating control (593, 594, 595) nuclear power plants of the small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants,

The double structure block tank bridge 937, which constitutes the distribution input device of the marine nuclear hydroelectric power plant,

(937), consisting of a double structure block tank bridge (937) consisting of a 40 meter upper end of the sea level (SLL), and a bridge for safe collision prevention and safety And a pier shall be provided to repair the marine nuclear hydroelectric power plant, which is composed of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste disposal,

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants consisting of a fixed offshore inner nuclear hydroelectric power plant with a pressurized water reactor facility for nuclear waste disposal, (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants, and a floating marine nuclear power plant (1) having a pressurized water reactor facility for individual nuclear waste disposal (593,594,595) nuclear hydroelectric plants of small and medium-sized and large-scale marine nuclear hydroelectric power plants,

(598) of the double structure block tank (598) constituting the nuclear hydroelectric power plant facility, the nuclear waste disposal system of the pressurized water reactor connection structure of the nuclear hydroelectric power plant is provided,

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants with a large number of hydroelectric hydroelectric power plants, equipped with floating barges and fixed barges, (598) Double structure block tank bridge pier (928) comprising nuclear water hydro power plant equipment, with supporting structure of nuclear hydroelectric plant facility with empty space at the connection side,

(928) of the nuclear hydroelectric power plant, and double structure block tank (0.5 km × 0.5 km × 0.5 km) of the sea level surface (SLL) constituting the equipment ㎥ pipe bridge (928) As a connection structure, were fixed on the seabed at intervals of 500M,

96 to 97, in a pressurized water reactor connection structure of a nuclear power plant constituting a distribution input connection structure of the nuclear power hydroelectric plant,

A nuclear power station facility is provided as a fixed installation connection structure by a crane 846 for a mooring anchor replacing a mooring anchor located at the bottom base 851 for a pier level base for the construction equipment constituting a nuclear hydroelectric power plant facility,

Nuclear Hydroelectric Power Plant Facilities Nuclear waste water treatment plant for nuclear waste disposal Nuclear hydroelectric power plant with internal water nuclear power plant Nuclear waste water treatment plant Nuclear waste disposal system Including nuclear reactor hydroelectric power plants with reactor facilities, and pressurized water reactor facilities of nuclear hydroelectric power plants,

The connection structure of the equipment constituting the inside of the marine nuclear hydroelectric power plant having the pressurized water reactor facility for the nuclear waste disposal constituting the nuclear hydroelectric power plant facility, the flood control panel of the small, medium and large sized marine nuclear power hydroelectric power plant 593, 594, 595) The distribution dispensing apparatus constituting the dispensing side,

(593,594,595) of the marine small-sized and large-sized marine nuclear hydroelectric power station constituting the above nuclear hydroelectric plant, the upper block barge of the distribution block unit (590) constituting the distribution side, The shelter shelter is located at the top of the deck deck.

At the top of the barge deck deck at the sea level top (S L U)

Including a pressurized water reactor facility of a nuclear hydroelectric power plant comprising a marine nuclear hydropower plant equipped with a pressurized water reactor facility for the treatment of nuclear waste while providing a shelter to protect sailing vessels from natural disasters,

Several nuclear hydroelectric power plants and alternative wind power plants, which constitute a pressurized water reactor facility,

It is composed of individual wind turbines and has an underwater mineral resource collection site. It is equipped with a seabed mineral resource collection site located inside the lower deck deck (SDL), a small, medium and large sized marine nuclear power plant (593,594,595) of the deck deck, which is the top of the deck,

At the normal position of the block tower (116) constituting the marine nuclear hydroelectric power plant,

Blocked steel tower (116) Flotation of the weather observation station at the normal position Upper barge Deck of the aircraft located at the top of the deck Emergency landing site Marine Nuclear Hydroelectric Power Plant with pressurized water reactor facility for nuclear waste disposal, It consists of the submarine line injection nozzle of submarine line injection nozzle connecting port and submarine line wiring connection distributing structure.

At the meteorological observatory on the deck deck of the floodplain (593, 594, 595) of a small, medium and large sized marine nuclear hydroelectric power plant with a distributing structure,

The nuclear power plant (811) consists of an internal nuclear hydroelectric power plant equipped with pressurized water reactor facilities for nuclear waste disposal on the distribution side, which are equipped with protection facilities for power generation facilities, And an electronic control regulating device construction machine controller 811f constituting the electronic control regulator construction machine controller 811f,

The operation of the distributor-side construction machine carrier constituting the inside of the pressurized water reactor facility main body 1 for processing nuclear waste constituting the electronic control regulating apparatus construction machine control section 811f is controlled by the control of the nuclear power plant Nuclear power plant for nuclear waste disposal Nuclear power plant (811) Electronically regulated control equipment (811f) Consisting of connecting structure Nuclear hydropower plant's pressurized water reactor The distribution system of the reactor installation ,

96 to 97, the electronic control regulating device construction machine control unit 811f, which is constituted by the distribution input device of the pressurized water reactor installation,

Submarine line injected into a marine nuclear hydroelectric plant with a pressurized water reactor facility for the treatment of nuclear waste Submarine line of nozzle connection port Nuclear waste treatment with a connection structure with a submarine line connection structure to the injection nozzle Dual structure block Tank marine tunnel transport equipment (941) Nuclear waste treatment dual structure block tank pipe bridge (929) consisting of the equipment includes a connection side pressurized water reactor installation,

Double Structure Block Tank Tube Bridge 929 The double structure block tank 598 with the connection side of the double structure block tank bridge 937 constituting the connection side includes,

Nuclear waste treatment Double structural block tank Marine tunnel transport device (941) Internal block tank (596) Built-in block tank (596) Built-in guide rail (618) And an internal block tank 596 that constitutes the operation to the internal train 771 for the marine tunnel apparatus of 100 KM to 200 KM per hour,

Nuclear waste treatment Double structural block tank Marine tunnel transport device (941) Inner block comprising tank (596) Inner and outer block tank (599) Empty space inside tank Each of these internal block tanks The outer block tank 599 located at the outer connection structure of the inner block tank 596 and the guide rail supporter 852 located at the lower end portion connection structure of the guide rail 618 located at the lower end of the inner block tank 596 And a position of an empty space located at an inner lower end of the reactor,

Preferably, the nuclear hydroelectric power plant 811 constituting the inside of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste disposal having a double structure block tank dust collector for land and ocean constructed in the marine vessel manufacturing plant, Dual structure Block tank Dust collector Nuclear waste treatment line Manufacturing process Distribution side,

96 to 97, the distribution and charging apparatus constituting the nuclear waste nuclear waste processing unit 811a includes:

(593,594,595) Nuclear Power Plant (672) of Marine Nuclear Hydroelectric Power Plant making up the distribution input device and submarine line injection of submarine line injection nozzle connection consisting of inside of marine nuclear hydroelectric power plant with pressurized water reactor facility for nuclear waste disposal With the nozzle and subsea line wiring connection structure, it is possible to establish a position as a nuclear power connection structure,

96 to 97, on the double structure block tank-engaging portable lug 607 body constituting the connection side of the strut tank upper barge line hull 591,

Hydraulic cylinder machine (619) constituting disassembly coupling control of nuclear hydroelectric power plant and connection structure of jetty bed (616) constituting balance of barge ship hull with mooring device and flood control included in pressurized water reactor facility for nuclear waste disposal and,

As shown in Figures 96 to 97, a floating nuclear plant (593, 594, 595) of a small-sized, medium-sized and large-scale marine nuclear hydroelectric power plant constituting a connection structure of a key bed (616) of a pressurized water reactor installation for nuclear waste disposal A submarine line of the submarine line injection nozzle connecting the inside of the main body (1) of the marine nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste disposal with prevention of sinking of the reactor installation, and a submarine line injection nozzle and submarine line connection structure Construction machine equipment constituting the connection shaft and the distribution side of the dual structure block tank pipe bridge 937,

(593,594,595) Nuclear power plant (672) for small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants consisting of construction machinery equipment, and a pressurized water double- Nuclear waste disposal screening system Nuclear waste disposal screening system with double-structure block tank dust collector to prevent leakage of nuclear radiation from pressurized water reactor facility to construct nuclear power plant of nuclear hydroelectric power plant (811) Nuclear power generation nuclear waste treatment unit (811a) and sinking prevention stay line (634) facilities of pressurized water reactor facilities,

In the plurality of construction machines 880 constituting the sink prevention rescue ship 634 facility,

A diesel hammer 883 and a steam hammer 884 and a hydraulic crane 885 and a tower crane 886 and a crawler crane 887 and a truck crane 888 and a machine trolley 889, A dispensing apparatus of a construction machine comprising a roller 890, a tamping roller 891, a tire roller 892, a tractor 893 and a trailer 894 to constitute a nuclear reactor pressurized water reactor installation,

The distributing and inputting device of the construction machine constituting each of the nuclear power plant pressurized water reactor facilities described above,

The fuel cell system includes a ram 895 and a lead 896, a coolant cooler 897, a helmet 899, a fuel pump 900, a cam 901, and a fuel tank 902 to constitute a nuclear reactor pressurized water reactor A construction machine dispensing apparatus,

A boom front fins 904 and a catwalk 905 and an adapter 906 of a starter 903 having a foundation of a plurality of double structure block tank bridge piers 928 as a connection structure on the sea floor, A level balance check of the block tank pipe bridge 929 is prepared,

A double structure block consisting of a connection structure in which ten pairs of double structure block tanks are formed at a section position constituting the double structure block tank bridge bridge 928 connection of each of the small buildings constituting the level balance check of the pipe bridge 929 Including a tank,

At the sea surface top exposed site dual structure block tank pipe bridge 928,

(811c) of a construction machine for establishing a connection with a nuclear waste treatment unit (811a) of a nuclear hydroelectric power plant (811) constituting an inside of a marine nuclear hydroelectric power plant having a pressurized water reactor for nuclear waste treatment. Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant Nuclear power plant ,

A transportation unit 811c of a construction machine that establishes connection with a nuclear waste disposal unit 811a constituting a nuclear hydroelectric power plant 811 constituting an inside of a marine nuclear hydroelectric power plant having a pressurized water reactor for treating nuclear waste, And a distribution input device of a pressurized water reactor equipment construction machine constituted by a process,

As shown in Figures 96 to 97, in the distribution dispensing apparatus of the construction machine constituting the nuclear power plant facility and the pressurized water reactor facility,

The block block tank 590 is provided with a nuclear waste disposal double structure block tank bridge 929 of tens of thousands of tons in weight connected to the double structure block tank pipe bridge 928 constituting the pressurized water reactor plant of the nuclear power plant, (SLL) at a depth of 500m3 as a double structure block tank with a volume connection structure to provide the movement of the nuclear power plant,

As shown in FIGS. 96 to 97, a construction for establishing a connection with a nuclear waste water treatment unit 811a constituting a nuclear water hydroelectric power plant including the nuclear water hydraulic power plant having a pressurized water reactor for treating nuclear waste, The distribution input device of the pressurized water reactor equipment construction machine constituted by the nuclear waste disposal dispatching and inputting device as the transportation section 811c of the machine,

A nuclear water disposal unit 811 constituting the pressurized water reactor of the nuclear power plant, and a transportation transport unit 811c of a construction machine providing a connection with the nuclear waste disposal unit 811a, Equipment construction machinery,

And a structure for connecting the connection part of the double structure block tank at a predetermined distance between the injection nozzle and the bottom of the marine nuclear hydroelectric power plant having the pressurized water reactor for nuclear waste disposal, (593,594,595) of small-sized, medium-sized and large-scale marine nuclear hydroelectric power plants (593,594,595) for the prevention of sinking, and nuclear wastes A connection is established with a nuclear waste disposal unit 811a of a nuclear power generation facility 811 constituting an inside of a marine nuclear hydroelectric power plant having a pressurized water reactor for processing,

Nuclear Power Plant's Pressurized Water Reactor Facility Dual Structure Block to Provide Connection Structure of Injection Nozzle and Submarine Line Wiring (946) at the Injection Nozzle Connection Port of the Distribution Machine of Construction Machinery Bridge Tank Bridge (937) (593,594,595) of a small, medium and large sized marine nuclear hydroelectric power station (593,594,595) Mooring equipment of a nuclear power plant The floating marine plant of a marine power station, ) Nuclear power plants Including pressurized water reactor facilities,

As shown in FIGS. 96 to 97, the double structure block tank dust collector nuclear waste of the nuclear hydroelectric power plant 811 constituted inside the marine nuclear hydroelectric power plant having the pressurized water reactor facility for the nuclear waste disposal of the land and ocean The process tube manufacturing process distribution side,

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale marine nuclear hydroelectric power plants constituting the distribution side of the nuclear waste treatment pipe manufacturing process, and marine nuclear power plants (811b) of the Nuclear Hydroelectric Power Plant (811) consisting of the inside of the Nuclear Hydroelectric Power Plant is equipped with a number of generators for nuclear waste disposal and power generation of the nuclear reactor facility, The pressurized water reactor facility for processing nuclear waste of the power production and production section 811b constituting the nuclear power plant,

(593,594,595) nuclear power plants (672) of small-scale, medium-sized and large-scale offshore nuclear hydroelectric power plants of the above-mentioned land and sea constituting a large hydroelectric generator distribution apparatus and nuclear water nuclear power plants The double structure block tank dust collector of the power transmission unit 811d including the power generation and production unit 811b of the nuclear hydroelectric power generation unit 811 constituting the inside of the power plant and the transformers for transmitting the power is disposed in the nuclear waste treatment And a pressurized water reactor connection axis constituted by several generators for power generation,

96 to 97, the distribution input apparatus of the power generation and production section 811b constituting the operation of the nuclear power plant of the nuclear reactor facility,

(593,594,595) of small-sized, medium-sized and large-scale offshore nuclear hydroelectric power plants constituting a distribution input device of pressurized water reactor facility for nuclear waste disposal (593,594,595) Nuclear power plant with nuclear water power plant and pressurized water reactor facility for nuclear waste treatment It is a connection structure composed of inside of a power plant and consists of a line distribution input device for power supply for generating device.

As shown in FIGS. 98 to 100, the power for transmitting disaster prevention preventive control power included in the nuclear hydroelectric power plant 811 constituting the inside of a marine nuclear hydroelectric power plant equipped with a pressurized water reactor for nuclear waste treatment The fourth generation is a computer using a vacuum tube constituted by the transfer portion 811d as a first generation, a transistor using a second generation, a third generation using an IC, and an LSI or a VLSI. IC, which is the heart of the computer that constitutes the fifth generation of computers that will be equipped with artificial intelligence to compose computation and processing by themselves, is a semiconductor, a new material, a rotary cylinder (rack and pinion type -NRP, And a nuclear water hydraulic power plant having a pressurized water reactor facility for nuclear waste disposal. The nuclear water hydraulic power plant 811 includes several semiconductor, And rotary cylinders (rack and pinion type -NR P, 620).

As shown in FIGS. 98 to 100, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear power plant 811 constituting the inside of a marine nuclear hydroelectric power plant having a pressurized water reactor for nuclear waste treatment 811d), as shown in the following figure, the computer that uses the vacuum tube that constitutes the internal pressure of the pressurized water reactor of the nuclear power plant is the first generation, the second generation that uses the transistor, the third generation that uses the IC, the LSI or the VLSI It is called the fourth generation, and now it is the fourth generation. And the computer that will be equipped with artificial intelligence to judge, calculate and process is called the fifth generation.

As shown in FIGS. 98 to 100, the performance of a silicon integrated circuit built inside a marine nuclear hydroelectric power plant equipped with a pressurized water reactor for nuclear waste disposal is getting better each year at an amazing rate, There is a limit to doing.

Especially, the main thing is the speed at which electrons move, which depends on the material. In order to operate the transistor faster, a new semiconductor is needed that can move electrons at high speed.

Third, for new compound semiconductors,

Gallium and arsenic are being studied as representative compound semiconductors for high-speed transistor operation. Using gallium and arsenic can treat heat three to six times faster than silicon. This material has a high speed of electron transfer and various properties that are not found in silicon, but it is not clear yet.

After 10 years of gallium and arsenic, development will reach its limit, what will happen next?

In that era, materials will be made according to purpose, rather than using naturally occurring materials. An example of such a superlattice is superlattice, in which several layers of thin semiconductor material are stacked. These materials can transport electrons several times faster than ever before.

Of course, these materials simply can not be melted and hardened. The development of a technique for depositing semiconductors very slowly in a vacuum, such as space, has allowed us to create superlattices.

Fourth, computers can be manufactured without semiconductors,

As shown in FIGS. 98 to 100, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear power plant 811 constituting the inside of a marine nuclear hydroelectric power plant having a pressurized water reactor for nuclear waste treatment 811d). The IC, which is the heart of a computer that moves inside a nuclear hydroelectric power plant with a pressurized water reactor for nuclear waste disposal with a dust collector, can be made without a semiconductor. It is possible not only to have silicon but also to have an on / off function when an external signal is input.

In a Josephson device using a superconductor,

Josephson devices using niobium, lead, and the like are based on a superconducting phenomenon with a resistance of zero, and can work much faster and with less power than current integrated circuits.

In molecules and electronics,

It is trying to make a computer resembling a human brain by using the fact that the state of a molecule changes or the state of an organism cell changes by slight movement in a molecule.

Fifth, in Optronics and Electronics,

Optoelectronics refers to electronics using devices related to light, specifically optical communications and laser discs.

Current telephone lines use a thin copper wire to transmit signals. In optical communication, a laser beam is passed through an optical fiber made of quartz glass to transmit a signal.

The center of optoelectronics is a light emitting device such as a semiconductor laser or a light emitting diode. However, since silicon can not make light emitting devices, compound semiconductors are used instead of silicon.

The material depends on the color of light emission (wavelength). Gallium arsenide and indium phosphorus are used for infrared rays, gallium aluminum and arsenic are used for red, and gallium phosphorus is used for green for visible areas.

Finally, regarding the development of new materials,

How will new materials be developed in the future? Obviously, the era of simply synthesizing materials is coming to an end. Once upon a time, alchemy was the reason for this, because there was no knowledge of electrons, atoms, etc. about the material.

However, now, knowledge of the molecular structure and properties of the material has increased. From now on we will be able to develop new materials by controlling the fine structure of the material, specifically the structure of the atomic size.

In order to do this, the semiconductor, metal, and organic materials must not be admitted to specific materials, and they must be restructured at the atomic level. A surprising number of new materials will be born again as we experiment with atomic composition methods that will add tens of thousands or even tens of thousands of atoms.

As shown in FIGS. 98 to 100, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear power plant 811 constituted inside the main body 1 of the pressurized water double- In the rotary cylinder (rack and pinion type -NRP, 620) constituted by the cylinders 811a, 811d,

It is an excavator used on land, but with an excavator (845) equipped with a skew drill.

The hydraulic cylinder 623 and the excavator 845 are coupled and disassembled by a crane 861.

After disassembling the hydraulic cylinder 623 and the excavator 845 after the excavation work, the construction machine is used to build a foundation pier of a submarine by using a bolt hammer for unlocking a bolt nut for pier foundation post work, (591) deck deck.

As shown in Figs. 98 to 100, the disposal prevention of the nuclear hydroelectric power plant (811) constituted inside the main body (1) of the pressurized water type double structure reactor facility for treatment of the nuclear marine resource having the dual structure block tank dust collector A guide vane 142 of a blower used together with the fan 195, which is composed of a power transmitting portion 811d for transmitting a regulating power, is formed in the marine power plant as follows.

And a power transmitting portion 811d for transmitting disaster prevention preventive control power to the nuclear hydroelectric power plant 811 constituting the inside of the pressurized water double structure reactor facility main body 1 for marine resource exclusive waste treatment. It is in the form of several blowers 941.

And a power transmission unit 811d for transmitting disaster prevention preventive control unit power to the nuclear hydroelectric power plant unit 811 constituting the inside of the pressurized water type double structure reactor facility main body 1 for marine resource exclusive waste treatment. The impeller 143 of the body of the blower 941 and the rotary shaft 198 of the body of the blower 941 are constituted by the power transmitting portion 811d which is provided in the form of a number of blowers 941, And the bearing 200 is assembled.

As shown in FIGS. 98 to 100, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear hydroelectric power plant unit 811 constituted inside the main body 1 of the pressurized water double- (811d) as shown in the following figure, which is a test list according to the model of the cooling fan 641.

As shown in FIGS. 98 to 100, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear hydroelectric power plant unit 811 constituted inside the main body 1 of the pressurized water double- (Pressure switch) operation mode of the cooling machine automatic system and the manual control system as shown in the above figure, which is composed of the power transmission unit 811d that transmits the disaster prevention preventive control unit power composed of the power control unit 811d.

As shown in FIGS. 98 to 100, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear hydroelectric power plant unit 811 constituted inside the main body 1 of the pressurized water double- And a power transmission unit 811d for transmitting a disaster prevention preventive control power to the nuclear hydropower generation facility unit 811 constituted by the power transmission unit 811d as shown in the above figure.

As shown in the following figure, which is composed of a power transmission unit 811d for transmitting disaster prevention prevention control power of the nuclear hydroelectric power plant 811 constituted inside the pressurized water double structure reactor facility 1 of the marine resource exclusive waste treatment, And a vacuum pump (Vac pump) 635 is connected to the lower condenser manifold valve of the condenser to inject the Freon gas again.

The figure below shows the external shape of the compact air conditioner (DPK-5KV) and the internal front section.

98 to 100, the power transmission unit 811d for transmitting the disaster prevention preventive control power of the nuclear power generation facility 811 to the inside of the main body 1 of the pressurized water type double structure reactor plant for exclusive use in the offshore source, Sectional view showing a medium-sized air conditioner mounted on the inside as shown in the following figure.

 As shown in the following figure, which is composed of a power transmission unit 811d for transmitting disaster prevention prevention control power of the nuclear hydroelectric power plant 811 constituted inside the pressurized water double structure reactor facility 1 of the marine resource exclusive waste treatment, A large number of air conditioners are mounted.

As shown in FIGS. 98 to 100, the nuclear power hydroelectric power plant 811 constituted inside the main body 1 of the marine nuclear hydroelectric power plant provided with the pressurized water reactor facility for nuclear waste disposal, The impeller 143 of the body of the blower 941 and the rotary shaft 198 are mounted on the rotary bearing 200 as shown in the following figure.

And a power transmission unit 811d for transmitting disaster prevention preventive control power from the nuclear hydroelectric power plant 811 to the inside of the main body 1 of a marine nuclear hydroelectric power plant having a pressurized water reactor for nuclear waste treatment, A test list according to the type of the cooling fan 641 as shown in FIG.

As shown in FIGS. 98 to 100, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear power plant 811 constituted inside the main body 1 of the pressurized water double- 811d) as shown in the above figure. It is a position explanatory view of the operation method of the press (switch) operating method of the cooling machine automatic method and the manual control method.

As shown in the above figure, which is composed of a power transmission unit 811d for transmitting disaster prevention preventive control power of the nuclear power generation facility unit 811 constituted inside the pressurized water double structure reactor facility main body 1 for the marine resource exclusive waste treatment, , And an auto switch operation method.

As shown in the following figure, which is composed of a power transmission unit 811d for transmitting the power to prevent disaster prevention of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility 1, And a pump (Vac pump) 635 is connected to the lower condenser manifold valve of the condenser to inject the Freon gas again.

The figure below shows the external and internal cross section of a small air conditioner (DP-5KV) capacity.

As shown in FIGS. 98 to 100, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear hydroelectric power plant unit 811 constituted inside the main body 1 of the pressurized water double- (848) of the electromechanical device as shown in the following figure.

And a power transmission unit 811d for transmitting disaster prevention preventive control power to the nuclear power plant 811 constituting the inside of the main body 1 of the marine nuclear hydroelectric power plant having the pressurized water reactor for nuclear waste treatment, As shown in the figure.

As shown in FIGS. 98 to 100, a power transmission unit (not shown) for transmitting disaster prevention preventive control power to the nuclear hydroelectric power plant unit 811 constituted inside the main body 1 of the pressurized water double- A plurality of anchors and anchor bolts 133 for replacing anchors are provided at the respective corner portions of the outside of the hull bottom constituted by the anchor bolts 133 and the anchor bolts 133 for fixing the anchor bolts 133 to the seabed. A hatch cover 153 having a hydraulic controllable safety control unit at a predetermined distance from the lower end of the hull bottom, a double-tubular tank frame lowering mechanism adjusting mechanism level adjusting bed 616, An excavator 845 for a central position holding tank at the upper end of the upper part of the hull deck, where a plurality of hull anchoring bollards 638 are provided at a predetermined distance from the hull deck upper part (SDU) After the parts during drilling when the drilling machine (908) of chuyong, piping for connection to protect the pipe rack 694 and the cover line, undersea oil drilling, and providing the harmful gases destroyed,

A pipeline constituting the prevention of harmful gas, a plurality of electronically controlled valves of the internal safety control device, a central position holding tank integrally provided with the natural gas and crude oil drilling equipment, and an external wall outside the holding tank, A net 910, and a cigarette package 184 constituting the inside and outside of the tank,

However, officially, according to the international convention, the range from the ground to the upper reaches of 29 Km is limited to that range. Therefore, as described above, In addition, the adoption of a method to strengthen the monitoring function to prevent the production of military equipment by installing the sensor sensor for military defense in the dogs'

In order to make the nuclear facilities of Pyongan Island and Hamkyung Province lethargic, we installed sensors for military defense sensors,

When a missile is fired, the missile is automatically attached to the airspace up to 29 Km when the missile is fired by the enemy missile. Respectively,

The defensive missile, which is constructed in order to make the global village of no-

In the area above 29km above the ground, a military defense sensor system consisting of a large number of flood control units and a honeycomb net disaster prevention system are constructed in marine and airspace to provide a permanent peace,

The non-disaster global village constituting a permanent peace is a safety connection structure constructed inside the marine nuclear power plant. It is put into construction machinery devices constituted of a pressurized water reactor facility for nuclear waste disposal of a nuclear power plant having a double structure block tank dust collector ,

Operation of Nuclear Hydroelectric Power Plants to Prevent Counteracting Human Damage Alternative Structure Block Tank to Control Nuclear Fuel Radiation Leakage of Nuclear Fuel Radiation Leakage in Nuclear Waste Treatment Shielding Device Treatment of Marine Waste with Dust Collector And a power transmission unit 811d for transmitting a disaster prevention preventive control power to the nuclear power plant 811 constituting the inside of the facility main body 1. [

As shown in Figs. 98 to 100, the small-sized and medium-sized nuclear power plant 811 connected to the inside of the main body 1 of the pressurized water type double structure reactor facility 1 constituted by the power transmission portion 811d, (593,594,595) of large-scale marine nuclear hydroelectric power plants are equipped with disaster prevention equipment,

Double structural block tank which constitutes facilities of disaster prevention equipment Disposal of exclusive waste of marine resources with dust collector Double water reactor type pressurized water reactor main body (1) Prevention of disaster prevention of nuclear power hydroelectric power plant part (811) After the fuel supply piping line including the flood control process with the power transmission unit 811d and the piping line made of the liquid to the disaster prevention material piping line made of gas are integrally joined together, the hose and pipe A lower end portion C of a spray nozzle body constituting a firefighter nozzle 10 which refers to a nozzle constituted by a body and an injection nozzle body B removably assembled to an upper portion C of the injection nozzle body at a lower portion of the lower portion of the body, A basket for lifesaving (width × length × height: 2500 mm × 2500 mm × 2000 mm, made of wire rope or rope) 42 is installed on the upper side of the basket (B) ) Inside,

The torch burner 173 facility, which receives the fuel supplied from the gas fuel supply piping line and constitutes an emergency,

A gas burner 173 for cooking, which is attached to the lower part of the burner 173 constituting the torch burner 173 (the vinyl tent formed as a double structure in the form of a circle with the size of 10M x 10M x 10M, The uninhabited igniter 187 is installed and the outer circumferential surface of the adverbon is wrapped with the wire rope 19 or the rope 131 like a net and bound to the lower portion of the adobe with the rope 131, A camera 184 mount is provided,

A radiosonde 134, which is a meteorological instrument observing the diurnal state of the farther farther from the higher position constituting the mount of the unmanned camera 184, is mounted, and the multi-stage pump control system A multi-stage multi-stage pump 8 composed of equipments such as a fire extinguisher piping line 89, a disaster prevention water passage 17, a double tube structure collecting tank 34, a fire extinguisher 40, Wow,

An electronic control device includes a plurality of valves and an air compressor (80), a generator (124), an engine (144), and a cylinder (138) configured in doctor ventilation for interrupting the flow of the internal flow of the communication equipment constituting the microcomputer system A fire tank 190 and a high pressure hose 190 are connected to a tug boat winch 137 and a fire hydrant 179 and a fire hydrant 179 are connected to a lifting structure 185 and a tube 188, The entire area where the pyrotechnic material, the smother gas 163, the fire, the flame, and the pillar are generated is referred to as a fire sensor pump body, and the main body 1 of the pressurized water type double- And a power transmission unit 811d for transmitting a disaster prevention preventive adjustment power to the nuclear hydroelectric power plant unit 811 constituting the inside of the nuclear power plant.

As shown in FIGS. 98 to 100, a small-sized, large-sized and large-scale marine nuclear hydroelectric power plant of the nuclear hydroelectric power plant 811 connected to the inside of the main body 1 of the pressurized water double- Equipment of disaster prevention equipment to control flooding by construction machinery of hull position movement control of flood control console (593, 594, 595)

The fire-fighting nozzle (10) used as a plurality of pipe nozzles inside the marine power plant constituting the flushing control process of the disaster prevention device is provided with a thickness of 3 mm,

The piping body, which constitutes the flood control process of the disaster prevention device,

In the case of one type, when installed vertically above the height of the main body,

The nozzle joint portions are classified into seven stages, and the names of the fire-fighting nozzles of the fire-fighting nozzle of the above-mentioned one type are "Title 100" 10a, "Title 90" 10b and "Title 75" 10c and "Title 65" 10d A plurality of fire fighting disaster prevention pipes (hereinafter referred to as " fire fighting fire disposal pipes ") 20 having firefighting nozzles 10 formed by dividing them into "name 50" 10e, "name 40" 10f and " And attached to the piping line (diameter: φ350 mm, vinyl coated flow tube 60) with the elbow and tee elbow 44 and the firefighter nozzle 10 attached to the line 168, 50 x 40 "(10 l) and" 40 x 25 "(nominal) are assigned to" 90 x 10 "and" Nominality 90 x 75 " When a firefighter nozzle is formed at a higher position in the same manner as in the above-described one embodiment,

The fire-fighting nozzle constituting the flushing control process of the fire-

A plurality of eight-sided gap 15 machining holes 20 at the normal position of the injection nozzle are formed by the reducer 35 having the above-described dimensions, and the gap of the eight-sided nozzle in the flange 28 joint portion is constituted by seven-

For safety, two shafts (23) and bolts (24) are provided at two tee elbow (44) flange machining holes (20) which are connected to a disaster prevention pipe connected to a joint portion at the lower end of the flange The rope 131 is pulled up from the opposite ends of the shackle 23 in the direction opposite to the binding position by fastening the rope to the upper end of the nozzle body 10 with the rope 131 while fixing the rope 131 so as not to be temporarily released by the nut 25, The worker does not go up to the height of the telephone main body while dismantling the rope 137 bound to the main body and the rope 137 is dismantled and the safety work is finished while a tongue winch 137 is provided and the tongue- , The injection nozzle 10 is provided,

In the equipment constituting the fire-fighting nozzle 10,

A firefighting nozzle 10 facility having a length of 1 km, 2 km and 3 km, in which a plurality of 15-m fire hose pipe nozzles 10 are connected,

Fire-fighting nozzles (10) are provided as disaster-controllable fire-fighting apparatuses,

Firefighting nozzle Nozzle (10) Waste treatment for marine resources constituting facilities Pressurized water type double structure reactor facility Main body (1) Nuclear hydroelectric power plant (811) connected to the inside of a small, medium and large sized marine nuclear power plant (593, 594, 595).

As shown in Figs. 98 to 100, in the facilities of the balloon 77 and the airship 78 constituting the flood control process,

The facility hose 109 and the high-pressure hose 190 constituting the advertisement balloon 77 and the airship 78 are equipped with a fire protection function such as forest fires and large-sized fires as well as forest protection, typhoons, Compressed air generated by the air compressor is used for disaster prevention. The air supply is provided while separating cold air and hot air, which are always compressed and mixed,

It is equipped with the wire rope and the frame which constitute the adventure balloon (77) and the airship (78) as an alternative method, and the disaster prevention material is controlled by the equipment inside the body of the pump extinguisher having the double structure according to the weather condition, (174) gas tank (171) as a te-elbow coupling gas inlet, while the active and passive disaster prevention apparatuses are used as distribution dispensing devices that are connected and operated while assembling into a combined fire-fighting equipment system The carbon dioxide is supplied to the gas inlet 171 of the gas inlet / outlet mixing mixer 191, which has a gas reservoir 171 for storing the halon gas 175, while ensuring the function of the initial evolution, Stage piping line at the tail end of the multi-stage pump of the present invention, Projection method,

A power transmission unit for transmitting the injected injection liquid to the blood vessels in the human body and for transmitting the disruption prevention preventive power of the nuclear hydroelectric power generation unit 811 constituted inside the main body 1 of the pressurized water reactor for treating nuclear waste 811d). &Lt; / RTI &gt;

As shown in Figs. 98 to 100, around the impeller 143 inside the protective cover of the three-stage multi-stage disaster prevention pump 8 configured with the flood control process, a suction pipe And the discharge piping 3 and 4 are referred to as a head tank 189. In the head tank 189, the water pressure of the fire water rises in a state of a very high pressure, and the head tank has a capacity of 8 liters and a capacity of 16 bar Compressed to withstand the pressures to withstand,

When a certain pressure is reached, it is made of material which can withstand the high pressure which is provided by the piping (14) of a certain standard size and the piping connecting attachment elbow and Tiella beam (44) The power transmission unit 811d for transmitting the disaster prevention preventive adjustment power of the nuclear hydroelectric power plant unit 811 constituting the inside of the main body 1 of the pressurized water double-structure reactor facility for marine source only waste treatment, It is preferable that the flood control process is constituted.

As shown in Figs. 98 to 100, following the water supply pipe 14 constituting the flood control process, the injection nozzle joint portion, which is connected to the disaster prevention pipe 14 for disaster prevention,

(10a), "Nominal 90" (10b) "for each of the seven types of the standard specifications of the standard specification formed by the piping body whose specifications are adjusted by the piping body which is made by the piping connection part (35) (10e), "nominal 40" (10f) and "nominal 25" (10g) are mounted on the injection nozzle body The spray nozzles are connected to a pipe line of a predetermined length and connected to the piping 14 of the injection nozzle body by one set in the middle, and connected to the rear of the bottom surface of the machine room floor, The flange 28 is separately manufactured for each designation and is connected to the piping 14 through the piping connection reducer 35 and then to the piping 14 of the disaster control nozzle body and then to the piping connection reducer 35 As a result,

In the disaster prevention piping system constituting disaster prevention,

The connection and disconnection constituting the disaster prevention piping system is connected in the reverse order to the flange connection processing hole 20 in the circumference of the disaster prevention nozzle flange 28 with the bolts 24 and the nut 25 for connecting the injection nozzle and the washer 26 A nozzle gap (15) is provided at the rear portion of the flange (28) and the flange (28)

In the disaster prevention piping system constituting disaster prevention,

The nozzle body (B)

The power transmission unit 811d for transmitting the disaster prevention preventive adjustment power of the nuclear hydroelectric power plant 811 constituted inside the main body 1 of the pressurized water double-structure reactor facility composed of the two types of connection structure, It is preferable that a flood control process is configured.

As shown in FIGS. 98 to 100, the small-sized, large-sized and large-scale marine nuclear hydroelectric power plants of the nuclear power plant 811 connected to the inside of the main body 1 of the pressurized water double- Equipment of the disaster prevention system for controlling the flooding by the construction machine of the hood position shift control of the reading 593,594,595,

A nuclear bomb that provides war prevention to prevent the disaster prevention of the disaster prevention preventive control unit of the nuclear power generation facility (811) connected to the inside of the pressurized water type double structure reactor facility main body (1) (958), a peace-keeping message for peacekeeping in Northeast Asia, equipped with a more powerful weapon, a peace-preserving message Photoshop (958), is installed at the Nuclear Hydroelectric Power Plant (811) Peace Message for Peacekeeping Photoshop (958) was set up in the Northeast Asia region to prepare a peace message Photoshop (958) for peace preservation in Northeast Asia,

A floating structure type double-structure reactor facility (1) for the marine source dedicated to the disaster prevention device, a floating type microcontroller (593, 594, 595) of a small-sized and large-scale marine nuclear hydroelectric plant connected to the inside of the nuclear plant ) With the construction equipment of the displacement control of hull equipped with the facilities of disaster prevention to control the flood,

On the other hand, around the launch pad of the satellite and the space rocket which constitute in the nuclear power plant facilities, the 1 m thickness of the natural loess and the disaster prevention construction machine is installed on the deck deck floor of the floating pick-

In the vicinity of the above-mentioned launching platform constructed in the nuclear power plant facility, a circular ocher block block having a diameter of 100 meters is provided with a thickness of 3 meters and a height of 15 meters,

When satellite and space rockets are fired from the launch pad and space rocket launcher at the top of the deck deck, when a huge amount of fuel is burned to obtain propulsion, high temperatures are generated, resulting from the launch of satellites and space rockets A 100-meter-diameter circular ocher block fire-fighting heat of high-temperature and high-pressure is installed in the nuclear power plant equipment which is provided to block the heat of combustion at high temperature and high pressure and to securely hold the deck deck at the same time.

The crane boom is a large-scale crane boom that provides hull movement in the deep sea because the hull is moved depending on the length of the crane. To prepare the operation, and to prepare a quarry in two places in front of the hull,

The hull is retracted, and both sides of the ship are provided with a tailpiece at the same time, and the ship is sheltered at the shore shelter,

The Nuclear Hydroelectric Power Plant, equipped with a pressurized water reactor facility for nuclear waste disposal, equipped with anchor and anchor chains,

It is desperately needed to construct the inside of the main body (1) of the pressurized water type double structure reactor equipped with the equipment for enabling the safe hull moving operation.

Figures 74 to 100 are schematic diagrams illustrating an embodiment of a marine nuclear hydroelectric power plant having a pressurized water reactor facility for nuclear waste disposal according to the present invention.

In a preferred pure hydraulic control exercise,

The examples were conducted five times.

[Third Embodiment]

First,

First, the process of forming the pressure can be explained using the hydraulic hand pump.

Second, the pressure relief valve pressure setting method can be performed.

Third, it is possible to check the cracking pressure of the hydraulic pressure relief valve.

The following exercises follow

First, in the hydraulic hand pump practice

First, the parts necessary for the training are selected and fixed on the fixed plate.

Second, piped parts are arranged like a circuit diagram.

을 닫힘 상태로 전환한다.Third, the shut-off valve of Figure 6-1

To a closed state.

에 기름을 1.5ℓ 정도 채운 후 유압 셋을 오 프(Off) 시킨다.Fourth, the power of the hydraulic set is turned on,

Fill the oil to 1.5 liters and turn off the hydraulic set.

와

를 완전 개방 상태로 전환 후 핸 드 펌프를 일정하게 회전시키면서 압력 게이지 p 0의 상태를 관찰한다.Fifth shut-off valve

Wow

After the pump is turned to the fully opened state, observe the state of the pressure gauge p 0 while rotating the hand pump constantly.

를 서서히 닫힘 상태로 전환하면서 핸 드 펌프를 회전시킬 때 압력 게이지 p 0의 상태를 관찰한다.Sixth shut-off valve

Observe the state of the pressure gauge p 0 when turning the hand pump while slowly switching to the closed position.

를 어느 정도 닫힘 상태로 유지하고

는 완전 개방 상태로 전환 후 핸 드 펌프를 회전시킬 때 펌프 흡입 측의 변화를 관찰한다.Seventh shut-off valve

To a certain degree in a closed state

Observes the change in the suction side of the pump when the hand pump is rotated after switching to the fully opened state.

Discuss the results of the fifth, sixth and seventh sessions after arranging the eighth exercise device.

The following is a hydraulic pressure relief valve exercise.

First, select the parts needed for the exercise in Figure 6-2 and place it on the fixed plate and fix it.

The following parts are piped as shown in the circuit diagram.

를 열림 상태로 전환한다.The shut-off valve

To the open state.

의 조정나사를 반 시계 방향으로 완전히 돌린다.Fourth, the pressure relief valve

Turn the adjusting screw of the screw fully counterclockwise.

Fifth, the power of the hydraulic set is turned on (O n).

Sixth, the pressure of a pressure gauge p 1 until 50 kg _f / cm ² and turn the adjusting screw of the pressure reels re-program the valve in a clockwise direction.

를 닫힘 상태로 전환한다.Next, turn off the power of the hydraulic set, and then shut off valve

To the closed state.

를 서서히 개방시키면서 압력 릴 리 프 밸브가 열려 액 주 관

로 기름이 떨어질 때의 압력을 압력 게이지 p 1로 확인한다.Next, after the power of the hydraulic set is turned on, the shut-

The pressure relief valve is opened and the liquid pipe

Check the pressure when the oil is dropped by the pressure gauge p 1.

The working pressure of the eighth pressure relief valve is discussed in the ninth.

The final pressure gauge p 1 at 40 kg _f / cm ² 30 kg _f / cm ² after re joseonghan a pressure relief valve so that the repeating (7), (8), (9) a process for each case to create a Table 6-1.

Discuss the final result.

The following flow-pressure characteristics of the hydraulic pump are shown below

First, select the parts necessary for the exercise in Figure 6-3 and place it on the fixing plate and fix it.

Second, piped parts are arranged like a circuit diagram.

를 열림 상태로 전환한다.Third, the shut-off valve

To the open state.

를 시계방향으로 조정하여 완전 폐쇄 상태로 전환한다.Fourth, the flow control valve

To the fully closed state.

Fifth, the power of the hydraulic set is turned on (O n).

을 시계방향을 돌려 p 1 게이지의 압력을 50kg_f/cm² 되도록 조정한다.Sixth, the hydraulic relief valve

Turn clockwise to adjust the pressure of p 1 gauge to 50 kg _f / cm ² .

를 반 시계 방향으로 돌려 p 1 게이지의 압력을 10kg_f/cm²이 되도록 조정한다.Seventh, the flow control valve

Turn counterclockwise to adjust the pressure of p 1 gauge to 10 kg _f / cm ² .

의 셧-오 프 밸브를 폐쇄 상태로 전환한다.Eighth, the power of the hydraulic set is turned off and the flow meter

The shut-off valve of the shut-off valve is closed.

Ninth, the power of the hydraulic set is turned on (O n).

에 1.5ℓ의 기름이 채워질 때까지의 시간을 측정하여 표 6-2에 기록한다.In the tenth, using a stopwatch,

Is measured in 1.5 liters of oil and recorded in Table 6-2.

To eleventh, When the pressure of the pressure gauge _{p1 20, 30, 40kg f /} cm 2 il repeats the processes of (8), (9), respectively.

For the twelfth, discuss the results.

The fluid flow practice below is shown in the circuit diagram below.

In Step 1, select the parts necessary for the exercise in Figure 6-4 and place it on the fixing plate and fix it.

In the second step, piped parts are arranged like the circuit diagram.

를 열림 상태로 전환한다.In the third step, the shut-off valve

To the open state.

In the fourth step, the hydraulic pressure set is turned on (O n).

을 조정하여 p 1 게이지의 압력을 40 kg f/㎠ 되도록 셋 팅 한다.In the fifth step, the hydraulic relief valve

To set the pressure of p 1 gauge to be 40 kg f / cm 2.

In step 6, power off the hydraulic set.

는 오리 피 스 투명블록 P포트와 A포트에 유압 배관을 한다.Step 7 is a step-

To the orifice clear block P port and A port.

In step 8, the hydraulic pressure set is turned on (O n).

In step 9, the pressure before and after the orifice clear block is measured with p 1 and p 2 gauge, and the flow state of the fluid is observed.

를 오리 피 스 투명블록 P-B, 슬로 틀 투명블록의 P-A, P-T에 각각 유압배관을 한 후 8단계, 9단계 과정을 반복하여 표 6-3에 기록한다.Step 10 is a step-

To the orifice transparent block PB and to the sloped transparent block PA and PT, respectively. Repeat steps 8 and 9 to record in Table 6-3.

Step 11 discusses the results.

[Embodiment 2] In the control of the hydraulic single cylinder,

For the next exercise goal

Step 1 can understand the structure of a single cylinder and explain its function.

In the second step, the functional relationship between the velocity and the force of the piston can be understood and calculated to calculate the value.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the waste water treatment type double structure reactor installation should not be limited to the embodiments described, but should be determined by the equivalents of the following claims as well as the appended claims.

""

""

"자 형태의 지 그),(23)샤 클,(24)볼트,(25)너트,(26)와 샤,(27)외부블록탱크 외부 위치로 결합 분리 해지용 힌지,(27a)힌 지 용 ㄱ 형의 러 그 핀 연결축,(27b)힌 지 용 장축의 연결축,(28)플랜지 또는 선체의 벨 러 스 터 바라 싱 탱크 흡입구 이물질 접근 차단용 플랜지마개철망,(29)카플 링,(30)카플 링 암 나사 산 몸체,(31)카플 링 수 나사 산 몸체,(32)가스 켓 트 또는 고무패킹,(33)노즐호스 장비 거치대,(34)집수정 탱크 또는 안전탱크,(35)레 듀 사,(36)고성능 수중펌프,(37)펌프 수차,(38)토 출 분사 수,(39)물막 또는 커 텐 물 막,(40)소방정,(41)감지노끈,(42)바스켓,(43)이중비닐텐트 또는 봉지,(44)엘 보 또는 티 이 엘 보,(45)소방용 펌프,
(46)동력 전원 공급장치 전원,(47)인버터,(48)인버터 브 이오,(49)억 세 스 포인터,(50)인터넷 망,(51)입 형 다단펌프 또는 관제 서버,(52)모니터,(53)펌프 제어 보드 또는 타 구어 윈치 콘 트 롤 박스,(54)근거리 무선통신안테나,(55)근거리 무선통신장치의 무선통신제어모듈,(56)디스플레이,(57)전자제어장치 에이 디 이씨,(58)스위치 입력회로,(59)전자제어장치 엠 씨 유,(60)전자제어장치 디 이에 이씨,(61)과전류차단기 브레이크,(62)전원부,(63)디스플레이 화면,(64)아날로그입력,(65)디지털입력,(66)각 펌프의 온 오 프 제어를 위한 스위치 메인스위치 버 턴,(67)보조스위치 버 턴,(68)컴퓨터 전산망 입력,(69)현재 압력 값 압력설정수치의 설정압력 값 인식명판,(70)메모리, (71)동력전선,(73)방재물질 혼합기 믹서,(74)이중 관 구조 블록배관라인,(74a)내부블록배관,(74b)외부블록배관,(75)헝겊 꺼즈,(76)솔레노이드밸브(77)애드벌룬,(78)비행선,(79)가스통,(80)공기압축기,(81)모바일서비스,(82)휴대용단말기,(83)저압차단밸브,(84)비상밸브,(85)감압밸브,(86)제1압력체크센서,(87)제2압력체크센서,(88)전자제어유닛,(89)양수 관,(89a)수직 하향 관,(89b)수직 상향 관,(90)볼 밸브핸들,(91)드 렌 처 헤드,(92)밸브내부디스크,(93)비상 싸 이 렌,(94)최초발화원인물질 스파크 또는 낙뢰,(95)전신주,(96)변압기,(97)레 듀 사 붓 싱 소켓,(99)점멸 경고등,(100)파라핀노즐마개 또는 양초,(101)압력계,(102)감지센서바이메탈,(102a)열전대의구성방식,(102b)열 전류 발생,(102c)열기전력 발생,(102d)측정점,(102e)기준점,
(103)감지센서 열전 대온도계 스위치,(103a)열 전대 온도계의 구성방식,(103b)측 온 한계,(103c)온도 1,(103d)전류계 온도의 눈금,(103e)금속A,(103f)금속B,(103g)전위차가 발생,(103h)열 전대와 보상도선,(103i)측 온 접점,(103j)열 전쌍,(103k)보상접점,(103l)보상도선,(103m)기준접점,(103n)열전대의종류,(103o)보호관이 없음,(103p)보호관,(103q)고온물체,(103r)보호관이 있음,(103s)시 스 형,(103t)측 온 단자,(103u)측 온 접점,(103v)스 텐 금속 시 스,(103w)보호관 부착 백금 측 온 저항체,(103x)마 이 카,(103y)백금선,(103z)자기,
(104) 레벨 또는 압력스위치,(105)방 유량 체크용 유량계,(106)동력모터제어모듈,(107)밸브스위치작동용 추 또는 크레인 붐 대 레벨 유지 웨 이 트 용 추,(108)과대 압력 방지스위치 또는 스위치박스,(109)공기호스,(110)공기호스 연결장치의 닛 플,(111)스프링 쿨 러 헤드,(112)반사 관,(113)가용금속용 퓨즈,(114)정지밸브 또는 수도밸브,(115)지하매설관,(116)주 탑 또는 철탑 또는 블록철탑,(117)부자,(118)부자회로개폐기,(119)벨,
(120)경보밸브,(121)시험밸브,(122)고압수도펌프,(123)레버 블 럭,(124)소화기(소화기a, 소화기b, 소화기c, 소화기D, 소화기e, 소화기f) (125) 체인,
(126)실린더,(126a)추 부하 식 축 압 기,(126b)스프링 부하 식 축 압 기,(126c)브 리 더 형,축 압 기,(126d)유압,(126e)유압 장치로,(126f)압력오일,(126g)고무봉지(브 리 더),(126h)유실,(126i)포 밋 밸브,(126j)드 레인 플러그,(126k)단 동 실린더,(126l)복 동 실린더,
(127)피스톤 또는 피스톤펌프,
(128)소화기 고정용 핀,(129)빗장 장 금 장치,(130)인명구조 용 튜브,(131)로프,(132)컨테이너,(133)앙 카 볼트,(134) 라디오존데,(135)구동바퀴 로라 용,도 루레,(136)레 귤 레 이 트,(137)동체에 감긴 밧줄이나 쇠사슬로 수문개폐 조절장치용 타 구어 윈치,(138)시린 더,(139)철 개 망태,(140)터빈펌프,(141)케 싱,(142)베인 펌프 또는 가이드 베인,(143)임 펠 러,(144)다 이어 후 렘 펌프,(145)고압저장탱크,(146)프로펠러펌프 또는 프로펠러,(147)다단식나사 공기 압축기 그리고 나사펌프,(148)플 런 저 펌프,(148b)사 축 식 플 런 저 펌프,(148c)레 이 디 얼 플 런 저 펌프,(149)철재 빔,(150)방재펌프 제어시스템 또는 관제시스템,(151)오일 냉각기,(152)맨홀 덥게,(153)해치 카 버,(154)방화문,(155)글 랜드 패킹,(156)매 커 니 컬 시일 또는 각개의 시일,(157)제트펌프,(158)황토,(159)방화사,(160)옥내소화전상자,(161)자동소화전,(162)호스,걸이,(163)질식 가스,(164)불연성 가스의 이산화탄소, (165)보강 철판,(166)성냥불(a) 또는 발화물체(화재유형별의 A급, B급과 C급으로 분류함),(167)나사 탭, (168)송수구 또는 소방방재 배관 라인,(169)방수 구,(170)내부냉각기,(171)배기가스,(172)인명구조겸용 침대노즐,(173)가스 렌 지 또는 버너,(174)탄산가스,(175)하론 가스,(176)핼 륨 가스,(177)발화물질 파라핀테이프,(178)비 발화물질 철사,(179)소화전(단구형a,쌍 구 형b),(180)비닐포대,(181)방재공기배관라인,(182)후미냉각기,(183)리밋스위치 또는 리 미트 스위치,(184)무인카메라,(185)끝이 뾰족한 틈새 결합공구 지 그대 쇄기,(186)스프링,(187)무인점화기 스파크라이터,(188)구명정,(189)압력탱크용 헤드 탱크,(190)플 렉 시 블 고압호스 또는 유압호스,(191)도입 관 또는 수압관,
(192)동력모터 전동기 몸체,(193)후드,(194)스냅 링,(195)팬,(196)몸체프레임,(197)몸체 전방 보강 철판,(198)회전축,(199)회전자조립,(200)전방 회전 축 받 이,(201)고정자조립,(202)모터 보호용 주물프레임,(203)단자박스,(204)인양볼트,
(205)단자박스 카 버,(206)후방 회전 축 받 이,(207)후방 보강 철판,(208)공극,(209)팬 카 버 또는 보호 카 버,(210)회전자 철심,(211)고정자 철심,(212)고정자 권선,
(213) 활성 막 식 가스 홀드 업 장치,
(214) 필터,
(215) 배기 탑,
(216)방사능 저장탱크,
(217)여과기,
(218)방사능 측정기,
(219)모니터 링 포스트,
(220) 드럼통,
(221) 등변 산 형 강,
(222) 우라늄 광산,
(223) 옐 로 케 인 크,
(224)핵폐기물[＜＜＜,＞＞＞],(224a)고체 핵폐기물,(224b)액체 핵폐기물,(224c)기체 핵폐기물,
(225)철근 콘크리트 매트,
(226)엔진발전기, (277)터빈 회전 축 받 이,
(228)재처리공장,
(229)전환공장,
(230)농축공장,
(231)전환·가공공장,
(232)탐조등,
(233)제련공장,
(234)에어 드라이어,(235)불씨,(236)불꽃,(237)불기둥,
(238)원자력수력발전소의 핵 폐기물처리의 이중 관 구조 블록배관라인 조절 측,
(239)재순환펌프,
(240)압력 제어 풀,
(241)급수펌프,
(242)순환수펌프 또는 1차 주 냉각계통 순환펌프,
(243)냉각재 펌프 또는 2차 주 냉각계통 순환펌프,
(248)크랭크,(249)링크대,(250)푸 레,(251)감속기, (252)브 이 밸 트,(253)플 런 저,(254)고정핀,(255)타임 머,(256)케이블 카 아,(257)공기밸브,(258)안전밸브,(259)자동밸브,(260)드 레인 밸브,(261)밸 트 카 버,(262)흡입필터,(263)압축기 본체,(264)펌프 수차,(265)메인밸브,(266)산림,(267)터빈 또는 회전날개,(268)플라이 휠,(269)흡입구,(270)토출구,(271)공 운전 방지장치,(272)펌프전원,(273)제어 전원,(274)비상운전회로,(275)직류파워공급회로,(276)마이크로 콘 트 롤 유니 트,(277)디 아이피 스위치설정회로,(278)디스플레이회로,(279)M/C 구동신호 접점출력회로,(280)모터 과부하 신호입력회로,(281)인버터 운전 데이트 입출력회로,(282)압력감지회로,(283)외부상태 입력회로,(284)토 출 압력 트랜스 미 터어,(285) 흡입/토 출 스위치,(286)베 드 프레임,
(287)냉각수 또는 냉각수 입구,(288)유 분리탱크,(289)흡입밸브,(290)기어드라이븐,(291)건조기,(292)이중 관 구조 물 저장탱크,
(293)수문,(293a)데 인 터 게이트,(293b)롤링 게이트,(293c)설계수위,(293d)수면,(293e)앵커부문 고정부,(293f)고정부,(294)수로 또는 회전수로,(295)수조 탱크,(296)게이트 밸브,(297)리 턴 밸브,(298)부시 또는 트로틀 부시,(299)드 렌 처 헤드(a,b,c,d)의 종류,(300)진동경보장치,(301)드 레인,(302)역 정지 밸브,(303)고압 볼 탱크,(304)양수펌프,(305)유량제어용 버터플라이밸브,(306)중탄산소다,(307)재유입구,(308)센 튜 리 퓨 우 걸 펌프,(309) 오수펌프,(310)스파이 럴 케 싱,(311)블류우트 펌프,(312)후드 밸브,(313)양수 구,(314)펌프 본체,(315)플 로 트,(316)볼 밀어넣기 기기,(317)플 랙 스 블 카프 링,(318)플 로 트 스위치,(319)뒷날개,(320)퍼올림 밸브,(321)빨아올림 밸브,(322)분출 수면 계,(323)실제 양정,(324)분출 양정,(325)제트펌프,(326)기어펌프,(327)윙 펌프,(330)분리 실,(331)마그넷 스위치,(332)핵폐기물건물,(333)빌딩 또는 대형건물,(334) 밸런스,(335) 언밸런스,(336)옥내 소화용 펌프,(337)로터리펌프,(338)로터리 회전자,(339)프라이 밍,(340)자 흡 식 펌프,(341)축 류 펌프,(342)혼 류 펌프,(343)점성펌프,
(344)원자력수력발전소의 이중구조 블록탱크 제조설치 공정의 연결측,
(344a) 가(A B )변의 블록탱크, (344b) 나(B C) 변의 블록탱크, (344c) 다(A C)변의 블록탱크, (344d) 라(A R) 변의 블록탱크, (344e) 마(A Q) 변의 블록탱크, (344f) 바(A P) 변의 블록 탱크, (344g)사(A O) 변의 블록탱크, (344h) 자(A M) 변의 블록탱크, (344i) 아(A N) 변의 블록탱크, (344j)갑(A B C), 삼각형 블록탱크, (344k) 을(A B "C),삼각형 블록탱크, (344l) 병(A R S),삼각형 블록탱크, (344m) 무(A Q T),삼각형 블록탱크, (344n) 갑 자(A O B),삼각형 블록탱크, (344o) 을 축(A N W),삼각형 블록탱크, (344p) 병인(A M X),삼각형 블록탱크, (344q)차(D E)변의 블록탱크,(344r)카(B D)변의 블록탱크,(344s)타(C E)변의 블록탱크,
(345)글 랜드,(346)주 액 랜턴 링 부착패킹,(347)랜턴패킹,(348)2중 글 랜드 형 패킹,(349)드 로 틀 부시 부착패킹,(350)냉각수출구,(351)봉 수,(352)냉각수입구 또는 냉각수배관라인,(353) 슬리 이브 내면 냉각병용 워 터 재킷부착패킹,(354)슬리이브의 내부 냉각 실,(355)보조 글 랜드,(356)누설액의 냉각 실,
(357)원자력수력발전소의 이중구조 블록탱크 제조설치 공정의 분배 측,(358)글 랜드 패킹 여덟 가닥 짜기,(359)봉지 짜기,(360)격 자 짜기,(361)플 래 싱 구멍,(362)O링,(363)스 톱 더,(364)중동 링,(365)밀봉 단면,(366)시 이 트 링,(367) 피동링,(368)퀀 칭,(369)쿠 울 링,(370)되 돌림 관,(371)핸들(Handle),(372)격벽, (373)축방향의 드 러 스 트 하중,(374)임 펠 러 전면에 작용하는 압력,(375)임 펠 러 뒷면에 작용하는 압력,(376)밸런스 호울,
(377)흡입압력,(378)배면 압력,(378)밸런스구멍,(380)전면 웨 어 링,(381) 토출압력,(382)배면 베어링 링,(384)뒷날개,(385)뒷날개 설치로 인한 압력분포와 임펠러,(386)다단펌프의 임 펠 러 배치,(387)수주분리,(388)수주결합,(389)수격작용,(390)축 봉 부,(391)냉각방식의 매 커 니 컬 시일,(392)스 트레이너,(393)수격펌프,(394)옥상 소방 운전실 또는 크레인운전실,(395)높고 낮은 산,(396)폴 저엔 코 드(Pulse Encoder),(397) 스 피 드 콤 멘 드(Speed Command),(398)모터 스 피 드 또는 변속기,(399)디스크 브레이크(DISC Brakes),(400)방파제 겸용 방제탱크,(401) 안전로프그물망, (402)공기 압축 실(Air Chamber) 또는 가스실,
(403)슬 루 우 브 밸브,(404)밸브몸통,(405)밸브 덥 개,(406)슬 루 우 스 밸브,(407)패킹 누르게,(408)패킹 누르게 너트,(409)밸브,(410)핸들,(411)핸들 너트,(412)패킹,(413)웨 지 게이트 밸브,(414)단체밸브,(415)플 렉 시 블 밸브,(416)패럴렐 슬라이드밸브, (417)더블 디스크 게이트 밸브,(418)스 톱 밸브,(419)플랜지형 글로 우 브 밸브,(420)플랜지형 앵글밸브,(421)몸통,(422)본 네트 덥 개,(423)디스크,(424)덥 개 붙임 밸브 시트,(425)밸브대,(426)밸브 누르개,(427)핸들,(428)덥개 끼움 링,(429)패킹 누르개 링,(430)패킹 누르개,(431)나사 끼움 형,(432)덥 개 볼트,(433)패킹 누르개 볼트,(434)핀,(435)덥 개 볼트용 너트,(436)패킹 누르개 보울트용너트,(437)핸들 너트,(438)멈춤 나사,(439)와셔,(440)패킹,
(441)가스 킷,(442)밸브 누르게,(442a)평면 누르게,(442b)원뿔 누르게,(442c)구면누르게,(442d))스 터 트 누르게,
(443)콕 1형 (444)콕 2형,(445) 청동나사 넣기 메인 콕,(446)주철 플랜지형 글랜드 형,(447)청동 나사 넣기 글 랜드 콕,(448)삼 방 콕,(449)사방 콕,(450)핸들 콕,
(451)첵 밸브,(452)스윙 형 첵 밸브,(453)리프트형 첵 밸브,(454)첵 밸브몸통,(455)덥게,(456)디스크,(457)디스크 핀,(458)플러그,(459)조정밸브,(460)감압밸브,(461)파이로 트 작동 자력 식 감압밸브,(462)2차 측 감지구멍,(463)다 이어 프 램,(464)파이로 트 밸브,(465)배기연돌,(466)메인밸브,(467)메인밸브스프링,(468)조정스프링,(469)오 토압력조절밸브,(470)나사형 오 토 압력조절밸브(a),(471)플랜지형 압력조절밸브(b)
(472)안전밸브,(473)스프링식 안전밸브,(474)리리 이 프 식 안전밸브,(475) 증기용 포 프 스프링식 안전밸브,(476)포 프 식 안전밸브,(477)온도조절밸브,(478) 오토 급수기,(479)오 토 급수기(a),(480)오 토 수준 조정기,(481)공기빼기밸브,(482)오 토 열 동 형 증기용 공기 배기밸브,(483)바 켓 트 온수형 오 토 공기 배기밸브,(484) 냉매배관용 밸브,(485)냉매 스 톱 밸브,(486)팩 드 밸브,(487)팩 레 스 밸브,(488)팩 레 스 밸브,(489)팽창밸브,(490)다 이어 후 렘 형 팽창밸브,(491)벨로 우 스 형 팽창밸브,(492)부자 밸브,(493)냉매용 압력조정밸브,(494)전자밸브,(495)오 토 급수밸브,(496)일반형 수전용 수도꼭지,(497)지수 선,(498)분수 전,(499)볼 탭,
(500)해양원자력수력발전소의 선체안전 보존용 피뢰침,
(501)나사 이음 형 Y형 스 트레이너 외형도(a) 단면도(b),(502)U형 스 트레이너,(503)V형 스 트레이너,(504)관 고정금속,(505)터 언 버클 부 지지밴드,(506)지지밴드,(507)롤러 부 지지밴드,(508)수직 관 매몰용 밴드,(509)철재 안경밴드,(510)바닥밴드,(511)트랩,
(512)일반형 수전용 수도꼭지,(512a)동체가 긴 횡(橫) 수전,(512b)포 마 쓰 식 동체가 긴 횡(橫) 수전,(512c)동체가 긴 만능 수전, (512d)동체가 짧은 횡(橫) 수전,(512e)포 마 쓰 식 동체가 짧은 횡(橫) 수전,(512f)종 수전,(512g)만능 식 종 수전,(512h)카프 링 횡 수전,(512i)산 수전,(512j)위생 수전,(512k)탕 수 혼용 전,
(513)위생 플래시 밸브,(514)병렬 형 목욕 수전,(514a)횡 자재 수전,(514b)횡 자재 수전,(514c)종 자재 수전,(514d)포 마 쓰 식 횡 자재 수전,(514e)의과 용 수전,(514f)횡 화학 수전(단구),(514g)횡 화학 수전(양구),(514h)종 화학 수전(단구),(514i)목이 긴 종 화학 수전,(514j)종 화학 수전(양구),
(515)건축 설비용 수전의 후래 시 밸브(푸 시 버 턴 식),(515a)건축 설비용 수전의 후래 시 밸브(A형),(515b)건축 설비용 수전의 후래 시 밸브(소변기 용),
(516)소변기 세정 수전,(517)믹 싱 밸브(3구;매물용),(517a)믹 싱 밸브(노출형),(518)핸 드 샤워,(519)사와 헤드,(520)핸 드 샤워,(521)샤워 셋 트,
(522)앵글형 열 동 식 트랩,(523)스트레이트 열 동 식 트랩,(524)버 키 트 트랩,(525)상향식 버 키 트 트랩,(526)하향식 버 키 트 트랩,(527)플 로 우 트 트랩,(528)임 펄스 증기트랩,(529)수도꼭지몸통,(530)패킹 상자,(531)패킹 누르게,(532)꼭지대,(533)핸들,(534)디스크,(535)디스크패킹,(536)내수패킹,(537)내 노화 성 패킹,(538)테 프론 막,
(539)열팽창이 큰 금속,(540)열팽창이 작은 금속,(541)타임 머 또는 레벨스위치,(542)하 이 레벨 알람,(543)베 이 컴 페 일 루 어 알람,(544)스 멀 릴레이 알람,(545) 알람 리 셋 트 버 턴,(546)로 워 레벨스위치,(547)플 랩(flap;밸브의 혀),(548)사운 드 캡,(549)첵 노즐,(550)루 버 카 버,(551)플 로 이 트,인 셔 어 트 스위치,(552)지시눈금스케일,(553)오버 플 로 워 콘 넥 션,(554)벤 트 파이프 콘 넥 션,(555)플랜지 콘 넥 션,(556)이중비닐 개방형 침 바늘,(557)솔레노이드밸브 몸체,(558)카 버,(559)스 폴,(560)스 플 패킹,(561)파이로 트,(562)코일,(563)콘 넥 터,(564)메니 폴 드(L;P T Y 8"대유량형),(565)매니 폴 드(S;M 5 소유량 형),(566)나사볼트,(567)공기호스 결속 구 유니온 카플 링,(568)유니온 몸체결속 카플 링,(569)2위치 싱글,(570)2위치 더블,(571)L L; 중앙 수직형,(572)L; 수직형,(573)수평형; M,(574)F;피 팅 포함,(575)도시기호 싱글,(576)더블,(577)에이 취,(578)아이,(579)제이,(580)마이크로 스위치,(581) 직접 배관형,(582)베이스 배관형,(583)파 이어 댐 퍼,(584)댐 퍼 스핀들,(585)닥터 벤 츄 레이션,(585a)닥터 벤 츄 레이션 흡입구,(585b)닥터 벤 츄 레이션 배출구,(586)몽골 피에의 열기구,(587)블 량 샤 르 의 열기구,(588)켈 리의 열기구,(589)증기비행선,
(590) 교각겸용 이중구조 지주 블록탱크,
(591) 지주탱크 상단의 바지선 선체,
(592) 지주탱크 하단의 바지선 선체,
(593) 소형의 해양원자력발전소의 부양 식 독,
(594) 중형의 해양원자력발전소의 부양 식 독,
(595) 대형의 해양원자력발전소의 부양 식 독,
(596) 이중구조 내부블록탱크,
(597) 고장력 스 테인 레 스 강의 철판,
(598) 이중구조블록탱크,
(599) 이중구조 외부블록탱크,(600) 블록탱크용 제 1보조 형 강,(601) 블록탱크용 제 2보조 철판 ,(602)제 1보조 형 강과 제 2 보조철판의 모서리부위 용접 결함을 해소하기 위해 절단된 부위 스냅 홀,(603)블록탱크 선체 분해결합 휴대용 러그 연결축 볼트,(603a)볼트의 나사 산,(604)블록탱크 선체 분해결합 휴대용 러 그 연결축 분해결합 너트,(603b)너트의 나사 산,
(605)블록탱크 선체 분해결합용 제 2 보조 철판 수직격벽,(606)블록탱크 선체 분해결합 휴대용 러 그 핀 연결축,(607)블록탱크 선체 분해결합 휴대용 러그,(608)블록탱크 선체 분해결합 휴대용 러 그 핀,(609)블록탱크용 선체 분해결합용 제 2 보조철판 수평격벽,(610)블록탱크 선체 교통장치용 격벽맨홀,
(611)인공위성,(611a)통신위성,(611b)기상위성,(611c)측지 위성,
(612)우주로켓,(612a)이크 로켓,(612b)이온 로켓,(612c)플라스마 로켓,(612d)광자 로켓,(612e)원자력로켓,
(613)블록탱크 블록단위 선체 분해결합용 러 그 힌 지 소켓,(614)블록탱크 블록단위 선체 분해결합용 대형플랜지,(615)대형플랜지 접속연결구 접합부위 가공 홀 또는 러 그 가공 홀 작 키 베 드 가공 홀,(616)계류장치 부양 식 독 바지선 선체 균형 조절장치용 작 키 베 드,(616a)블록탱크 블록단위 선체 분해결합 위치이동 조절장치용 러 그 장 공 홀,(617)블록탱크 선체 분해결합 이중 관 구조 탱크교각 건설용 부 교 식 새들 형틀,(618)블록탱크 선체 교통장치용 가이드레일, (619) 헬리콥터 정류장,(619)블록탱크 블록단위 선체 분해결합조절장치용 유압회전실린더기계 또는 블록단위 선체의 드릴 선반 로터리 실린더기계의 랙＆ 피 니언형(N R P) 실린더기계,
(620)유압회전실린더(로터리 실린더[랙＆피니 언 형-N R P]),
(621)블록탱크 블록단위 선체 분해결합조절장치용 밴드 지 그대,
(622)블록탱크 블록단위 선체 부침조절장치용 벨 러 스 터 버터플라이밸브,
(623)블록탱크 블록단위 선체 분해결합조절장치용 유압실린더 유압 작 키,
(624)블록탱크 선체 교통조절장치용 유압 실린더,도 어 또는 블록탱크 블록단위 선체 분해결합조절장치용 유압실린더기계.(625)마개 철판,
(626)화력발전소,
(627) 엔진제어시스템용 엔진제어모듈,(628)부 이 깃대 고무풍선,(629)밧줄용 로프,(630) 로프 매듭갈고리,(631)비상계단,(632)승강기용 앨 리 베 이 트,(633)컨베이어,(634)침몰선박 인양 선의 침몰방지 체류 선,(635)진공펌프,(636)예인선,(637)반 잠수작업선,(638)볼라 드,(639)앙 카,(640)앙 카 용 체인,(641)송풍기 또는 쿨 링 팬,(642)공기 보온용의 히터 팬,(643)인공위성발사대,(644)계류탑,(645)전기자석 마그넷,(646)우주로켓발사대,(647)헬리콥터,(648)체인 블 럭, (649)황토 세 멘 트 혼합장비 믹서기계,(650)애 자,(651)크레인 붐 대,(652)크레인 붐 걸 고리,
(653)우라늄 239,(653a)우라늄 238,
(654)물,(654a)경수,(654b)중수 또는 가압중수,
(655)항상 같은 방향으로만 흐르는 전류인 직류,(656) 시소가 오르내릴 때마다 흐름의 방향이 바뀌는 전류인 교류,
(657) 중간 열교환기 또는 1차 주 냉각계통 중간 열교환기,(657a)2차 냉각 계통출구,(657b)저온 헤드,(657c)2차 냉각재입구,(657d)지지판,(657e)중앙배관,(657f)외 측 환상 부,(657g)압력용기,(657h)단열재,(657i)고온 헤드,(657j)혼합기,(657k)1차 계통 가스 입구,(657l)1차 계통 가스출구,(657m)단 관,(657n)내 압 관,(657o)단열층,(657p)고온가스통로,(657q)라이나,(657r)2 중관,(657s)내압 관,(657t)저온가스통로,(657u)내관,(657v)고온가스통로,(657w)라이나,(657x)단열층,
(658)열교환기,
(659)전류가 잘 흐르지 않는 니크롬선,(660)전구 몸체,(661)베이스,
(662)넵투늄,
(663)필라멘트,(664)유리,(665)형광 방전관,(666)점등 관,(667)방전,(668)탄소막대,(669)양극(플러스;(+)로 표시함),(670) 음극(마이너스; (-)로 표시함),
(671) 연료집합체,
(672) 원자력발전소,
(672a) 어도 터널,
(673)시 이소 중심축 프레임,
(674)양성자,
(675)중성자,
(676)감속재 또는 감속재 용기,
(677)추 코트 반도,
(678)하천,(678a)총 낙차,(678b)방수로,(678c)유입 식 발전소의 개념도,(678d)저수지식 발전소의 개념도,(678e)조정지식 발전소의 개념도,(678f)조력발전의 개념도,(678g)취수구,(678h)상부조정지,(678i)하부조정지,(678j)가역 식 펌프 수차,(678k)발전력,(678l)양수전력,(678m)양수,(678n)발전,(678o)조력조정지,(678p)한강수계에서의 각 발전소 위치구성도,(678q)화천 수력발전소,(678r)소양강 수력발전소,(678s)충주 수력발전소,(678t)춘천 수력발전소,(678u)의 암 수력발전소,
(678v)청평 수력발전소,(678w)팔당 수력발전소,(678x)소양강,(678y)남한강,(678z)괴산 수력발전소,
(679)제방,(679a)토질 차수 벽,(679b)상류 측 록 필,(679c)필터,(679d)본체 록필,(679e)부 벽 댐,(679f)표면 차수 판,(679g)부 벽,(679h)이용 수심,(679i)중공 부,(679j)주변전실,(679k)표층콘크리트,(679l)물의 위치 에너지,(679m)물의 운동에너지,(679n)기계에너지,(679o)전기에너지,(679p)이론수력,(679q)수차출력,(679r)발전기출력,(679s)수력발전의 개요도,(679t)댐 식 발전소의 개념도,(679u)스크린,(679v)취수탑,(679w)볼 탭 밸브,(679x)입구밸브,(679y)주요기기,(679z)주요변압기,
(680)댐,(680a)저수지 또는 조정지,(680b)취수댐,(680c)양수 댐,(680d)양수식,(680e)양수발전,(680f)댐 수로 식,(680g)댐 식,(680h)수로 식,(680i)압력수조,(680j)조 압 수조,(680k)침 사지,(680l)무 압 수조,(680m)상 수조,(680n)취수설비,(680o)도수설비,(680p)발전설비(양수),(680q)방수설비,(680r)고수위,(680s)저수위,(680t)암벽,(680u)상류면 보호층,(680v)배수 층,(680w)토질재료,(680x)기초암반,(680y)흙 댐, (680z)암석 댐,
(681)연료피복재,(682) 피복 관 또는 지 르 칼 르 이 관,
(683)핵연료 펠릿,
(684) 전압, (685) 전력, (686)전원의 출구, (687)전원의 입구,
(688)원자로건물 또는 격 납 건물 또는 콘크리트 방호벽, (688A)원자로건물,(688B)터빈건물,(688C)제어건물,(688D)보조건물,(688E)디젤발전기건물,(688F)핵연료건물,(688G)폐기물건물,
(689)연료 봉,(689a)연료 다발 조절,(689b)상단 노즐,(689c)연료 막대 조절,(689d)연료 막대,(689e)스프링 클립 조립,(689f)하단노즐,(689g)연료 봉 후단 캡,(689h)플 루 늄,(689i)홀드다운 스프링,(689j)우라늄 다 이 옥 시드 연료 펠 렛,(689k)가스 캡,(689l)지 르 칼로 이 크라 우 딩,
(690)초고압 변전소,(691)1차 변전소,(692)송전소 내부 중심에 7가닥의 강철선,(693)54가닥의 알루미늄선,(694) 연료호스,(695)송전선,(696)해양터널 횡단철도 변전소,(697)중간 변전소,(698)대단위 공장,(699)중 단위 공장,(700)2차 변전소, (701)소단위 공장,(702)가정(태양열 주택이 포함됨),(703)스 탭 발판 걸 고리,(704) 전선 균형용 케 인 크 의 초고압 전선 균형 애 자,(705)핵폐기물처리 관 제조공정 분배 측,(706)소구경 전기저항 용접 관,(707)원재료,(708)언 코일 링,(709)레벨 링,(710)사이드 트리 밍,(711)절단과 대강 연결,(712)성형,(713)용접과 내외면 비 드 제거,(714)초음파와 와류 탐상시험,(715)용접부열처리,(716)공 냉,(717)수 냉,(718)진원성형,(719)절단,(720)평 평도 시험,(721)구조 관,(722)교정,(723)중간적재,(724)유도가열로,(725)에 스 알엠(S R M),(726)열간 절단,(727)면 취,(728)수압시험,(729)초음파와 와류탐상시험,(730)무게와 길이측정기,(731)육안 및 치수검사,(732)나사,(733)도 유,(734)일반 배관용,(735)아연도금,(736)아연도 강관,(737)보일러 튜브,(738)냉각 대,
(739)중 구경 케 이지 성형 전기저항 용접 관,(740)코일 마게 철판 원재료,(741)사이드 트라 밍,(742)케 이지 성형,(743)송유관,(744)초음파 탐상시험,(745)진원성형,(746)송유관(석유산업용 강관),(747) 대구경 강관,(748)엣 지 밀 링 기계,(749)3롤 밴 딩 기계,(750)포스트 밴 딩 기계,
(751)가 용접,(752)내면용접,(753)백가 후 징,(754)외면용접,(755)관 단 싸 이 징,(756)관 단,면 취,(757)X-선시험,(758)냉 간 익 스 팬 딩,(759)마 킹.포장.출하,(760)스파이랄 용접강관,(761)언 코일 링,(762)구조 관과 강관말뚝,(763)비 도복 배관용,(764) 외면 브라스트 크리 닝,(765)내면 브라스트 크리 닝,(766)내면도장,(767)1차 도장, (768)도장과 도복,(769)도복 장 강관,(770)초음파와 X-선검사,
(771)해양터널장치용 내부 전동차,
(772)원자력발전기 또는 터빈발전기,
(773)원자력발전기용 회전하지 않는 전기자코일,
(774)원자력발전기용 회전하는 회전자전자석코일,
(775)송전선,(776)송전철탑,(777)개폐시설,(778)보일러 또는 주전자,
(779) 증기파이프,(780) 증기 또는 강력한 기체의 고온고압 증기 출입구,
(781)생산전력 중앙제어실 ,
(782)송전측정실 트랜스 포 머 룸, (783) 보일러 작동 노심,
(784) 원자, (785) 전자,
(786) 증기건조기,
(787) 자석,
(789) 탈 기기,
(790) 수증기를 냉각시켜 물이 되게 하는 장치의 쿨 링 기기인 복수기,(790a)복수기 리리 이 프 식 안전밸브,(790b)복수기 안전밸브,(790c)복수기 몸체,
(791) 노심 또는 핵 연료 실,(791a)노심 지지 방 벽,(791b)핵분열,
(792) 드럼,
(793) 재 열기,
(794) 이중구조 블록탱크 집진기 또는 화력발전소의 집진기,
(795) 중유탱크, (796) 중유,
(797) 유조선 또는 화물선,
(798) 제어봉,(798b)제어봉 구동축,(798c)제어봉 압 지 강판,(798d)제어봉 심출 봉 강,(798e)제어봉 안내관,(798f)제어봉 구동축,(798g)제어봉 인장용 봉 강,
(799) 방사성 폐기물,
(800) 플루오르화 우라늄,
(801) 플루토늄,
(802) 비등 수형 원자로설비,
(803)가압 수형 원자로설비,
(804)기체 냉각 로 원자로설비,
(805)다목적 고온가스로 원자로설비,
(805a)1차 냉각계통이 수납된 페 블-베 드 형 고온가스로의 내부구조,
(805b)열 차폐 체,(805c)관통 구 마개,(805d)보조 순환장치,(805e)제어봉 저장 통,(805f)홀드다운 플레이트,(805g)제어봉 구동장치,
(805h)보조 순환장치,(805i)보조 열교환기,(805j)노심 지지 구조물,(805k)프 리 스 트 레 스 트 콘크리트 원자로용기,(805l)P C R V 안전밸브,(805m)연료 투입구,(805n)He 순환장치,(805o)P C R V 지지 구조물,
(805p)페 블-베 드 형H T R-모듈 원자로의 단면구조,(805q)구형연료배출관,(805r)붕소 구 정지 계,(805s)반사체영역제어봉,(805t)구형 연료 투입 관,(805u)급수관,(805v)주 증기관,(805w)가스순환기,(805x)고온가스배관,(805y)표면냉각기,(805z)단열재,
(806)신형 전환로 원자로설비,
(807)증기 탑,
(808)격 납 용기,
(809)정화장치,
(810)증기발생기,(810a)터빈발전기로 가는 스팀출구,(810b)급수노즐,(810c)2차 냉각수,(810d)진동 억제 봉,(810e)세관지지강관,(810f)세관덮개,(810g)세관 다발, (810h)세관강판,(810i)분리강판,(810j)1차 측 출구,(810k)1차 측 입구,(810l)열 교환세관,(810m)냉각수 유로,(810n)증기발생기 세관,(810o)증기발생기 내부동체,
(811)원자력발전설비 부,
(811a)원자력발전 핵폐기물 처리부,(811b)전력 생산 제조 부,(811c)건설기계의 교통운송 부,(811d)동력을 전달하는 동력전달 부,(811e)원전가동 설비안전 통제 관리생산 전장 부,(811f)전자제어조절장치 건설기계조절 부,(811g)전자센서밸브 나사조절 부,(811h)재해차단예방조절 부,(811i)산불 자연재해 사전방지조절부,(811j)황사 자연재해 사전방지조절 부,(811k)폭설 자연재해 사전 방지조절부,(811l)폭서 자연재해 사전 방지조절 부,(811m)태풍 자연재해 사전 방지조절 부,(811n)홍수 자연재해 사전 방지조절 부,(811o)가뭄 자연재해 사전 방지조절 부,(811p)산사태 자연재해 사전 방지조절 부,(811q)어도 터널 어패류 산란 조절 부,(811r)어도 터널 내부 어패류이동조절의 어패류 이동조절 부,(811s)어도 터널 어패류 산란조절 부에 연결한 댐 수문 통제 조절 부,(811t)지하수와 해양 심층수 용량 공급 조절을 구성하는 지하수와 해양 심층수 용량 공급조절 부,(811u)공유지 및 공유수면 매립처리조절 부,(811v)각개의 필지를 형성하고 구분화된 지번으로 우편번호를 확정 후 우편 업무 수행을 마련한 우편 업무운송조절 부,(811y)영토분쟁해소조절 부,(811z)우주발전 및 핵 방사능 오염방지의 인공위성조절 부,
(812) 농축우라늄 또는 우라늄 235,
(813)원자로압력용기,
(813a)압력 용기 덥 개,(813b)압력용기 상단 덮개 하부,(813c)압력용기 원통 덥 개,(813d)압력용기 원통 덥 개 상단,(813e)압력용기 원통 덥 개 상단부,(813f)입구노즐,(813h)디 플 렉 토 철판,(813i)공기 쳄 버실,(813j)버 플 철판,(813k)물,(813l)스 프 레이션 풀,(813m)밴 트 파이프,(813n)연료조립,(813p)압력용기 원통 덥 개 상단,하단조립부,(813q)드라이 벽,(813s)압력용기 원통 덥 개 하단조립부,(813t)압력용기 원통 덥 개 상단조립부,(813v)연료봉 철판,(813w)출구노즐,(813y)노심 지지조립,(813z)제어봉 안내관 조립 대,
(814) 가압기,(814a)스프레이노즐,(814b)가압보호용기,(814c)가압조절밸브,
(814d)스팀경계,(814e)가압용기 몸체,(814f)냉각수입구,(814g)가열기히터,
(815) 원자핵,(815a)핵 자, (815b)핵 력,
(816) 냉각재 또는 1차 계 나트륨 또는 2차 계 나트륨,(816a)냉각재입구 노즐, (816b)냉각재출구 노즐,
(817) 소음기,
(818) 기수분리기,
(819)유압탱크,(819a)열판,(819b)유면계(오일 포트 장),(819c)드 레 인(배 유 구),(819d)탱크 밑판,(819e)격판(버 플 플레이어),(819f)석 션 스 트레이너,(819g)위판 패킹(내 유 고무),(819h)흡입구 패킹,(819i)흡입구 뚜껑,(819j)탱크위판,(819k)에어 블 리 저 겸 주유구(콤비네이션 에어 블 리 저),(819l)탱크각판,(819m)청소 창 패킹(내 유 고무),(820)유압모터,(821)유압펌프,(822)로드 앤드 피스톤 시일,(823)피스톤 시일,(824)부 프 시일,(825)웨 어 링,(826)스 라 이 드 링,(827)디 유 부시,(828)오 링,(829)로드 시일,(830)백업 시일,(831)로드 시일 ＆ 백업시일,(832)다스 트 시일,(833)핀 다스 트 시일,(834)다스 트 위 프 시일,(835)부프링,(836)피스톤 링,(837)다스 트 링,
(838)고속증식로 원자로설비,
(839)등 변산 형 강 또는 부 등 변 산 형 강,(840)기상관측장비 레 이다,(841)원유(기름),(842)해저광물뜰채바스켓,(843)심해저탐색 수중조명,(844)버킷 또는 빠 레 트,(845)스 큐 르 드릴의 심해저 굴착장비용 굴착기,(846)앙 카 대체용 쇄기 크랭크,(847)착암기 또는 네트,(848)엑 츄 레 이 트,(849)해저광물 뜰채용 공기주머니,(850)턴 박 클,(851)교각용 레벨기초 밑 받침대,(852)고정용 쇄기 받침목,
(853)아 아크 용접기 또는 아르곤용접기,(853a)용접 연결선인 케이블,(853b)용접 각 장,(853d)홀더,(853e)용접봉,(853f)피복 제,(853g)모 재,(853h)용접금속, (853i)심선,(853j)가스실 드,(853k)아 아크,(853l)용융 지,(853m)피복아 아크 용접방식도,(853n)직류 아 아크 용접기,(853o)세 렌 정류 식 직류 아 아크 용접기,(853p)교류 아 아크 용접기,(853q)가동 철심형 교류 아 아크 용접기 방식도,(853r)가동 선 륜 형 용접기 방식도,(853s)조정핸들,(853t)가 포화 리 액 터 형 교류 아 아크 용접기,(853u)불활성 가스 텅 그 스 텐 아 아크 티 그 용접 방식도,(853v)알 미 늄(Aluminum) 제소형 모터 뽀 우드(Runabout)의 밑바닥을 (T IG) 용접 방식도,(853w)알 미 늄 합금 제 탱크의 MIG용접 방식도,(853x)슬래 그,
(854)파이프 랙,
(855)불도저,(855a)크 롤러형,도 저,(855b)휠 형,도 저,(855c)스트레이트,도 저,(855d)딜 터,도 저,(855e)앵글,도 저,(855f)힌 지,도 저,(855g)트리 도 저,(855h)레 이 크 도 저,(855i)하 이 드 릭 리 퍼,
(855j)도 저의 동력전달장치,
(855k)캠 기타 장치용 흡입펌프,(855l)기관,(855m)냉각계통,(855n)최종기어장치,(855o)기동 륜의 스프로킷, (855p)유동 륜의 아이 들러,(855q)조항클러치,
(856)굴 삭 기,(856a)백호,(856b)파워 셔 블,(856c)드래그 라인,(856d)어 스 드릴,(856e)크 램 셸,(856f)스키 머,(856g)리 퍼와 루터,
(857)로 더,
(858)지게차,
(859)스 크 레 이 퍼,(859a)견인 식 스 크 레 이 퍼,(859b)동력 식 스 크 레 이 퍼,(859c)에어 프 런,(859d)이 젝 트,(859e)볼,(859f)커 팅 테지,
(860)덤프트럭,(860a)트레일러,
(861)크레인 또는 기중기,(861a)기중기 구조의 각부명칭,(861b)익 스 턴 트 케이블,(861c)하중 계,(861d)브 리 들,(861e)붐 벡 스 들,(861f)메 이 로프,(861g)붐호이스트로프,(861h)상부프레임,(861i)하부프레임,(861j)호 이 스 트 로프,(861k)전방드럼,(861l)중간드럼,(861m)후방드럼,(861n)균형추,(861o)케이블 크레인,
(861p)기중기의 6개 전부장치,
(861q)갈 쿠 리 (Hook)장치,(861r)조개(Clamshell)장치,(861s)삽(Shovel)장치,(861t)긁어 파기(Drag line)장치,(861u)도량파기(Trench hoe)장치,(861v)기둥 박기(Pile driver) 장치
(862)모터 그 레이더,(862a)머플러,(862b)기관 플라이 휠,(862c)냉각팬,(862d)전후 전달 러 치,(862e)트랜스 러 치,(862f)고정기어식 변속기,(862g)주차브레이크,(862h)차등기어,(862i)트랜스 퍼 카 아 중성기어감속기,(862j)디스크 브레이크,
(862k)그 레이더의 외부구조,
(863)롤러,(863a)진동 롤러,(863b)소일 콤 팩 터,(864)노상 안전기,
(865)콘크리트 배 칭 플랜트,(865a)콘크리트 호 퍼,(865b)운반장치 차 징 차트,(865c)조정판,(865d)물 멧 처,(865e)대칭 호 퍼,(865f)스케일 프레임,(865g)저장 빈,(865h)종합벨트 컨베이어,(865i)턴 헤드,(865j)버킷 엘 리베이트,(865k)운반 시멘트 차드,(865l)조정판,(865m)기록장치,(865n)원형믹서,(865o)시멘트 사일로,(865p)스 쿠 르 컨베이어,
(866)콘크리트 피니 셔,(866a)스 쿠 르 스프레이,(866b)제1 스 크 리드,(866c)진동기,(866d)피니 싱 스 크 리드,(866e)가이드 롤러,(866f)가이드레일,(866g)마무리면,
(867)콘크리트 스 프 레 더,(868)콘크리트믹서트럭,(869)콘크리트펌프,(870)아스팔트 믹 싱 플랜트,(871)아스팔트 피니 셔,
(872)아스팔트살포기,(872a)동력 피동펌프,(872b)밸브제어,(872c)분무 바,(872d)버니,(872e)버림 관,(873)골재 살포기,
(874)쇄석기,(874a)자 이레 토리 크러 셔,(874b)새시프레임,(874c)피 더 호 퍼,(874d)진동 그리스 리 피터,(874e)파쇄 헤드 부의 1차 조 크러 셔, (874f)파쇄 실 후미의 2차 조 크러 셔, (874g)진동스크린,(874h)드럼엘리베이터,
(875)공기압축기,
(876)천공기,
(877)항 타와 항 발기,
(878)사리 채취기,
(879)준설선,
(879a)펌프준설선,(879b)버킷준설선,(879c)스 팟 드 시어,(879d)운전실 또는 조정실,(879e)레 드 시어,(879f)스 팟 드,(879g)블 러 스 트 탱크,(879h)블 러 스 트펌프,(879i)레 드,(879j)기관실,(879k)디 퍼 준설선,(879l)그래 브 준설선,(879m)버킷구동장치,(879n)후부 스 팟 드,(879o)스 팟 드 윈치,(879p)버킷,(879q)좌우의전부스 팟 드,(879r)디 퍼,(879s)윈치,(879t)닻줄창고,(879u)벨트 컨베이어,(879v)그래 브,
(880)별도의 지정 건설기계,(881),(882)파일드라이버,(882a)붐, (883) 디젤파일 해머, (884)증기 해머, (885)유압크레인,(885a)피스톤 모터,
(886)타워크레인,
(886a)가 이 데릭 구조의 각부명칭,
(886b)가 이 데릭,(886c)주 측,(886d)붐,(886e)붐 호일,(886f)턴 버클,(886g)공망,(886h)3각 데릭,(886i)주 측,(886j)붐,(886k)붐 호일,(886l)레 크,
(887)드 레 그 크레인,
(887a)드 레 그 크레인의 구조,
(887b)호 이 스 트 케이블,(887c)덤 프 케이블,(887d)버킷,(887e)하부 붐,(887f)레 터 렉 트 케이블,(887g)케이블 롤러,(887h)붐 케이블,(887i)케이블 롤러,(887j)붐 호 이 스 트 케이블,(887k)케이블드럼,(887l)케이블드럼,(887m)평행 추,
(888)클 램 셀 부착물을 가진 크레인,(888a)홀딩 라인,(888b)개폐라인, (888c)클램 셀 버킷,(888d)상부프레임,(888e)하부프레임,(888f)랙 라인,(888g)로프가이드,(888h)붐 탠 던 트,(888i)브 리 들,(888j)붐 호 이 스 트 로프,(888k)전방 드럼,(888l)후방드럼,(888m)평행 추,
(889)머 캐 덤 롤러,(890)탠덤 롤러,(891)탬 핑 롤러,(892)타이어 롤러,(893)트랙터,(894)트레일러,(895)램,(896)리드,(897)냉각수 냉 크,(898)파일,(899)헬밋,(900) 연료펌프,(901)캠,(902)연료탱크,(903)기동장치,(904)붐 전 핀,(905)캐 드 워 크,(906) 어댑터,
(907)어군탐지기 소나,
(908) 원유시추용 드릴 링 머 신의 로터리 테이블선반기계,
(909)망간 단 괴,
(910)뜰채그물,(911)흡입채집기계,(912)해저광물채취로봇,
(913) 잠망경,(914)고무풍선,(915)와이어로프 체인,
(916)이중구조 배관라인 자동 공 압 식 밸브운송장치,
(917)코 아 드릴,
(918)비이오 피 이 스키 드,(919)고무타이어,(920)버너 붐,
(921)유해적조 미생물,(922)무공해의 천연가스,
(923)공기노즐,
(924)광물채집 뚜 레 박,(925)상승기류,(926)하강기류,(927)황사먼지 또는 비누거품용 황토혼합물,
(928)이중구조블록탱크 관 교각,
(929)핵폐기물처리 이중구조블록탱크 관 교량,
(930)화학물질,(931)시멘트,(932)어족자원 확보용 그물,
(933)방재 선 또는 방제 선,(934)원유시추선,(935)시 이소 핸들용 지렛대,
(936)시추공,
(937)이중구조블록탱크 관 교량,
(938)전극 판 아노 드,(939)냉각공기방울,(940)비트,
(941)핵폐기물처리 이중구조블록탱크 해양터널 교통장치,
(942)타워크레인 시 이소 크레인 붐 대.
(943)해양 시 이소 수력발전소,
(943a)수력발전 장치용 펌프 수차,(943b)대형수력발전 장치용 펠 톤 수차,(943c)대형수력발전 장치용 프란시스 수차,
(944)대형수력발전기 시 이소 수력발전설비,(944a)수력발전장치용 회전속도 검출기,(944b)교류발전기의 전동기 계 자 코일에 전류를 공급하는 직류발전기용 여자기,(944c)고리 관 깃을 밀어 넣는 기기,(944d)상부 회전 축 받 이,(944e)회전 축 받이를 밀어넣는 기기,(944f)고정자 코일,(944g)고정자 프레임,(944h)중심부 고정자,(944i)저속냉각기,(944j)제동장치 링,(944k)제동장치 또는 잭,(944l)저속 회전축 받 이,(944m)엔진발전기,(944n)터빈 회전 축 받 이,(944o),(944p)회전 축 받 이,(944q)날개바퀴,
(945)지중선로 방재노즐 또는 공유매립지,
(946)해저선로배선 또는 공유수면매립지,
(947)부침조절장치용 콘 테 이 너 내부용의 공기투입용 고무 튜브,
(948)용광로,(948a)용광로의 노 재 벽돌,
(949)선체의 잠수 위치조절 이동장치와 잠수 부력 조절용의 납덩이 추,
(950)온도 자동감지센서용 열전 대 온도계 스위치,
(951)유해적조 흡입 집진기용의 뜰채 바스켓 또는 빠 레 토,
(952)물의 위치에너지조절장치용 무동력펌프의 수격펌프,
(953)군사장비 잠수함,
(954)레이저 컴퓨터 절단기,
(955)핵 폭탄보다 더 강한 무기의 평화 보존형 이미지 포 토 샵,
(956)수해조절장치,
(957)해양 풍력발전소,(957a)풍력발전기용 풍차,
(958)기상예보관측 레이더,
(959)삿대 대체 사용 품 돛,
(960)인공위성 일기 예보 정보 수집기계,
(961)액체연료로켓,(961a)연소실,(961b)노즐,(961c)프로 펠 렌트 분사,(961d)컨트롤 밸브,(961e)연료펌프,(961f)연료탱크,(961g)산화제 펌프,(961h)산화제 탱크,(961i)터빈을 가동시키기 위한 가스발생장치,
(962)고체연료로켓,(962a)프로 펠 렌트,(962b)점화기,(962c)연소실,(962d)단열재,(962e)노즐,
(963)평화주권선,(964)석유,(965)다이아몬드,(966)철,(967)주석,(968)석탄,(969)농기구,
(970)일체의 건설기계,(971)군수물자,(972)국경지역,(974)함선,(975)잠수함,
(976)전투기,(977)함정,(978)핵 항공모함,(979)유류송유관,
(980)가스배관,(981)금과 은,(982)핵연료,(984)유리,(985)마노,(986)호박, (987)진주,(988)위령탑,(989)국제연합국가,(990)국제연합기구,(991)원폭,(992)수소폭탄,(993)침몰선박,(994)스위치 작동용 추와 감지센서용의 무게감량용 납덩이 추에 잠수원 잠수 부력 조절용의 납덩이 추,(995)잠수정,(996)침몰선박,(997)토석채집 장의 토석매립 체,(998)연안선수역,(999)공유지 및 공유수면 매립처리 조절장치,
(1000)한반도 중심지 또는 기준점,(1001)원형 3000 칸 형태로 형성한 공유지 및 공유수면매립설계장치,(1002)군사분계선,(1003)휴전선,(1004)휴전 원,
(1005)증기발생기의 증발기 구조,
(1006)증기 출구 관,(1007)증기 출구 실 동체 외관,(1008)습도계 관,(1009)증기 출구 관,(1010)액면 계관,(1011)나트륨 냉각 계 입구 관,(1012)상부 평판,(1013)연결 봉,(1014)냉각수 누설 검출 관,(1015)2차 아르곤가스관,(1016)스커트,(1017)나선형 열교환 세관,(1018)나트륨 냉각재 출구 관,(1019)반구 형 하부동체,(1020)익 수 관,(1021)덥 개,(1022)동체 외관,(1023)나트륨 통로,(1024)나트륨-물 반응 생성물 방출 관,(1025)내관,(1026)모니터 링 입구 관,(1027)급수 입구 관 판,(1028)급수 입구 관,(1028a)급수 입구 실 외관,
(1029)핵기지,(1030)해체시설,(1031)피트의 잠정저장,(1032)M O X가공,(1033)MOX연소로,(1034)폐기물의 혼합 유리 고화 체,(1035)고준위폐기물,(1036)최종처분장,(1037)장기저장,(1038)깊은 지하동굴,(1039)플루토늄처분을 선택할 수 있는 경로,(1040)핵무기해체에서 플루토늄처분과정,
(1041)국경선,(1042)남방한계선,(1043)북방한계선,(1044)베타 적 경제수역, (1045)한중 잠정조치 수역,(1046)중국이 주장하는 직선기선,(1047)한국이 주장하는 E E Z,(1048)일본이 주장하는E E Z ,(1049)반경 1200 k m,(1050)직 경 2400 k m,(1051)한일 중간 수역,(1052)미래의 지구촌 공유지 및 공유수면매립설계,
(1053)한반도 중심지의 1°에서부터 360°의 360 칸으로 세분하여 각개의 필지,(1054)잠수정,(1055)어패류산란장,(1056)엔 엘 엘(N N L),
(1057)연안선 수역 갯 뻘 지역의 조간대,(1058)월 창(MOON),
(1059)핵분열,(1060)초전도발전기,(1061)초전도발전선,(1062)초전도체,(1063)전자기력,(1064)자기력,(1065)자기부상 고속도로,(1066)자기부상 열차,(1067)반도체,(1068)신소재,
(1069)원자로 노 재 벽돌,(1070)이산화 우라늄,(1071)연구로,(1072)동력 로,(1073)원자로증기 취 출 계통,(1074)드 레인 펌프,(1075)가열장치,(1077)핵연료공업주기,(1078)인명구조용 복원력을 구비한 선박,(1079)전자기 추진 선의 방식도, (1080)신소재의 팽 창 압 파쇄 제,(1081)고 흡수성 수지,(1082)아이 씨 이(I.C)회로,반도체와,신소재와,로 타리 실린더(랙＆ 피니 언 형 -N R P, 620)
(1083)반경 1200 km,(1083a)남북도로연결 북한착공식 건설현장,(1083b)남북도로연결 남한착공식 건설현장,(1084)지뢰 탐지기,(1085)지뢰 제거기,(1086)지뢰,(1086a)대전차지뢰,(1086b)M 14 대인지뢰,(1086c)M 16 A1대인지뢰,(1086d)수 총류탄 및 포탄,(1086e)소구경탄,(1086f)철도관련 부수기재,(1086g)M 15 대전차,(1086h)M 16 대인(도약 식),(1086i)폭풍지뢰(발목 지뢰),(1086j)M 19 대전차,(1087)동물 이동통로,(1088)지뢰제거 폭(58m),(1089)지뢰제거 제1공병여단,(1090)용지보상 서울지방국토관리청,(1091)포장도로 서울지방국토관리청,(1092)육군건설단,(1093)리 노,(1094)마인 브레이크,(1095)불(화력),(1101)거센 풍랑 파 도,(1102)티베트 고 원,(1103)몽 고 사막,(1104)만주벌판,(1105)텐 진 산맥, (1106)제트기관의 구조,(1106a)공기 흡입구,(1106b)연료 공급 구,(1106c)관, (1106d)압축기,(1106e)연소실,(1106f)터빈,(1106g)노즐,
(1107)제트기관이 나르는 작동방식,(1108)비행기,(1109)왕복운동 기관의 구조,(1110)비행기 점검모습,(1111)바이킹 1호 탐사기,(1112)지구,(1113)화성, (1114)우뭇가사리,(1115)화성 착륙선,(1116)태양,(1117),(1118),(1119),
도크 선체갑판 데 크 상단부(S D U),도크 선체갑판 데 크 중심부(S D M),도크 선체갑판 데 크 하단부(S D L),기계실 바닥표면 상단부(M F G U),기계실바닥표면(M F G), 기계실 바닥표면 하단부(M F G L),지표면 상단부(G L U),지표면(G L L),지표면 하단부(G L D), 적도전선(E L), 북극(N P), 남극(S P),
경도(longitude;ld로 칭함),위도(latitude; l t로 약칭),
분사노즐 상단부(A), 분사노즐 몸체(B), 분사노즐 하단부(C),
도로지표면 상단부(G L U), 도로지표면(G L L), 도로지표면 하단부(G L D),
펌프 몸체(PB), 펌프 몸체 수직 라인(P P V L), 펌프 몸체 수평 중심 라인(P B C L)
밸브 몸체 중심선(V B C L or P B C L),방화수수면 하단(W L D),방화수수면(WLL), 분출 수면(W L U), 해수면 상단부(S L U),해수면(S L L),해수면 하단부(S L D),
기계실 외부(Out of Mer chi ne r y Room;O M R)기계실(Merchinery Room ; M R)
기계실 내부(In of Mer chi ne r y Room ; I M R)(1) Nuclear waste disposal for offshore resources Double-structure nuclear reactor pressurized water main body,
(2) a control box of a multi-stage pump control panel, (3) a suction merging pipe, (4) a discharge joining pipe, (5) a pump isolation valve, (6) a pump backflow prevention check valve, (7) (9) double structure nozzle hose and double structure fire hose, (10) double structure firefighting nozzle,
(10a) Nominal name "50", (10f) Nominal "40", (10c) Nominal name " (10k) " 65x50 ", (10l), " 100x90 " 50 x 40 "(10 m)," 40 x 25 "
(11) Fire nozzle frame, (12) Sensing sensor, (13) Cogs, (14) Piping or nozzle piping, (15) Clearance, (16) Tilt angle, (16a) Blade propelling angle, (19) wire rope, (20) machining hole, (21) shaker lug or portable lug, (17) disaster prevention waterway,
(22) You or the various forms of jigs ("

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(23) Shackle, (24) Bolt, (25) Nut, (26) and Shash (27) (28) Flange or barrel of the hull Barking tank Inlet inlet Flange stopper for blocking access to foreign objects Wire mesh, (29) Coupling ring, (32) Gasket or rubber packing, (33) Nozzle hose equipment holder, (34) Correction tank or safety tank, (35) Coupling ring screw, (42) high performance submersible pumps, (37) pump aberrations, (38) discharge jet, (39) water film or curtain water film, (40) fire flame, (41) Basket, (43) double vinyl tent or bag, (44) elbow or tee elbow, (45) fire pump,
(46) Power supply power supply, (47) Inverter, (48) Inverter, (49) Expansion pointer, (50) Internet network, (51) (55) a wireless communication control module of a short range wireless communication device, (56) a display, (57) an electronic control device, (58) Switch input circuit, (59) Electronic control unit, (60) Electronic control unit DiSEIC, (61) Overcurrent breaker brake, (62) Power supply, (63) Display screen, (64) Analog input, (65) Digital input, (66) Switch main switch button for each pump on-off control, (67) Auxiliary switch button, (68) Computer network input, (69) (70) memory, (71) power line, (73) disaster mixer mixer, (74) double tube block piping line, (74a) inner block piping, (74b) outer block piping , (80) air compressor, (81) mobile service, (82) portable terminal, (83) low-pressure shut-off valve, (76) solenoid valve, (84) Emergency valve, (85) Pressure reducing valve, (86) First pressure check sensor, (87) Second pressure check sensor, (88) Electronic control unit, (89) , (89b) Vertical Upper Tube, (90) Ball Valve Handle, (91) Drencher Head, (92) Valve Inner Disc, (93) Emergency Siren, (94) 95) Telephone pole, (96) Transformer, (97) Reducer brushing socket, (99) Flashing warning light, (100) (102b) a thermal current generation, (102c) a thermoelectric power generation, (102d) a measurement point, (102e) a reference point,
(103a) a thermocouple thermometer switch, (103a) thermocouple thermometer configuration, (103b) side on limit, (103c) temperature 1, (103d) scale of the ammeter temperature, (103m) potential difference occurs, (103h) thermocouple and compensation wire, (103i) side on contact, (103j) thermocouple, (103k) compensation contact, (103l) (103n) Type of thermocouple, (103o) No protection tube, (103p) Protection tube, (103q) High temperature object, (103r) (103v) Stainless metal sheath, (103w) Platinum side on resistance with protective pipe, (103x) Mica, (103y) Platinum wire, (103z)
(104) Level or pressure switch, (105) Flow meter for flow rate check, (106) Power motor control module, (107) Prevention switch or switch box, (109) air hose, (110) air hose connection nipple, (111) sprinkler head, (112) reflector, (113) Or a water supply valve, (115) an underground pipe, (116) a main tower or a pylon or a block pylon, (117) a rich, (118) a rich circuit breaker,
(120) Alarm valve, (121) Test valve, (122) High pressure water pump, (123) Lever block, (124) Fire extinguisher (fire extinguisher a, fire extinguisher b, fire extinguisher c, fire extinguisher D, fire extinguisher e, fire extinguisher f) 125) chain,
(126a), a weighted accumulator (126b), a spring loaded accumulator (126c), a breather type accumulator, an accumulator (126d), and a hydraulic device (126e) 126f pressure oil, 126g rubber bag, 126h fluid chamber, 126i port valve, 126j drain plug, 126k single cylinder, 126l double acting cylinder,
(127) Piston or piston pump,
(128) fire extinguisher fixing pins, (129) bolt fasteners, (130) lifesaving tubes, (131) ropes, (132) containers, (133) Anchor bolts, (134) (137) Tugwing winch for control of water gate opening and closing with a rope or a chain wound on the fuselage, (138) cylinder, (139) (142) Vane pump or guide vane, (143) Impeller, (144) Daisy pump, (145) High pressure storage tank, (146) Propeller pump or propeller , (147) multi-stage screw air compressor and screw pump, (148) plunger pump, (148b) four axis plunger pump, (148c) radial plane pump, (149) 150) Disaster control pump control system or control system, (151) Oil cooler, (152) Manhole cover, (153) Hatch cover, (154) Fire door, (155) Gland packing, (156) (157) jet pump, (158) loess, (159) fire engine, (160) indoor fire hydrant (161) Automatic fire hydrant, (162) Hose, hanger, (163) Smoke gas, (164) Carbon dioxide of incombustible gas, (165) Reinforced steel plate, (166) Match fire (a) (167) screw tabs, (168) water inlet or fire fighting piping lines, (169) watertight holes, (170) internal coolers, (171) exhaust gas, (172) (173) gas burner or burner, (174) carbon dioxide gas, (175) halon gas, (176) helium gas, (177) pyrotechnic paraffin tape, (178) non-ignitable wire, 179) Fire hydrant (single spherical a, double spherical b), 180 plastic bag, (181) disaster air piping line, (182) rear cooler, (183) limit switch or limit switch, (184) (188) spark lighter, (188) lifeboat, (189) head tank for pressure tanks, (190) flexible high pressure hose or Hydraulic hoses, (191) inlet or hydraulic pipes,
(193) a snap ring, (195) a fan, (196) a body frame, (197) a body front reinforcing steel plate, (198) a rotating shaft, (199) (201) a stator assembly, (202) a casting frame for motor protection, (203) a terminal box, (204) a lifting bolt,
(205) terminal box cover, (206) rear rotating shaft holder, (207) rear reinforcing iron plate, (208) air gap, (209) fan cover or protective cover, (210) rotor iron core, Stator core, (212) stator winding,
(213) an activated film gas hold-up device,
(214) filter,
(215) an exhaust tower,
(216) a radioactive storage tank,
(217) a filter,
(218) a radioactivity meter,
(219) Monitoring posts,
(220) drums,
(221) isosceles-type steel,
(222) uranium mines,
(223) Yelocene,
(224) nuclear waste, (224a) solid nuclear waste, (224b) liquid nuclear waste, (224c) gas nuclear waste,
(225) Reinforced concrete mats,
(226) an engine generator, (277) a turbine spindle receiver,
(228) reprocessing plant,
(229) Conversion plant,
(230) Concentration plant,
(231) Conversion · Processing plant,
(232) Searchlight,
(233) Refineries,
(234) the air dryer, (235) the embers, (236) the flames, (237) the pillar,
(238) Double pipe structure of nuclear waste treatment of nuclear hydroelectric plant Block piping line Control side,
(239) Recirculation pumps,
(240) Pressure Control Pool,
(241) feed pump,
(242) a circulating water pump or a primary main cooling system circulation pump,
(243) coolant pump or secondary main cooling system circulation pump,
(248) crank, (249) linkage, (250), (251) speed reducer, (252) bucket, (253) 256) cable car, (257) air valve, (258) safety valve, (259) automatic valve, (260) drain valve, (261) (264) pump aberration, (265) main valve, (266) forest, (267) turbine or rotating blade, (268) flywheel, (269) suction port, (270) (272) Pump power supply, (273) Control power supply, (274) Emergency operation circuit, (275) DC power supply circuit, (276) Micro control unit, (277) (281) M / C drive signal contact output circuit (280) Motor overload signal input circuit (281) Inverter operation data input / output circuit (282) Pressure sensing circuit (283) External state input circuit Outlet pressure transmitter, (285) suction / discharge switch, (286) bed frame,
(287) a cooling water or cooling water inlet, (288) an oil separation tank, (289) an intake valve, (290) a gear drive, (291) a dryer, (292)
(293) Drain gate, (293b) Rolling gate, (293c) Design water level, (293d) Water surface, (293e) Anchor section fixing section, (293f) Fixing section, (294) (A), (b), (c), and (d) of the water tank, (295) the tank tank, (296) the gate valve, (297) the return valve, (298) the bush or throttle bush, 300 is a vibration alarm device 301 is a drain, 302 is a shut-off valve, 303 is a high-pressure ball tank, 304 is a pumping pump, 305 is a butterfly valve for controlling flow, 306 is sodium bicarbonate, (318) a hood valve, (313) a pumping port, (314) a pumping pump, (308) a Centrifugal Pump, (309) (316) a ball pushing device, (317) a flexible carriage, (318) a float switch, (319) a rear wing, (320) a scoop valve, (321) (332) jet pump, (326) gear pump, (327) wing pump, (330) separation chamber, (331) jet pump, ) Magnet Switch, (332) Nuclear Waste Gun Water, (333) building or large building, (334) balance, (335) unbalance, (336) indoor fire pump, (337) rotary pump, (338) rotary rotator, (339) priming, Suction pump, (341) axial flow pump, (342) mixed flow pump, (343) viscous pump,
(344) Double structure block of nuclear hydroelectric power plant Connection side of tank manufacturing and installation process,
344b and 344c and 342b and 344c and 342b and 344c and 342c and 342c and 342c and 342c and 342c and 342c respectively correspond to the block tank 344b and the BC tank 344b, (344f) block tanks of side (A), (344h) and (AM) sides, (344i) block tanks of (A) (ABC), triangular block tanks, (344l) bottles (ARS), triangular block tanks, (344m) AQT, triangular block tanks, (A), a triangular block tank 344o as an axis ANW, a triangular block tank 344p asymmetry triangle block tank 344q a DE tank side block tank 344r (BD) side, (344s) a block tank on the side of the other (CE) side,
(345) gland, (346) main liquid lanthanum ring packing, (347) lantern packing, (348) double gland packing, (349) droplet bush attaching packing, (350) (352) Water jacket attachment packing (352) Cooling water inlet or cooling water piping line (353) Sleeve inner cooling jacket water jacket packing (354) Inner cooling chamber of sleeve, (355) A cooling chamber,
(357) Dual structure of nuclear hydroelectric power plant Tank manufacturing process Dispensing side of installation process, (358) Gland packing Eight strand weaving, (359) Bagging, (360) Grid weaving, (361) 362 O ring, 363 Stop, 364 Middle ring, 365 Sealing cross section, 366 Seat ring, 367 Passive ring, 368 Quenching, 369 Coupling (371) a handle, (371) a handle, (372) a bulkhead, (373) an axial load in the axial direction, (374) a pressure acting on the impeller front, (376) the pressure acting on the back,
(382) rear bearing, (384) rear wing, (385) rear wing installation (377) suction pressure, (378) back pressure, (378) balance hole, (386) Impeller arrangement of multi-stage pump, (387) Order separation, (388) Order coupling, (389) Water hammer action, (390) Axle rod, (391) (392), (393) Water hammer, (394) Rooftop fire fighting cab or crane cab, (395) High and low mountains, (396) Pulse Encoder, (397) Spike (398), (399) DISC Brakes, (400) Tank for Combined Breakwater, (401) Safety Rope Net, (402) Air Compressor (Air Chamber) or gas chamber,
(403) valve, (404) valve body, (405) valve housing, (406) sluice valve, (407) packing press, (408) packing press nut, (409) valve, 414) a handle, 411 a handle nut, 412 packing, 413 a wedge gate valve, 414 a single valve, 415 a flexible valve, 416 a parallel slide valve, 417 a double disk (418) a stop valve, (419) a flange type globe valve, (420) a flange type angle valve, (421) a body, (422) a main body, (423) (425) valve seat, (426) valve handle, (427) handle, (428) covering ring, (429) packing press ring, (430) packing press, (431) 432) Dowel Bolts, (433) Packing Presser Bolts, (434) Pins, (435) Nuts for Bushing Bolts, (436) Nuts for Packing Pillow Bolts, (437) Handle Nuts, (438) ) Washers, (440) packing,
(441) a gasket, (442) a valve press, (442a) a plane press, (442b) a conical press, (442c) a spherical press, (442d)
(443) Cock 1 type (444) Cock 2 type, (445) Bronze threading main cock, (446) Cast iron flange type gland type, (447) Bronze threading gland cock, (448) 449) round cock, (450) handle cock,
(451) check valve body, (455) hotplate, (456) disk, (457) disk pin, (458) plug, (451) check valve, (452) swing type check valve, (469) Pilot valve, (461) Secondary side sensing hole, (463) Diaphragm, (464) Pilot valve, 465) Exhaust flue, (466) Main valve, (467) Main valve spring, (468) Adjusting spring, (469) Otto pressure regulating valve, (470) Screw type pressure regulating valve (a) Flanged pressure regulating valve (b)
(472) Safety valve, (473) Spring type safety valve, (474) Relief type safety valve, (475) Steam type poof spring type safety valve, (476) Valve, (478) auto water dispenser, (479) auto dispenser (a), (480) auto level regulator, (481) air vent valve, (482) (484) Refrigerant Stop Valve, (485) Refrigerant Stop Valve, (486) Packed Valve, (487) Packed Valve, (488) Packed Valve, (491) expansion valve, 491 diaphragm expansion valve, (491) bellows type expansion valve, (492) rich valve, (493) pressure regulating valve for refrigerant, (494) solenoid valve, (495) (496) water faucet, (497) exponent line, (498) before fraction, (499) ball tap,
(500) Lightning rod for hull safety preservation of marine nuclear power plant,
(501) V-shaped strainer (503) V-type strainer (504) Tube fixing metal (505) Tongue buckle part A support band 506 a support band 507 a roller support band 508 a vertical tube casting band 509 a steel spectacle band 510 a bottom band 511 a trap,
(512b) Fomatsu long fuselage faults, (512c) Long fuselage faucets, (512d) Fuselage with long fuselage, (512e), short (512e) Fomatsu fuselage with short transverse (橫) faults, (512f) type faucets, (512g) all purpose faucets, (512h) , (512j) sanitary faucet, (512k) bath water mixture before,
(513) Sanitary flash valve, (514) Parallel type bath faucet, (514a) Transverse material faucet, (514b) Transverse material faucet, (514c) (514f) Chemical tank faucet (514f) Chemical tank faucet (514g) Chemical tank faucet (514g) Chemical tank faucet (514i) Chemical tank faucet (514i) Chemical tank faucet Yanggu),
(515) Flood valve for building equipment (Fushivert), (515a) Flood valve for building equipment (type A), (515b) Flood valve for building equipment (for urinal) ,
(517) mixer valve (for 3 houses), (517a) mixing valve (exposed type), (518) hand shower, (519) head and head, (520) hand shower Shower, (521) shower set,
(522) angled thermal trap, (523) straight thermal trap, (524) bucket trap, (525) bottom bucket trap, (526) top down bucket trap, (527) (528) Impulse steam trap, (529) Faucet body, (530) Packing box, (531) Packing press, (532) Stem, (533) Handle, (534) Disc, (535) , (536) a domestic packing, (537) an aging packing, (538) a Teflon membrane,
(539) a metal with a large thermal expansion; (540) a metal with a low thermal expansion; (541) a time or level switch; (542) a low level alarm; (543) (545) alarm level switch, (546) low level switch, (547) flap, (548) sound cap, (549) check nozzle, (550) (551) float, inductance switch, (552) indicating graduation scale, (553) overflow connection, (554) vent pipe connection, (555) (556) a double vinyl open needle; (557) a solenoid valve body; (558) a cover; (559) a spool; (560) a spar packing; (561) a pilot; (563) connector, (564) manifold (L; PTY 8 "large flow type), (565) manifold (S, M 5 ownership type), (566) screw bolt, (567) (568) 2 position single, (570) 2 position double, (571) LL; central vertical type, (572) L; vertical type, (573) ) Horizontal type; M, (574) F; fitting (581) Direct piping type, (582) Base piping type, (576) Double type, (577) Double type, (575) (583) Dampers, (585) Dampers, (585) Doctor Ventilation, (585a) Doctor Ventilation Inlet, (585b) Doctor Ventilation Outlet, (586) Hot Air Balloon in Mongolia, (587) Blair Shah's Hot Air Balloon, (588) Kelly's Hot Air Balloon, (589) Steam Airship,
(590) Dual structure holding block tanks,
(591) Barge hull at the top of holding tank,
(592) Barge hull at bottom of holding tank,
(593) Supporting dock of a small marine nuclear power plant,
(594) Supporting dock of a medium sized marine nuclear power plant,
(595) a floating marine nuclear power plant,
(596) Double structure inner block tank,
(597) High tensile steels Steel plate,
(598) Double structure block tank,
(599) Double structure external block tank, (600) First auxiliary steel for block tanks, (601) Second secondary steel plate for block tanks, (602) Corner weld defects of first secondary steel and second secondary steel plate (603) Block tank Hull disassembly Portable lug connecting shaft bolt, (603a) Bolt screw thread, (604) Block tank Hull disassembly coupling Portable lug connection Disassembly coupling nut, (603b) ) Screw thread of nut,
(605) Block tank Secondary steel plate for disassembly connection Second vertical steel plate Vertical bulkhead, (606) Block tank Hull disassembly Portable lug pin Connecting shaft, (607) Block tank Hull disassembly portable lug, (608) (609) Secondary steel plate horizontal bulkheads for disassembly of hulls for block tanks, (610) Block tanks, bulkhead manholes for hull transit systems,
(611) satellite, (611a) communication satellite, (611b) weather satellite, (611c)
(612) rocket, (612a) rocket, (612b) ion rocket, (612c) plasma rocket, (612d) photon rocket, (612e) nuclear rocket,
(613) Block tank Unit Block Hull Disassembly Lug Hinge Socket, (614) Block Tank Block Unit Hull Large Flange for Disassembly, (615) Large Flange Connection Connection Shoring Hole or Rug Processing Hole (616) Mooring device Floating dock barge (616a) Tank block unit for hull balancing device Block unit Tank block Units for disassembling and disassembling the lugonging hole, (617) Block tank hull (618) Block Tank Guide rail for hull transport equipment, (619) Helicopter station, (619) Block tank unit Hydraulic rotary cylinder machine for hull breaker coupling control unit Or block unit hull drill lathe rotary cylinder machine rack & pinion type (NRP) cylinder machine,
(620) Hydraulic rotating cylinder (rotary cylinder [rack & pinion type -NR P]),
(621) Blocks Tank blocks Units for dismantling and dismounting of bands Fixtures,
(622) Block -house Tanks Block-unit, hydraulic, for shipbuilding equipment Butterfly valve,
(623) Blocks tanks Blocks unit Hydraulic cylinders for dismantling and dismounting of units Hydraulic keys,
(624) Block-hatches Hydraulic cylinders, hatches, locks for tachographs Tank blocks Hydraulic cylinders for crane units (625)
(626) Thermal Power Plant,
(627) engine control module for engine control system, (628) flagpole rubber balloon, (629) rope for rope, (630) rope knot, (631) emergency stairs, (632) , (633) Conveyor, (634) Sink prevention line, (635) Vacuum pump, (636) Tugboat, (637) Semi diving operation line, (638) Bollard, (639) Anchor 640) Anchor chains, (641) Blowers or cooling fans, (642) Heater fans for keeping air, (643) Launchers, (644) Mooring towers, (645) Electro Magnets, (646) Space rocket launchers , (647) helicopters, (648) chainblocks, (649) ocher cement mixing equipment mixer machines, (650) aerator, (651) crane boom stands, (652)
(653) uranium 239, (653a) uranium 238,
(654) water, (654a) hard water, (654b) heavy water or pressurized heavy water,
(655) a direct current that always flows only in the same direction, (656) an alternating current that is a current that changes the direction of flow each time the seesaw changes,
(657) intermediate heat exchanger or primary primary cooling system intermediate heat exchanger, (657a) secondary cooling system outlet, (657b) low temperature head, (657c) secondary cooling inlet, (657d) support plate, (657e) (657g) outer vessel, (657g) pressure vessel, (657h) thermal insulation, (657i) hothead, (657j) mixer, (657k) primary system gas inlet, (657l) primary system gas outlet, (657), (657), (657), (657), (657), (657) and (657v) hot gas cylinder, (657w) liner, (657x) insulating layer,
(658) heat exchanger,
(659) a nichrome wire which does not flow well, (660) a bulb body, (661) a base,
(662) neptunium,
(663) filament, (664) glass, (665) fluorescent discharge tube, (666) lighting tube, (667) discharge, (668) carbon rod, (669) ) Negative (indicated by minus (-)),
(671) a fuel assembly,
(672) Nuclear power plant,
(672a)
(673) The iso center axis frame,
(674) a proton,
(675) Neutron,
(676) Moderator or moderator containers,
(677) Chuukot Peninsula,
(678a), (678a), (678b), (678c), (678c), (678d), (678e), (678e) and (678f) concept of tidal power generation, respectively. (678h), 678h, 678i, 678i, 678i, 678k, 678k, 678l, 678m, 678n, (678p) Hwacheon Hydroelectric Power Plant, (678r) Soyanggang Hydroelectric Power Plant, (678s) Chungju Hydroelectric Power Plant, (678t) Chuncheon Hydroelectric Power Plant, (678p) power plant,
(678v) Cheongpyeong Hydroelectric Power Plant, (678w) Paldang Hydroelectric Power Plant, (678x) Soyanggang River, (678y) Namhan River, (678z)
(679a) a bottom wall, (679a) a bottom wall, (679b) an upstream side lock fill, (679c) a filter, (679d) (679h) water depth, (679i) hollow space, (679j) surrounding whole room, (679k) surface layer concrete, (679l) water potential energy, (679m) water kinetic energy, (679n) mechanical energy, (679p) Hydraulic power, (679q) aberration output, (679r) Generator output, (679s) Hydroelectric power generation scheme, (679t) Concept of dam power plant, (679u) screen, (679v) Ball tap valve, (679x) inlet valve, (679y) main equipment, (679z) main transformer,
(680) Dam, (680a) Reservoir or adjustment site, (680b) Intake dam, (680c) Pumping dam, (680d) Pumping system, (680e) Pumped storage power generation, (680f) Dam channel system, (680g) Dam system, (680i) pressure water tank, (680j) pressure water tank, (680k) needle, (680l) pressure water tank, (680m) water tank, (680n) water intake system, (680q) waterproofing facility, (680r) high water level, (680s) low water level, (680t) rock wall, (680u) upstream surface protection layer, (680v) drainage layer, (680w) ) Foundation rock, (680y) earth dam, (680z) rock dam,
(681) fuel cladding material, (682) sheathed or chiseled pipe,
(683) Nuclear fuel pellets,
(684) voltage, (685) power, (686) power outlet, (687) power source inlet,
(688) Reactor building or compartment building or concrete barrier, (688A) Reactor building, (688B) Turbine building, (688C) Control building, (688D) Auxiliary building, (688E) Diesel generator building, (688F) (688G) Waste building,
(689) fuel rod control, (689b) upper nozzle, (689c) fuel rod adjustment, (689d) fuel rod, (689e) spring clip assembly, (689f) lower nozzle, (689g) fuel rod (689i) hold down spring, (689j) uranium dioxide fuel pellet, (689k) gas cap, (689l) zircaloy crowding,
(692), (691) primary substations, (692) seven strands of steel wire in the center of the transmission line, (693) 54 strands of aluminum wire, (694) fuel hoses, (695) (697) middle substation, (698) large plant, (699) middle plant, (700) secondary substation, (701) small plant, (702) home (including solar house), (703 ) (704) Ultra high voltage wire balancer for cable balance cable, (705) Nuclear waste treatment pipe manufacturing process Dispense side, (706) Small diameter electric resistance weld pipe, (707) Raw material, (708) Uncoiling, (709) Level ring, (710) Side trimming, (711) Cutting and rough connection, (712) Molding, (713) Welding and internal and external bead removal, (714) Ultrasonic and vortex (715) Welding heat treatment, (716) Air cooling, (717) Water cooling, (718) Full casting, (719) Cutting, (720) Flatness test, (721) (723) intermediate loading, (724) induction heating furnace, (725) SRM, (726) hot cutting, (727) facing, (728) (730) Weight and length measuring instrument, (731) Visual and dimensional inspection, (732) Screw, (733) Metric, (734) General piping, (735) Zinc plating, (736) Zinc Steel pipe, (737) Boiler tube, (738) Cooling stand,
(744), (744), (744) Ultrasonic Flaw Test, (745) Side Tramming, (742) Cage Molding, (743) (746) Oil Pipes, (747) Large Diameter Steel Pipes, (748) Edge Milling Machines, (749) 3 Roll Bending Machines, (750) Post Bending Machines,
(751) welding, (752) inner surface welding, (753) backing fusing, (754) outer surface welding, (755) tube welding, (756) , (758) cold laminar padding, (759) marking, packing, shipment, (760) spiral welded steel pipe, (761) uncoiling, (762) structural pipe and steel pipe pile, (763) (764) Outside Brast Cleaning, (765) Inner Blast Cleaning, (766) Inner Painting, (767) First Painting, (768) Painting and Clothes, (769) ) Ultrasound and X-ray inspection,
(771) Internal transportations for marine tunnels,
(772) Nuclear or turbine generators,
(773) Non-rotating armature for atomic power generators Coils,
(774) Rotors for nuclear power generators Electromagnets Coils,
(775) Transmission line, (776) Transmission tower, (777) Opening and closing facility, (778) Boiler or kettle,
(779) steam pipe, (780) steam or strong gas high temperature high pressure steam outlet,
(781) Production power Central control room,
(782) transmission measuring room transformer room, (783) boiler operating core,
(784) atom, (785) electron,
(786) Steam dryer,
(787) Magnets,
(789) Deaerator,
(790a), a condenser relief valve (790b), a condenser safety valve (790c), a condenser body,
(791) core or nuclear fuel chamber, (791a) core support walls, (791b) fission,
(792) Drums,
(793) Reheating,
(794) Dual structure block Dust collector of tank or thermal power plant,
(795) heavy oil tank, (796) heavy oil,
(797) Oil tankers or cargo ships,
(798b) control rod drive shaft, (798c) control rod clamping plate, (798d) control rod rod, (798e) control rod guide pipe, (798f) control rod drive shaft, (798g)
(799) Radioactive waste,
(800) uranium fluoride,
(801) Plutonium,
(802) Boiling water reactor installations,
(803) Pressurized water reactor installation,
(804) Gas cooling furnace nuclear plant,
(805) Multi-purpose high temperature gas reactor installation,
(805a) The internal structure of the hot-walled pipe-type high-temperature gas furnace in which the primary cooling system is housed,
805b heat shield 805c through hole stopper 805d auxiliary circulation device 805e control rod storage 805f hold down plate 805g control rod drive device 805b heat shield 805c through-
(805h) auxiliary circulator, (805i) auxiliary heat exchanger, (805j) core support structure, (805k) prestressed concrete reactor vessel, (805l) PCRV safety valve, (805m) fuel inlet, (805n) ) He circulation, (805o) PCRV support structure,
(805p) Spherical fuel outlet pipe (805r) Boron stopper, (805s) Reflector zone control rod, (805t) Spherical fuel inlet pipe, (805p) Pebble-bed HT R- (805v) main steam pipe, (805w) gas circulator, (805x) hot gas piping, (805y) surface cooler, (805z)
(806) New conversion reactor facilities,
(807) Steam towers,
(808) lead container,
(809) purifier,
(810a) steam generator, (810a) steam outlet to the turbine generator, (810b) water nozzle, (810c) secondary cooling water, (810d) vibration suppression rods, (810e) tubing supported steel pipes, (810f) (810), (810), (810), (810), (810), (810) Generator tubing, (810o) steam generator internal fuselage,
(811) Nuclear power plant,
(811a) Nuclear power plant nuclear waste disposal unit (811b) Power production unit (811c) Traffic transportation unit of construction machine (811d) Power transmission unit for transmitting power (811e) (811f) Electronic control unit Construction machinery control unit (811g) Electronic sensor valve screw control unit (811h) Disaster prevention control unit (811i) Forest fire disaster prevention control unit (811j) (811k) Preventive measures against natural disasters, (811l) Preventive measures against natural disasters, (811m) Preventive measures against natural disasters against typhoons, (811n) Preventive measures against flood natural disasters, (811o) (811p) Prevention of landslide natural disaster prevention control (811q) Arctic fish and shellfish scattering control unit (811r) Arthropod control of fish and shellfish movement control within the tunnel (811s) (811t) Groundwater and marine sediment (811u), and (811v). After forming each parcel, the postal code is determined by the divisional number, and postal service is performed. (811y), Territorial Dispute Resolution Department (811z), Space Development And a satellite control unit for preventing nuclear radioactive contamination,
(812) enriched uranium or uranium 235,
(813) Reactor pressure vessel,
(813a) pressure vessel vessel, (813b) pressure vessel top vessel bottom, (813c) pressure vessel cylindrical vessel, (813d) pressure vessel cylindrical vessel upper, (813e) pressure vessel cylindrical vessel upper part, Nozzle, 813h, dipole iron plate, 813i, air chamber, 813j, 813k, water, 813l splash pool, 813m vant pipe, (813p) Pressure vessel Cylindrical damp top and bottom assembly, (813q) Dry wall, (813s) Pressure vessel Cylindrical dock bottom assembly, (813t) Pressure vessel Cylindrical dock top assembly, (813v) , (813w) outlet nozzle, (813y) core support assembly, (813z) control rod guide tube assembly stand,
(814) pressurizer, (814a) spray nozzle, (814b) pressure protection container, (814c) pressure regulating valve,
(814d) steam boundary, (814e) pressure vessel body, (814f) cooling water inlet, (814g) heater heater,
(815) nucleus, (815a) nucleus, (815b) nuclear power,
(816) a coolant or primary sodium or secondary sodium, (816a) a coolant inlet nozzle, (816b) a coolant outlet nozzle,
(817) Silencers,
(818) Separator,
(819) a hydraulic tank, (819a) a hot plate, (819b) an oil level meter (oil port field), (819c) drain, (819d) tank bottom plate, (819e) diaphragm (819g) Suction Sealer (819g) Gland Packing (Rubber Inner Rubber), (819h) Inlet Packing, (819i) Inlet Lid, (819j) Tank Top Plate, (819k) (820) hydraulic motor, (821) hydraulic pump, (822) rod-and-piston seal, (823) piston seal, (824) (825) a ring seal, (826) a slide ring, (827) a di-bush, (828) an O ring, (829) a load seal, (830) a backup seal, (833) piston ring, (837) piston ring, (837) piston ring, (837) piston ring,
(838) Fast breeder reactor facilities,
(839), (840) meteorological observatories, (841) crude oil, (842) submarine mineral deposit baskets, (843) underwater exploration underwater lights, (844) ) Buckets or pavers, (845) excavators for deep drilling rigs of squirrel drills, (846) wrench crank for anchorage, (847) jackhammer or net, (848) (850) turnpike, (851) level bases for bridge piers, (852) fixed wreck stands,
(853) Arc welding machine or argon welding machine, (853a) Welding cable, (853b) Welding sheet, (853d) Holder, (853e) Welding rod, (853f) Coating agent, (853g) (853i) core wire, (853j) gas chamber, (853k) arc, (853l) melting ground, (853m) covered arc welding method drawing, (853n) direct current arc welder, (853o) (853p), 853q, 853q, 853r, 853r, 853r, 853r, 853r, 853r, 853r, 853s, 853s, 853s, 853s, Actor type AC arc welder, (853u) Inert gas tungsten arc welding method, (853v) Aluminum welded (T IG) to the bottom of small motor runabout (Runabout) (853w) MIG welding method of aluminum alloy tank, (853x) slag,
(854) Pipe Racks,
(855) Bulldozer, (855a) Crawler type, DOGER, (855b) Wheel type, DOGER, (855C) Straight, DOGER, (855D) DELETER, DOGER, (855e) Angle, DOGER, 855f) Hinge, DOGER, (855g) TRIDOZER, (855H) RICH DOGER, (855i) HARD RICHER,
The power transmission device 855j,
(855k) Engine (855l) Engine, (855m) Cooling system, (855n) Final gear, (855o) Sprocket of driven wheel, (855p) Idler of fluid wheel, (855q) Provision of clutch ,
(856) excavator, (856a) backhoe, (856b) power shovel, (856c) drag line, (856d) Luther,
(857)
(858) Fork lift trucks,
(859), (859), (859), (859), (859), (859), (859) and (859) the power train, (859f) Cutting tape,
(860) dump trucks, (860a) trailers,
(861) Crane or crane, (861a) Name of each part of crane structure, (861b) Extent cable, (861c) Loadmeter, (861d) Bridle, (861e) Boomboxes, (861f) This rope, 861g, boom hoist rope, 861h upper frame, 861i lower frame, 861j hoist rope, 861k front drum, 861l middle drum, 861m rear drum, 861n) balance weight, (861o) cable cranes,
(861p) All six of the crane device,
(861q) a hook device, (861r) a clamshell device, (861s) a shovel device, (861t) a drag line device, (861u) a trench hoe device , (861v) Pile driver device
(862a) muffler, (862b) engine flywheel, (862c) cooling fan, (862d) forward and rearward transmission ridges, 862e translators, (862f) fixed gear type transmissions, ) Parking brake, (862h) differential gear, (862i) Transpercar neutral gear reducer, (862j) Disc brake,
(862k) The external structure of the radar,
(863) rollers, (863a) vibrating rollers, (863b) soil compactors, (864)
(865) Concrete Batching Plant, (865a) Concrete Hopper, (865b) Conveying Equipment Charging Chart, (865c) Adjusting Plate, (865d) Water Meter, (865e) Symmetric Hopper, (865f) 865g) storage bin, (865h) composite belt conveyor, (865i) turn head, (865j) bucket el rebate, (865k) conveying cement chad, (865l) regulating plate, (865m) recorder, (865n) circular mixer 865o) cement silo, (865p) squeegee conveyor,
(866) a concrete finisher, (866a) a squeegee spray, (866b) a first screed, (866c) a vibrator, (866d) a finishing screed, (866e) a guide roller, (866 g) Finished cotton,
(867) Concrete Spreader, (868) Concrete Mixer Truck, (869) Concrete Pump, (870) Asphalt Mixing Plant, (871) Asphalt Finisher,
(872) Asphalt Sparger, (872a) Power Driven Pump, (872b) Valve Control, (872c) Spray Bar, (872d) Bunny, (872e) Discard Pipe, (873) Aggregate Duster,
(874) a crusher, (874a) a Ziegler crusher, (874b) a chassis frame, (874c) a feeder hopper, (874d) a vibration grease repitter, (874e) ) Second crusher at the rear of the crushing chamber, (874g) Vibration screen, (874h) Drum elevator,
(875) air compressor,
(876) perforator,
(877) Hantawa Anti-erection,
(878) sowing machines,
(879) dredgers,
(879a) Pump dredger, (879b) Bucket dredge, (879c) Spades, (879d) Cab or control room, (879e) Red Sea, (879f) Spart, (879g) Blast tank, (879h) Blast pump, (879i) Red, (879j) Engine room, (879k) Dipper dredger, (879l) Grab dredger, (879m) Bucket drive, (879n) Foosepad 879o) Spat winch, (879p) bucket, (879q) left and right all spades, (879r) dipper, (879s) winch, (879t) anchor warehouse, (879u) belt conveyor, (879v) ,
(881), (882) boom, (883) diesel pile hammer, (884) steam hammer, (885) hydraulic crane, (885a) piston motor,
(886) Tower cranes,
(886a) designates the name of each part of the derrick structure,
886b is the main side of the derrick 886c, 886d is the boom 886e is the boom foil 886f is the turnbuckle 886g is the net, 886h is the triangle, 886i is the main side, 886j ) Boom, (886k) boom foil, (886l) lek,
(887) Draeg crane,
(887a) The structure of the drag crane,
(887b) hoist cable, 887c dump cable, 887d bucket, 887e bottom boom, 887f retract cable, 887g cable roller, 887h boom cable, 887i ) Cable rollers, (887j) boom hoist cables, (887k) cable drums, (887l) cable drums, (887m) parallel weights,
(888a) Clamp cell attachment, 888a Holding line 888b Closing line 888c Clamshell bucket 888d Upper frame 888e Lower frame 888f Rack line 888g ) Rope guide, 888h boom tent, 888i bridle, 888j boom hoist rope, 888k front drum, 888l rear drum, 888m parallel weight,
(899) Tandem Roller (890) Tandem Roller (891) Tamping Roller, (892) Tire Roller, (893) Tractor, (894) Trailer, (895) Ram, (896) (908) fuel pump, (901) cam, (902) fuel tank, (903) starter, (904) boom front pin, (905) (906) adapter,
(907) Fish Finder Sonar,
(908) Crude oil drilling machine rotary table lathe machine,
(909) manganese monolith,
(910) Nets, (911) Suction collecting machines, (912) Undersea mining robots,
(913) periscope, (914) rubber balloon, (915) wire rope chain,
(916) Double structure piping line Automatic pneumatic valve transport device,
(917) Coarrill,
(918) biopies skids, (919) rubber tires, (920) burner booms,
(921) harmful tidal microorganisms, (922) pollution-free natural gas,
(923) an air nozzle,
(924) Mineral picking troughs, (925) Upwind, (926) Downwind, (927) Dust for yellow dust or soap bubbles,
(928) Double structure block tank pipe Pier,
(929) Nuclear waste treatment dual structure block tank pipe bridge,
(930) chemicals, (931) cement, (932) fishing nets,
(933) Emergency or control line, (934) Crude oil drilling rig, (935) Iso handle levers,
(936) Borehole,
(937) Double structure block Tank tube bridge,
(938) electrode plate anode, (939) cooling air bubble, (940) bit,
(941) Nuclear waste treatment Double structure block tank Marine tunnel transport equipment,
(942) Tower crane at Isai Crane Boom Vs.
(943) Isai Hydro Power Plant,
(943a) Pump aberrations for hydroelectric power plants, (943b) Pelton aberrations for large hydroelectric power plants, (943c) Francis turbines for large hydroelectric power plants,
(944) Large-scale hydroelectric generator Shiiso hydroelectric power plant (944a) Rotational speed detector for hydroelectric power plant (944b) Exciter for dc generators supplying current to the motor coil of an alternator (944c) 944d is a device for pushing the rotary shaft receiver 944e is a device for pushing the rotary shaft receiver 944f a stator coil 944g a stator frame 944h a center stator 944i a low speed cooler 944j) Braking device ring, (944k) Braking device or jack, (944l) Low speed rotating shaft receiver, (944m) Engine generator, (944n) Turbine rotary shaft receiver, (944o), (944p) Rotary shaft receiver 944q) wing wheels,
(945) Underground disaster prevention nozzles or shared landfills,
(946) Subsea line wiring or shared reclamation land,
(947) Container for inflation control device Rubber tube for air supply for internal use,
(948) furnace, (948a) furnace brick,
(949) Ship's diving position control device and diving buoyancy control weight,
(950) thermocouple thermometer switch for temperature auto sensing sensor,
(951) Hatching basket or Pareto for hazardous redeye suction dust collector,
(952) Locomotives, non-power, for water,
(953) Military equipment Submarine,
(954) Laser cutting machine,
(955) Peacekeeping image of a weapon stronger than a nuclear bomb,
(956) flood control equipment,
(957) Offshore Wind Power Plant, (957a) Wind Turbine Windmill,
(958) Weather forecasting Radar,
(959) Catamaran alternative use Sail,
(960) Satellite weather forecast information collection machine,
(961), (961a), (961a), (961b), (961c) propellant injection, (961d) control valve, (961e) fuel pump, (961f) fuel tank, 961h) oxidizer tank, (961i) a gas generator for operating the turbine,
(962) solid fuel rocket, (962a) propellant, (962b) igniter, (962c) combustion chamber, (962d)
(963) Peace Sovereign, (964) Petroleum, (965) Diamond, (966) Iron, (967) Tin, (968) Coal, (969) Farm Equipment,
(970) all construction machines, (971) military materials, (972) border areas, (974) ships, (975) submarines,
(976) Fighter aircraft, (977) Trap, (978) Nuclear aircraft carrier, (979) Oil pipeline,
(988), (988) Nuclear Fuel, (982) Nuclear Fuel, (984) Glass, (985) Agate, (986) Amber, (987) Pearl, (988) (990) United Nations Organization, (991) Atomic Bomb, (992) Hydrogen Bomb, (993) Sinking Ship, (994) , (995) submersible, (996) sinking vessel, (997) landfill, (998) coastal station, (999)
(1002) Military Demarcation Line, (1003) Demilitarized Zone, (1004) Counterattack, and (1004) Common Ground and Landfill Design System,
(1005) the evaporator structure of the steam generator,
(1006) a steam outlet pipe, (1007) a steam outlet body fuselage appearance, (1008) a hygrometer pipe, (1009) a steam outlet pipe, (1010) a liquid level pipe, (1011) a sodium cooling water inlet pipe, (1013) a connecting rod, (1014) a cooling water leakage detection pipe, (1015) a second argon gas pipe, (1016) a skirt, (1017) a spiral heat exchange tubule, (1018) a sodium coolant outlet pipe, (1023), (1023) sodium channel, (1024) sodium-water reaction product discharge pipe, (1025) inner pipe, (1026) 1027) Water supply inlet pipe plate, (1028) Water supply inlet pipe, (1028a) Water supply inlet chamber appearance,
(1032) MOX processing, (1033) MOX combustion furnace, (1034) mixed glass solidification of waste, (1035) high-level waste, 1036) the final repository, (1037) long-term storage, (1038) deep underground cave, (1039) the path to choose plutonium disposal, (1040) disposal of plutonium in nuclear dismantling,
(1041) Borderline, (1042) Southern margin, (1043) Northern margin, (1044) Beta economic zone, (1045) Provisional action area in Korea, (1046) China's straight line, (1047) EEZ, (1048) Japan's claimed EEZ, (1049) a radius of 1200 km, (1050) about 2400 km, (1051) the middle of Korea and Japan, (1052)
(1053) 360 ° 360 ° from the center of the Korean peninsula. Each parcel is subdivided into parcels, (1054) submersible, (1055) fish and shell spawning ground, (1056)
(1057) Tidal flats in coastal waters, (1058) Moonwalls (MOON),
(1067) a magnetic levitation highway, (1066) a magnetic levitation train, (1067) a superconducting generator, (1061) a superconducting power generation line, (1062) a superconductor, (1063) an electromagnetic force, Semiconductors, (1068) new materials,
(1079) reactor, (1073) reactor steam extraction system, (1074) drain pump, (1075) heating device, (1077) reactor furnace, (1078) Plans for electromagnetic propulsion lines, (1080) Expansion crushers for new materials, (1081) Superabsorbent resins, (1082) IC) circuits, semiconductors, new materials, and rotary cylinders (rack and pinion type -NRP, 620)
(1083) Mine landing ceremony, (1083a) North Korean landing ceremony construction site, (1083b) North and South Korea landing ceremony construction site, (1084) Landmine detector, (1085) Landmine remover, (1086) Landmine, (1086a) Mines, (1086b) M 14 mines, (1086c) M 16 A1 anti-personnel mines, (1086d) water guns and shells, (1086e) 1086h) M 16 adults (jump mode), (1086i) storm landmines (ankle land mines), (1086j) M 19 antitank, (1087) animal transport passage, (1088) mine clearance width (58m) 1 Engineer Brigade, (1090) Paper Compensation Seoul Regional Bureau of Land Management, (1091) Pavement Road Seoul Regional Bureau of Land Management, (1092) Army Construction Team, (1093) Reno, (1094) Main Break, (1095) (1101), (1102) Tibetan highlands, (1103) Mongo desert, (1104) Manchurian plains, (1105) Tenjin mountains, (1106) Jet engine structure, (1106a) A fuel supply port 1106c, a pipe 1106d, a compressor 1106e, a combustion chamber 1106f, a turbine 1106g,
(1107), (1108) plane, (1109) structure of reciprocating engine, (1110) plane inspection, (1111) Viking 1 probe, (1112) Earth, (1113) Mars, (1115), (1115), (1115), (1115)
(SDU), dock hull deck deck center (SDM), dock deck deck bottom (SDL), machine room floor top surface (MFGU), machine room floor surface (MFG) MFGL, GLU, GLL, GLD, EL, Arctic NP, Antarctic SP,
Longitude (referred to as ld), latitude (referred to as l t)
The injection nozzle upper end A, the injection nozzle body B, the injection nozzle lower end portion C,
(G L U), a road surface (G L L), a road surface lower part (G L D), a road surface
The pump body PB, the pump body vertical line P P V L, the pump body horizontal center line P B C L,
(W L D), fire water surface (WLL), sprayed water surface (W L U), upper part of sea surface (S L U), sea surface (S L L), lower part of sea level (S L D)
Out of Merchant Room (M R) Machine Room (M R)
In the Merchant Room (I M R)

Claims (6)

In the nuclear reactor double-structure reactor facility for processing marine nuclear waste,
The double structure block tank 598 is provided with a bow and a stern connection, while a welding process is performed to the banding joint portion of the high-strength stainless steel steel plate 597 with a welding machine, a cutting tool, a drill lathe, A large flange 614 is provided at the connecting portion of the large flange 614 to form a double structure reactor assembly for pressurized water nuclear waste treatment for marine resources in the manufacturing process lathe process, Respectively,
The same dual-structure block tank 598 as the inner block tank 596 and the outer block tank 599 located outside the inner block tank 596 has the same structure as the double- ,
The pressurized water type double structure reactor installation includes a first auxiliary steel pipe 600 for a block tank and a second auxiliary steel pipe 600 for a block tank which provide a connection between the inner block tank 596 and the outer block tank 599, The first auxiliary steel pipe 600 for the block tank, the second auxiliary steel plate 601 for the block tank, the vertical partition wall 605, and the second auxiliary steel plate 605 for the block tank are provided with the horizontal partition wall 605, the horizontal partition 609, the steel beam 149, The horizontal barriers 609 and steel beams 149 and the snap holes 602 and the diaphragm manholes 610 are separately cut by a computer laser cutter and then transported to a crane. A dual structure block tank 598 welded to provide a double-walled reactor structure for pressurized water to provide nuclear waste treatment;
The body of the inner block tank 596 for manufacturing the inner block tank 596 constituting the nuclear waste treatment is moved to the inner position of the outer block tank 599 by the overhead crane 861 and the conveyor 633 And the inner block tank (596) is welded to the inside of the outer block tank (599) of the pressurized water type double structure reactor facility, (593,594,595) facilities of the power plant, and a double structure nuclear reactor for nuclear power plant,
(928), nuclear waste treatment double structure block tank pipe bridge (929), double structure block tank pipe bridge (937) and nuclear waste treatment double structure block tank A plurality of distribution sides and double structure block tanks 598 for providing nuclear waste disposal with connectionable disconnection structure connected to the tunnel traffic apparatuses 941 are connected to a double structure reactor (1) tube manufacturing process within the main body of the apparatus (1) nuclear waste disposal;
The nuclear power plant of the marine nuclear power plant (811) of the marine nuclear power plant equipment of the floating position control of the marine plant (593,594,595) of several marine nuclear power plants constituting inside the main body (1) of the pressurized water double- Hull position transfer Nuclear waste disposal for the construction of the input of the construction machine For the pressurized water double structure reactor facility,
A nuclear power generation nuclear waste treatment unit 811a, a power generation and production unit 811b, a traffic transportation unit 811c of a construction machine, and a power transmission unit 811c that constitute the inside of the nuclear power generation facility 811 of the dual structure nuclear power plant, A power transmission unit 811d, a nuclear power plant safety control production production front end 811e, an electronic control adjustment apparatus construction machine control unit 811f, an electronic sensor valve screw control unit 811g, A fire fighting natural disaster prevention control section 811j, a snowfall natural disaster prevention control section 811k, a fire natural disaster prevention control section 811h, a forest fire natural disaster prevention control section 811i, A flood natural disaster prevention control section 811n, a drought natural disaster prevention control section 811o, a landslide natural disaster prevention control section 811p, And a control unit 811q for controlling the fish and shellfish scattering of the fish, A dam control unit 811s connected to the control unit 811r for controlling the fish and shellfish scattering, a control unit 811t for controlling the supply of groundwater and deep seawater, A shared water surface embedding process control unit 811u, And a satellite control unit 811z for preventing radioactive contamination of the nuclear power plant, so as to constitute a nuclear power plant 811 inside the pressurized water type double structure reactor facility main body 1 for processing a nuclear waste.
A vertical partition wall 605 in which a partition wall manhole 610 constituting a pressurized water double structure reactor installation of the nuclear power generation facility unit 811 is formed and a communication device hydraulic cylinder door 624 provided in the horizontal partition wall 609 and an emergency stair step staff (631) The equipment consists of the transportation equipment provided by the welding process;
The plurality of stopper plates 625, which are provided as a connection structure of a traffic device at the time of repairing the inside and outside of the double structure block tank 598 constituting the pressurized water double structure reactor installation,
(597) Bending and bending machine of high-tensile strength stainless steel with bending type roller bending machine and three bending roller bending machine of press braking type bending machine of section steel bending bending machine, 625 are provided,
A plurality of inner block tanks 596 and a plurality of outer block tanks 599 of a double structure block tank 598 constituted by a cap-tight fitting assembly of a double structure block tank 598, A welding process for welding the plug-and-hold assembly of the plug plate 625 without the large-sized flange and the bolting assembly provided in an egg-shape with the upper and lower ends of the double structure block tank and the large- And the distribution system of the double structure nuclear reactor equipped with the pressurized water,
Double-structure barge hull (591) at the top of a holding tank inside the main body (1) of the pressurized water double-structure reactor facility for treatment of nuclear waste for marine resources consisting of distributing and inputting devices of the above reactor facilities is located at the upper part of the hull deck (SDU) The cranes 861 having a capacity of 5000 tons for installing the guide rails 618 to the left and right sides of the deck deck,
The transportation chain cranes 861 are positioned on the guide rail 618 at the upper end of the deck deck and the double and triple sliding hatch covers 153 are fixed to the opening and closing ports at the time of renovation,
When the lid of the semicircular stopper plate 625 is dismantled, the crane 861 is connected to the disassembly-engaging portable lug of the block tank locomotive control device formed in the double structure block tank dust collector 794, at the crane boom of the construction machine crane 861 651 and a shackle and a crane boom hook ring 652 to provide a connection with a portable lug formed in the double structure block tank dust collector 794 to move the double structure nuclear reactor processing equipment and,
The deck deck configured to feed the dual structure reactor facility is provided with several openings to allow the crane 861 to operate and to position the dual structure block tank dust collector 794, A double structure block tank dust collector 794 is provided in the inside of the hull 591 so that a nuclear waste disposal empty space is located inside a double structure nuclear reactor waste processing type dual structure reactor facility for a dual structure barge hull 591;
And a crane 861 constituting the inside of the barge hull 591. The wire rope and the shackle of the crane boom 651 of the construction machine crane 861 are connected to the disassembly- A double-walled block tank cleaner (803) is connected to the deck deck of the pressurized water reactor assembly (803) with a crane boom hook hook (652) 794), the pressurized water reactor installation 803 is positioned inside the double structure barge hull 591, and then a double structure reactor installation for a nuclear waste treatment for pressurized water for the ocean source is provided,
After the assembly of the integral stopper plate 625 of the double structure reactor installation is completed, the opening is provided with the double and triple sliding hatch covers 153 being closed by the clamping device,
In the marine nuclear power plant having the dual structure reactor facility 803, the cooling water 287 constituting the control material of the nuclear fuel explosion prevention and the hot water double structure reactor facility for the nuclear waste disposal 803) and a dual structure block tank dust collector (794) for nuclear waste disposal of the nuclear facilities of the nuclear power plant operating the nuclear power plant,
(287) of the nuclear fuel explosion-proof control product that constitutes the prevention of sinking of the pressurized water reactor facility for processing nuclear waste of the marine nuclear hydroelectric power plant, and the nuclear waste disposal to the marine nuclear hydroelectric power plant and,
In the double structure block tank dust collector constituting the prevention of fuel explosion of the marine nuclear hydroelectric power plant,
A plurality of double structure reactor facilities constituting the double structure block tank dust collector and constituting a marine nuclear power plant connected to the land;
At the connection side connected to the land constituting the marine nuclear hydroelectric power plant,
The distribution side constituting the nuclear waste treatment double structure block tank bridge water marine tunnel traffic apparatus 941 located in the ocean constituting the connection side,
A control side for providing a connection side of a hydraulic control electronic control device for preventing nuclear fuel explosion of the ocean constituting the distribution side,
A double structure barge hull (591) at the upper end of a holding tank, which is a floating dish (593, 594, 595) of several marine nuclear power plants equipped with the hydraulic control system constituting the adjusting side, and holding tanks (590) Disassembly of the block tank position shifting device from the holding tank 590 Coupling lug coupling lug pin coupling side 606, lug 607 and lug coupling side coupling bolt 603 and lug coupling side coupling disassembly nut 604), and a plurality of construction machine cranes (861) for controlling the height of the flood control ports (593, 594, 595) of the plurality of marine nuclear power plants on the respective adjustment sides.
The control side, which comprises the construction machine crane (861) constituting the regulating side and constitutes the position control of the pressurized water double-structure reactor facility for processing the nuclear waste-only nuclear waste,
(1) Double-structured nuclear reactors for processing marine nuclear waste, consisting of pressurized water nuclear waste reactors for the controlled source of marine resources (2) In addition, a pressurized water type double structure reactor facility for the treatment of nuclear waste for marine resources is provided inside,
The inner block tanks 596 and the outer block tanks 599, which are capable of disassembling and disassembling the pressurized water type double structure reactor facility for processing nuclear wastes constituting the nuclear waste storage facility, and the outer block tanks 599, The welding machine of the welding process and the upper part of the guide rail 618 located at the upper end of the deck deck are provided with the transporting bodies of the reactor facilities inside the crane 861, The dust collector (794) is equipped with double-structure reactor facilities for the pressurized water treatment of nuclear waste for marine resources,
The nuclear reactor power plant reactor double structure block tank dust collector (794) constituting the pressurized water reactor type nuclear reactor treatment facility for the marine nuclear power plant described above, the inner block tank 596 connected to the equipment and the outer block tank 599 are connected to the construction machine The nuclear waste generated from the upper end portion SDU of the double structure barge hull 591 at the upper end of the sea surface upper end portion SLU holding tank which is the connection structure of the double structure block tank 598 is collected at the lower end of the sea surface SLL SLD) By storing the nuclear waste on one side of the double structure block tank precipitator 794 at the lower end of the vacant spaces located in the double structure barge hull 592 at the lower end of the holding tank, A double structure block tank dust collector 794 is provided at the lower end of the empty space located in the double structure barge ship hull 592 at the lower end of the SLD landing tank, The disaster of the radioactive disaster is caused by the nuclear waste disposal for marine resources.
The nuclear waste discharged from the operation of the nuclear waste treatment pressurized water type double structure nuclear reactor equipped with several marine resources is provided to the dual structure block tank dust collector 794 ) Storage is provided on the lower side of the equipment,
And a double structure block tank dust collector 794 that constitutes a storage at a lower side of the lower end of the double structure block tank dust collector 794 to treat nuclear waste The inner block tank 596 connected to the double structure block tank dust collector 794 provided with control articles and the outer block tank 599 are assembled to form a double structure block tank structure, A nuclear waste disposal due to the leakage of the nuclear fuel radiation stored in the nuclear waste at the lower end of the tank dust collector 794 is prevented in advance by having the double structure block tank dust collector 794,
A dual structure block tank consisting of the dual structure block tank scrubber 794 and the inside of the main body 1 of the pressurized water reactor type nuclear reactor waste processing water source dedicated to the prevention of nuclear waste disaster in advance, For the marine resource-only nuclear waste disposal system,
Nuclear wastes are collected and stored in a plurality of inner block tank 596 and a plurality of outer block tanks 599 at the lower part of the empty space before and after a large explosion accident which constitutes a pressurized water type marine reactor installation,
A plurality of double structure block tank dust collectors 794 fixedly provided with reinforcing concrete mats 225 and steel beams 149 having a thickness of m which are put into the nuclear reactor facility of the road surface lower surface portion GLD of the double structure block tank 598, And an inner block tank (596) having an inner block tank (596), which is located inside the third wall of the nuclear fuel reactor, and a nuclear explosion control device Production,
(1) of the pressurized water type double structure reactor facility main body (1) constituting the nuclear power generation production source for the ocean source, Nuclear waste disposal The nuclear waste disposal of nuclear power plants is composed of electric vehicles, ships, space rockets and artificial satellites, equipped with electric trains connected to the marine tunnel traffic facility (941), which is a connection structure of pressurized water double structure reactor facility.
A hydroelectric power plant to be used in the production of alternative power generation power, a nuclear waste treatment double structure block tank bridge to prevent nuclear fuel explosion, a marine tunnel transport device (941), and a nuclear reactor consisting of a pressurized water double- A construction machine comprising a nuclear fuel cycle of a waste fuel industry and a marine lifting carrier to form a position shift control;
Wherein the nuclear reactor is a nuclear reactor. The method according to claim 1,
In the dual structure reactor pressurized water type nuclear waste treatment for marine resources inserted into the pressurized water double structure reactor facility constituting the nuclear waste treatment of the nuclear power plant operation,
A first wall pellet 681 of secure nuclear fuel and a covering tube 682 protecting the second wall fuel rod 689, a third wall reactor pressure vessel 813, a fourth wall containment vessel 808, (688) of the reactor building (688) composed of the fifth wall reinforced concrete mat (225) is replaced with five-layered protective walls to provide a double structure reactor body (1) Nuclear waste treatment of pressurized water type double structure reactor facility equipped with pressurized water reactor equipment constituted inside,
The double structure block tank dust collector 794 of the nuclear waste processing pipe manufacturing process distribution side 705 composed of the nuclear power generation facility unit 811 constituted inside the pressurized water type double structure reactor facility main body 1 for the marine source exclusive nuclear waste treatment, (941) and a double structural block tank dust collector (794). It is equipped with a pressurized water type double structure reactor facility in the process of manufacturing a nuclear waste treatment pipe, Constitute the operation of the nuclear waste disposal nuclear power plant;
The facilities of the regulating-side nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation in the pressurized water type double structure reactor facility for the nuclear waste treatment for marine resources constituting the nuclear power plant operation,
In the dual structure barge hull 591 at the lower end of the holding tank constituting the facility of the nuclear power plant, an unmanned robot is inserted into the SDM of the hull deck so as to prevent leakage of nuclear fuel,
At the center of a plurality of inner block tanks 596 provided in a double structure block tank dust collector 794 for preventing leakage of the nuclear fuel, nuclear waste disposal pressurized water double structure reactor facilities for nuclear operation are separately provided A pressurized water reactor installation is provided inside the pressurized water double structure reactor installation to be inserted into the crane 861 on the adjustment side,
A guide rail 618 located at the upper end portion SDU of the double structure barge hull 591 at the upper end of the strut tank constituting the pressurized water reactor installation is installed to the left and right sides of the deck deck, The position of the pressurized water reactor arrangement is provided on deck deck guide rail 618,
The conveying of the pressurized water reactor installation to the inside where the crane 861 constituting the upper end of the deck deck guide rail 618 is located,
And a double structure block tank dust collector 794 constructed by replacing five-fold protective walls inside the barge hull constituting the transportation of the pressurized water reactor installation, and a pressurized water double structure reactor equipment constituting the nuclear waste treatment,
The nuclear waste disposal and dispensing apparatus constituting the pressurized water type dual structure reactor facility is provided with the crane 861 for moving and installing the fuel explosion control dispensing and inputting apparatus,
A construction machine crane 861 for repairing the inside and outside of the marine tunnel traffic device 941 connected to the double structure block tank dust collector 794 constituting the crane 861 and the double structure block tank dust collector 794 ) Nuclear waste treatment plant Double-structured nuclear reactor facility of pressurized water manufacturing process constitutes nuclear power plant operation;
And a double structure block tank dust collector 794 constituting the nuclear power plant operation of the pressurized water type double structure reactor plant. In the control side of the operation of the pressurized water type double structure reactor plant nuclear power plant,
A double-structure large-sized sliding hatch cover 153 is provided at a position where the crane 861 constituting the control side modification of the operation of the pressurized water type double-reactor installation operates, to protect the double- and triple pressurized water double- Respectively,
(1) of the pressurized water type double structure reactor facility for the treatment of the nuclear waste for the ocean source, as the construction traffic transportation parts for adjusting the position of the regulating side constituting the double or triple pressurized water double structure reactor facility. A double structure block tank dust collector 794 on a distribution side 705 connected to a nuclear waste treatment pipe manufacturing process consisting of a nuclear power generation facility unit 811 and a nuclear power plant constructed by a pressurized water double structure reactor facility for nuclear waste treatment Wherein the process comprises the steps of:
The dual structure nuclear reactor nuclear reactor nuclear power plant double structure nuclear reactor equipped with the double structure block tank dust collector 794 constituting the nuclear power plant operation in the nuclear waste disposal water pressure type double structure reactor facility constituting the nuclear waste processing pipe manufacturing process,
(1) Reactor facilities consisting of exhaust gas outlet and inlet which are the same as the exhaust system of the exhaust gas facility which is composed of the inside of the pressurized water reactor type double reactor nuclear reactor facility A dual structure block tank pipe 794 for blocking nuclear waste and nuclear radioactive contaminants stored in the nuclear waste disposal unit 794, The rated output is 1 million kW and 700,000 kW for the separated pressurized light water reactor and the pressurized heavy water reactor. The double structure reactor type is vertical type, and the pressure vessel is a horizontal pressure tube. The operating temperature is 296 to 310 ° C. The operation pressure is 158.2 kg to 110 kg, and the fuel to be used is fuel for use of low enriched uranium and natural uranium, and the coolant 816 and the moderator 6 76), and the period of preventive maintenance for fuel replacement period is set to be one year to 1.5 years,
The construction of dual-structure nuclear reactors for marine nuclear power plants of marine nuclear power plants, the construction of dual-structure nuclear power reactors for nuclear power plants,
The nuclear radioactivity contaminants constituting the nuclear waste locating passage are,
Several temperature and pressure sensors Sensors of temperature and pressure of the safety valve Sensors with double-structure, pressurized water supply in operation When the temperature inside the facility reaches 320 degrees Celsius in high temperature and high pressure,
A dual-structure block reactor (794) in which a temperature-pressure sensor is connected to a computer in the safety control room to provide an alarm message transmission. A pressure sensor And to transmit the alarm message to the computer of the safety control room,
In the nuclear waste-treated pressurized water double-structure reactor installation having the double structure block tank precipitator 794 constituting the reactor operation of several reactor facilities in the nuclear reactor constituting the alarm message transmission,
The explosion nuclear wastes pass through the inner block piping line (74a) of each location of the pressure vessel opening to each of several temperature pressure sensing sensors and safety valves constituting the pressurized water type double structure reactor facility, Constituting the opening of the temperature-sensing sensor safety valve 472 connected with the inner block tank of the lower end of the pressure vessel 813 while the wastes are being stored;
In the outer block piping line 74b constituting the opening of the temperature-sensing sensor safety valve 472,
A flashing warning lamp 99, a pressure gauge 101, and a temperature sensor bimetal 102 and a connection structure, which are stored in an inner block tank constituting the outer block piping line 74b, And is connected to the detection sensor switch 103 and the level pressure switch 104 for controlling the flow rate check operation and the safety valve 472 of the flow rate check flow meter 105 and the pipeline line automatic pneumatic valve transport device 916, A plurality of double-structured reactor installations having a laser cutting machine and a double structure block tank dust collector 794 connected to the construction machine and the drilling machine through through holes, The safety valve 472 of the automatic pneumatic valve conveying device 916 connected to the thermocouple thermometer sensor switch 103 so as to operate the nuclear reactor constituted by the pressurized water type dual structure reactor facility, Nuclear power plants, including the operation of nuclear reactors for nuclear waste treatment,
In the nuclear waste disposal pressurized water type double structure reactor installation including the double structure block tank precipitator 794 among the reactor facilities constituting the operation of the nuclear power plant with the safety valves 472,
A double pipe structure block pipe line constituting the nuclear waste disposal pressurized water type double structure reactor facility comprises a plurality of through holes to form a double pipe structure block piping line 74 and a plurality of safety valves 472 are connected to a block piping line A double structure reactor installation for pressurized water for nuclear power generation with a marine source is provided by providing a hydraulic spanner for connecting flanges in the line 74, the bolts 24 and the nuts 25 with the gaskets 32,
On the outer wall surface of the reactor building 688 constituting the pressurized water type double structure reactor facility having the hydraulic spanner,
The nuclear waste (540) constituting the nuclear waste treatment reservoir (599) is connected to one of the double structure block tanks (598) having a diameter twice the size of the outer wall surface of the reactor building (688) Processing apparatus,
(1) of the pressurized water type double reactor reactor facility equipped with a nuclear waste disposal type double reactor reactor facility connected to a double structure block tank dust collector (794) constituting the nuclear waste disposal apparatus. And a nuclear hydro-power generation unit 811. The block pipe line has a plurality of through holes and is connected to the double pipe structure block piping line 74 A plurality of safety valves 472 are opened and a heavy water is distributed to the coolant 816 and the moderator 676 to be connected to the double structure block tank dust collector 794, Configure a processing device;
A nuclear waste disposal unit for a marine resource, a dual structural nuclear reactor facility (1), a double structure block tank dust collector (794) provided with a safe and continuous nuclear radiation leakage control of the nuclear power generation facility (811) And a nuclear waste disposal pressurized water double-structure reactor facility constituting the nuclear power plant operation is provided,
(2) for the operation of the nuclear power plant constituted by the pressurized water type double structure reactor facility main body (1) for treating the nuclear waste for marine resources,
Nuclear Waste Treatment of Marine Nuclear Waste Treatment Nuclear waste treatment of marine nuclear power plant constituting pressurized water type double structure reactor facility Nuclear radioactivity A leakage preventing electronic control device is provided,
The nuclear waste disposal apparatus 794 disposed at the upper end of the double structure block tank precipitator 794 sequentially without mixing the pressurized water double structure reactor facilities of the nuclear power plant for nuclear waste treatment constituting the leakage prevention of nuclear reactor activity of the reactor facility, A tank tank 295 is provided in a marine nuclear waste treatment type double-layer reactor facility for pressurized water,
(593,594,595) of marine nuclear power plants constructed inside the main body (1) Double-structure barge hull (591) at the upper end of the holding tank constituting the prevention of sinking of the marine nuclear power plant, And a dual structure barge ship hull 592 at the lower end of the holding tank are included in a marine nuclear power plant,
In the marine nuclear waste processing type pressurized water double structure reactor apparatus constituting the nuclear waste processing apparatus,
A connection structure composed of a steam generator 810 and a steam dryer 786 installed outside the pressure vessel 813 of the double structure block tank dust collector 794 constituting the nuclear waste disposal pressurized water double structure reactor facility is constructed In addition,
The nuclear waste-treated pressurized water double-structure reactor facility constituted by the containment vessel 808 constituting the connection structure on the fourth wall of the pressurized water type double structure nuclear reactor installation and the double structure block tank collector 794 included on the fifth wall ,
A plurality of inner block tanks 596 constituting the pressurized water type double structure reactor facility and a plurality of outer block tanks 599 are connected to each other to be connected to the mixing equipment mixer machine 649 of the distribution injector of the nuclear fuel explosion control, A coolant 816 as a fuel explosion preventive control material that is supplied to the same pressure vessel 813 as the furnace immediately before the reactor large explosion, cooling water 287 for injecting heavy water into the moderator 676, The mixing chamber 648 is provided with a mixture of loess mixtures which generate soap bubbles mixed with the mixer machine 649 into the pressurized water reactor installation, (808) to prevent the explosion of nuclear fuel due to a decrease in temperature inside the pressurized water type double structure reactor facility,
In the mixer machine 649 composed of the cooling water 287 and the loess mixtures, which are mixed with the mixer machine 649, which is a nuclear fuel explosion-proof control article constituting the nuclear fuel explosion prevention of the pressurized water double structure reactor facility for processing nuclear waste,
The fuel explosion prevention control article is put into the pressure vessel 813 at one time by having yellow soil mixtures for generating soap bubbles mixed with the coolant 287 and a mixer machine 649 composed of yellow soil mixtures, A plurality of firefighter nozzles 10 for cleaning the interior of the reactor installation cleanly after the occurrence are provided inside the pressure vessel 813 and the inside of the containment vessel 808 with the cooling water 287 Constitute the control of nuclear fuel explosion control;
A firefighter nozzle 10 is provided to be filled with cooling water 287 constituting a cleaning process inside the nuclear reactor facility without the insertion of the UAV constituting the explosion prevention of the nuclear fuel,
A nuclear waste treatment pipe manufacturing process consisting of a nuclear power generation facility 811 constituted inside the main body 1 of a pressurized water type nuclear reactor nuclear waste processing pressurized water type nuclear reactor having the nuclear waste disposal pressurized water type double reactor installation, ) And dual structural block tank dust collector (794). The double structure block tank dust collector (794) is equipped with a pressurized water type dual structure reactor facility in the manufacturing process of the nuclear waste treatment pipe (705) of the nuclear waste treatment plant manufacturing process of the nuclear power generation facility unit (811)
And a dual structure block tank dust collector 794 constituting a nuclear reactor operation of several nuclear reactor facilities in a marine nuclear waste treatment type pressurized water double reactor structure constituting a distribution side 705 of the nuclear waste processing pipe manufacturing process, Nuclear waste treatment In a pressurized water double structure reactor installation,
The cooling water 287 stored in the nuclear waste treatment tank tank 295 located at the upper end of the double structure block tank precipitator 794 sequentially without being mixed with the reactor facilities constituting the nuclear waste disposal pressurized water double- ) Mixed with the mixer machine 649 in the third wall reactor pressure vessel 813 located below the tank tank and in the fourth wall containment vessel 808 by a plurality of temperature pressure sensors And the safety valve 472 and the hatch cover 153 are opened by sensing a temperature pressure sensor,
The cooling water stored in the inner block piping 74a of the block piping line 74 at each of the upper end portions of the pressure vessel 813 of the reactor installation constituting the safety valve 472 and the hatch cover 153 is opened by the temperature pressure sensor sensing 287) and the mixer machine (649), the water tank tanks constituting the yellow soil mixture (927) generating the soap bubbles mixed with the toothpaste forms the inside of the third wall reactor pressure vessel (813) and the fourth wall containment vessel 808), and the opening and closing of the safety valve coupled with the circulating water pump (242) is provided with a screw control with an electronic sensor valve to constitute a double structure nuclear water reactor nuclear waste processing type double structure reactor facility,
The cooling water 287 and the loess mixture 927 mixed with the mixer machine 649 of the nuclear reactor facility by the adjustment of the electronic sensor valve screw constituting the opening and closing of the pressurized water type double structure reactor facility safety valve are connected to the pressure vessel The pressurized water reactor facility for processing nuclear waste constituting the transfer to the fourth protective wall containment vessel 808 and the inside of the fourth protection wall containment vessel 813,
The mixture of the cooling water and the loess mixture mixed in the mixer machine 649 constituting the pressurized water reactor for nuclear waste treatment is supplied to the inside of the reactor core 681 and the reactor core 681 through the nuclear waste treatment control cooling water and the mixer machine 649 in the interior of the pressure vessel 813 of the pressurized water type double structure reactor facility by the water supply pump 241 inside the pressure vessel 813 and the fourth protective wall The vessel 808 constitutes transfer within the pressure vessel 813 of the pressurized water dual structure reactor facility,
The mixture of the loess mixture 927 mixed with the mixer machine 649 constituting the conveying unit 808 at the same time is inputted to the pressurized water reactor installation and immediately after the earthquake has stopped the circulating water pump 242 supplies the pressurized water reactor installation In order to prepare for internal nuclear power,
A nuclear waste disposal apparatus having a double structure block tank dust collector 794 that continuously constitutes safe operation of a nuclear reactor constituting the nuclear power plant and prevents explosion of a pressurized water reactor,
A nuclear waste treatment plant consisting of a nuclear power plant 811 constituted inside the main body 1 of the pressurized water type pressurized water reactor dedicated to nuclear waste treatment for the offshore source constituting explosion prevention of the reactor facility; A marine tunnel traffic device connected to the building block tank dust collector 794,
A double structure block tank dust collector (794) having a construction machine and a lifting console as a connection structure for repairing the outside of a marine nuclear power plant, and a pressurized water double structure connected to the manufacturing process of a nuclear waste treatment pipe A marine tunnel transport device connected to the operation of a nuclear power plant, comprising a dual structure block tank dust collector (794) connected to a nuclear waste treatment pipe manufacturing process with a reactor facility;
Wherein the nuclear reactor is a nuclear reactor. The method according to claim 1,
For nuclear power plant operation of pressurized water type double structure reactor equipment constituting double-structure reactor facility for pressurized water treatment for nuclear waste treatment for ocean source,
A double structure block tank of a pressurized water type double structure reactor installation to a fifth wall, and a plurality of double structure block tank collectors 794 for storing radiation nuclear waste (224) connecting the outer wall surface of the reactor building wall to one another. The nuclear power plant of the pressurized water type double structure reactor facility which constitutes the inside of the power plant is provided,
In the nuclear power plant 811 formed before and after the operation of the nuclear power plant constituted by the coupled connection structure of the pressurized water type double structure reactor facility, nuclear fission is generated inside the pressurized water double structure reactor facility, The steam turbine 267, which rotates the steam generator 267 to produce power,
A rotary shaft for a nuclear power generator installed on the circumference of a rotary shaft 198 connecting the steam turbine 267 and the atomic power generator 772 for converting the power generated from the steam turbine 267; An electromagnet coil 774,
A nonrotating armature coil 773 for a nuclear power generator installed on the circumference of a rotating rotor electromagnet coil 774 for the nuclear power generator and a rotor 773 integrally formed with the nuclear power generator 772 and the rotary shaft 198 to the steam turbine 267, And a frame 775 for fixing the nuclear waste to the nuclear power plant 811. The nuclear power plant 811 includes a reactor body of the nuclear power plant of the land and the ocean, Nuclear waste treatment plant of the pressurized water type double structure reactor facility composed of the nuclear power generation facility unit 811 The marine tunnel communication unit connected to the distribution side 705 and the double structure block tank dust collector 794 is connected to the inside (794) Nuclear waste disposal for marine resources connected to nuclear waste treatment pipe manufacturing process Pressurized water double structure reactor facility operation ;
In the hydroelectric power plant which is alternatively constituted for the operation of the nuclear power plant at the time of renovation of the pressurized water type double structure reactor facility for ocean nuclear waste treatment,
(191) in the form of a hydraulic pressure reducer (35) for providing a kinetic energy conversion of the kinetic energy of the water with a flow rate of water, A large hydroelectric generator seeside facility 944 equipped with a large hydroelectric generator 942 having a seesaw crane boom zone 942 of a tower crane that provides a vertical rotation operation with a plurality of marine nuclear power plants (593,594,595) nuclear power plants (672) of hydroelectric power plants, and large hydroelectric generators that constitute nuclear hydroelectric power plants within the main body (1) of a pressurized water reactor type nuclear reactor waste water treatment plant for marine resources,
And a pressure reducer (35) configured to provide kinetic energy of water with a flow rate of the current to the inside of the hydroelectric power room constituting the nuclear hydroelectric operation of the nuclear power and constituting mechanical energy, so that the introduction pipe (191) In the seizure facility 944 of the large hydroelectric generator constituting the present invention,
The center shaft frame 673 constituting the large hydroelectric generator seeside facility 944 is installed in the seesaw crane boom section of the tower crane having a multi-stage entrainment type man- 942) to provide power generation facilities for generating electric power, thereby providing nuclear power to the inside of a nuclear power plant facility of a floating nuclear power plant (593,594,595) of several marine nuclear hydroelectric power plants in the ocean. Including large hydroelectric generators,
(593, 594, 595) nuclear power plants (672) of several offshore and offshore ocean nuclear hydroelectric power plants constituting the large hydroelectric generator seeside facility (944) and internal nuclear waste water treatment double- A double structure block tank dust collector included in the power generation and production unit 811b of the nuclear hydroelectric power generation facility 811 is installed as several generators for nuclear waste disposal and power generation of the nuclear reactor facility, And a power transmission unit 811d comprising a power generation and production unit 811b of the nuclear hydroelectric power plant 811 and power transformers for transmitting power,
A double structure block tank dust collector 794 constituting nuclear power plants of several nuclear reactor facilities of a nuclear power plant for nuclear power generation, In the nuclear hydropower plant composed of structural reactor facilities,
A cooling water inlet 352 of a cooling water piping line constituting a connection structure with a condenser 790 is provided under the body of the steam turbine 267 of the nuclear hydroelectric power plant 811 constituted by the pressurized water double structure reactor plant,
In front of the condenser 790 constituting the cooling water inlet 352 of the nuclear power plant 811,
And a circulation water pump 242 connected to the cooling water inlet 352 of the cooling water piping line to the piping line 169 through a water passage constituting the front of the condenser 790, A dual structural block tank dust collector 794 of a nuclear waste treatment pipe manufacturing process distribution side 705 composed of a nuclear power generation facility unit 811 constituted inside a pressurized water double structure reactor facility main body 1 for marine nuclear waste treatment, (794) Nuclear waste treatment pipe manufacturing process Nuclear waste treatment for marine resources Nuclear power plant construction for pressurized water type double structure reactor facility Including the pressurized water type double structure reactor facility of a nuclear power plant,
In a marine nuclear power generation facility constituted in a pressurized water type double structure reactor facility having a double structure block tank dust collector 794 constituting the pressurized water type double structure reactor facility,
A feed pump 241 is provided at the rear end of the condenser 790 constituting the pressurized water type double structure reactor facility and outside the reactor facility,
And a purifier (809) constituting the outside of the reactor in front of the feed pump (241) constituting the pressurized water type double structure reactor plant,
The reactor internal piping line at the front of the purifier 809 is provided with a plurality of coolant pumps 243 so that the reactor pressure vessel 813 containing the fuel of the enriched uranium 812, 798) and a pressure vessel 813 of a pressurized water type double structure reactor facility constituted outside the reactor pressure vessel 813,
When the safety device control rod 798 is installed inside the pressure vessel 813 of the pressurized water type double structure reactor facility and shaking occurs,
The control rod 798 is inserted into the pressure vessel 813 at a time so that the nuclear reactor operation of the nuclear reactor facility can be stopped urgently and the reactor facility of the nuclear hydroelectric power plant of the land and ocean and the nuclear waste- A nuclear waste treatment pipe manufacturing process of the nuclear power generation equipment section 811 constituting the inside of the reactor facility body 1 and a marine tunnel transportation device inside the dual structure block tank dust collector 794 of the distribution side 705, (794) Nuclear waste treatment plant manufacturing process Pressurized water type dual structure nuclear plant construction constituting nuclear plant operation;
The dual structure nuclear reactor facility of nuclear power plant having double structure block tank dust collector (794) for operating nuclear power of pressurized water reactor facility constituted inside pressurized water reactor nuclear reactor facility main body In the nuclear power plant of
A first wall pellet 683 of a nuclear reactor reactor constituting the pressurized water reactor installation,
The inside of the third wall reactor pressure vessel 813 which is generated by the collision of the cladding 682 constituting the cladding pipes 682 protecting the second wall fossil rod 689 before and after the earthquake,
The safety valves 472 formed with the plurality of temperature pressure sensors are opened just before the nuclear fuel explosion in the fourth wall containment vessel 808 and the nuclear waste disposal process located at the upper end of the upper end double structure block tank precipitator 794 of the pressure vessel 813 The inside of the third wall reactor pressure vessel 813 located below the water tank 295 with the loess mixture 927 mixed with the cooling water 287 stored in the apparatus water tank 295,
The safety valve 472 and the hatch cover 153 in which the plurality of temperature pressure sensors are formed immediately before the explosion in the fourth wall containment vessel 808 are opened and the inner block of the block piping line 74 of each of the upper and lower portions of the pressure vessel 813, The cooling water 287 stored in the pipe 74a and the loess mixture 927 generating the toothpaste-shaped soap bubbles mixed with the mixer machine are introduced into the third wall reactor pressure vessel 813 Cooling water 287, which is a nuclear fuel explosion-proof control product, and a mixture of loess mixtures 927 mixed with a mixer machine are put into the fourth wall containment vessel 808 at the same time into the nuclear waste disposal pressurized water type double structure reactor facility, In addition,
In the inner block pipe 74a of each of the block piping lines 74 constituting the pressurized water reactor installation,
The explosive nuclear waste 224 constituting the inner block pipe 74a passes through the inner block pipe 74a and the outer block pipe 74b is filled with cooling water And the yellow mortar mixture 927 for generating soap bubbles mixed with the mixer machine and the mixer machine is introduced into the pressure vessel 813 and the fourth protective wall containment vessel 808 through the feed pump 241, Preventive control article transport,
A dual structure block tank (598) for storing nuclear waste (224) constituting the transfer of the fuel explosion-proof control article is provided at an inner lower end position of each portion,
Nuclear waste 224 constituting the internal lower end position is moved and stored at each position of the double structure block tank 598 and the temperature pressure sensing sensor safety valve 472 connected to the inner block tank 596 of the pressure vessel 813 is opened Nuclear power plant operation of the nuclear reactor is composed of the nuclear power plant of nuclear power plant of land and ocean and the nuclear power plant of nuclear power plant (811) composed of the main body (1) The nuclear waste treatment pipe manufacturing process and the dual structural block tank 794 of the distribution side 705. In connection with the internal and external marine tunnel communication equipment, there is a pressurized water reactor facility for treating nuclear waste, Tank Dust Collector (794) Consists of a pressurized water type double structure reactor facility operation connected to the nuclear waste processing line manufacturing process;
In the nuclear power plant constituted by the pressurized water type double structure reactor facility of the nuclear power plant having the double structure block tank dust collector 794, the nuclear power plant constituting the operation of the pressurized water reactor apparatus nuclear power plant,
The outer block piping 74b of the block piping line 74 constituted by the pressurized water double structure reactor facility is connected to the inside of the nuclear waste disposal tank 295 located at the upper end of the inner block tank 596 And a yellow soil mixture 927 for generating soap bubbles in the form of toothpaste mixed with a mixer machine so that the inside of the pressure vessel 813 and the inside of the fourth protective wall container 808 ),
The cooling water constituted by the containment vessel 808 of the pressurized water type double structure reactor facility and the loess mixture 927 generating the toothpaste form soap bubbles to be mixed with the mixer machine are supplied to the nuclear fuel explosion prevention The control objects are mixed with the cooling water 287 stored in the respective portions of the inner block tank 596 and the outer block tank 599 as loess mixture 927 generating soap bubbles in the form of toothpaste, ) Is filled with the inside and outside of the nuclear reactor facility, the nuclear reactor's temperature will be lowered. The nuclear fuel explosion will stop and nuclear reactors will be stopped in an emergency, and the reactor facilities of the nuclear and hydroelectric power plants of the land and ocean, The nuclear waste water treatment pipe manufacturing process consisting of the nuclear hydroelectric power generation facility 811 inside the pressurized water type double structure reactor facility main body 1, (794) Nuclear waste treatment plant manufacturing process with pressurized water type double structure reactor facility Operation of nuclear power plant with double structure nuclear reactor facility &Lt; / RTI &gt;
In the double-walled pressurized water reactor structure of the nuclear power plant constituting the double structure block tank dust collector 794 including the nuclear operation of several reactor facilities constituting the double structure pressurized water reactor apparatus for nuclear waste treatment,
A pressure vessel 813 of the nuclear reactor facility is provided with a nuclear reactor power plant nuclear reactor constituting the pressurized water type dual structure reactor facility and a cutter or a submarine mineral collecting robot 912 for remote control in disassembling the nuclear reactor facility, When the internal fuel explosion stops, the plurality of temperature and pressure sensing sensor safety valves 472 provide full closing,
When the nuclear reactor constituting the entire safety valve 472 of the reactor installation is operated, normally,
A plurality of pressure sensors for pressure sensing in the nuclear power plant constituting the entire pressure and temperature sensing sensor safety valves 472 are installed in the submerged barge of the ocean which constitutes several reactor facilities before and after the safe operation of the reactor facility ;
In the pressurized water type double structure reactor equipment constituted in the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation in the pressurized water double structure reactor facility for the nuclear waste disposal of the marine nuclear hydroelectric power plant,
(593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear waste disposal. Nuclear waste disposal in a nuclear nuclear hydroelectric power plant. Double structure block tank dust collector (794) and nuclear waste treatment double structure block tank pipe bridge Marine tunnel access A dual structure block of nuclear waste treatment having a nuclear waste treatment dual structure block tank scrubber 794 with an adjusting side for coupling to the connecting sides of the apparatus 941. A pipe bridge of a nuclear power plant having a tank dust collector. A pressurized water reactor facility for processing nuclear waste constituting a nuclear waste treatment dual structure block tank scrubber 794 having an adjustment side coupled to the connection sides of the nuclear waste treatment dual structure block tank 794;
Wherein the nuclear reactor is a nuclear reactor. The method according to claim 1,
(861), which can be disassembled and combined in a marine vessel manufacturing plant that constitutes a pressurized water reactor for nuclear waste disposal, is equipped with a dedicated core for marine resources to control the production of a double structure block tank dust collector (794) A nuclear power plant 811 constituted by the interior of the waste water treatment pressurized water double structure reactor main body 1;
A nuclear power plant having a dual structure block tank precipitator 794 for constituting a nuclear power plant inside the main body 1 of a pressurized water type nuclear reactor waste water treatment type water nuclear reactor dedicated to the nuclear power generation facility 811, In a water reactor installation,
A nuclear power plant having a double structure block tank dust collector 794 constituting the pressurized water reactor installation, and a nuclear power plant 811 constituting the inside of the main body 1 of the pressurized water type nuclear waste treatment- A nuclear waste nuclear waste disposal unit 811a included in the nuclear waste disposal unit 811a;
Nuclear power plant operating safe and continuous nuclear power plant in Nuclear Power Plant Nuclear power plant operation to prevent nuclear fuel explosion Prevention of Nuclear Power Plant Operation in Nuclear Power Plant Replacement Power Generation (591) at the top of the holding tank constituting the holding tank, and equipped with hydropower generators located at the lower end of the barge ship hull (591) at the upper part of the holding tank, A power generation and production section 811b of the power generation facility section 811;
The nuclear power plant 811b of the nuclear power generation facility 811 has a plurality of reactor facilities and a plurality of transportation vehicles of the construction machine. A double structure block tank dust collector 794 composed of a plurality of inner block tanks 596 connected to the outer block tank 599 and a central portion of the outer block tank 599 and both front and rear portions of the outer block tank 599 are opened to connect the position movement control apparatus construction machine crane 861, The crane boom 651, the crane boom hook 652 and the conveyor 633 of the crane boom 651 and the conveyor 633 to control the position of the pressurized water reactor for nuclear waste treatment,
A construction machine crane (861) of a construction machine constituting a pressurized water reactor arrangement constituting the position shift control by the carrier, in a reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having a dual structural block tank dust collector, The dual structure block tank reactor system is equipped with a nuclear reactor waste disposal system,
(861) of the construction industry crane (861), the marine installed connection structure capable of disassembly and disassembly in the manufacturing of the industrial docking dock, 1) a traffic transportation unit 811c of a construction machine connected to a power generation and production unit 811b included in the nuclear power generation facility unit 811 constituted inside;
In the transportation transportation unit 811c of the construction machine constituting the nuclear hydroelectric power plant 811,
A control side for providing nuclear waste disposal capacity adjustment by having storage tanks of a nuclear waste disposal system of a nuclear reactor constructed inside a pressurized water double structure reactor facility main body 1 for processing an ocean source exclusive nuclear waste;
The control side of the nuclear waste hydrothermal power plant's nuclear waste treatment pressurized water type double structure reactor facility apparatus described above,
(1) is treated in a column block tank (590) of a nuclear power plant (811) constituted by a pressurized water type double structure reactor facility main body The nuclear waste treatment dual structural block tank pipe bridge 928 of the double structure block tank 598 and the double structure block tank pipe bridge 941 connected to the connection side (1) Nuclear reactor facility consisting of several nuclear reactors, which are divided into a number of nuclear reactors, and a nuclear waste disposal unit A nuclear power plant, a nuclear power plant, and a nuclear power plant.
The distribution side of the pressurized water type double structure reactor equipment constituting the discharge of the nuclear waste is,
A nuclear power plant for nuclear power generation, a nuclear power plant, a nuclear power plant, a nuclear power plant, and a nuclear power plant, A power transmission unit 811d for distributing and discharging nuclear waste;
In the power transmission unit 811d equipment for distributing the nuclear waste to constitute discharge,
Power transmission unit (811d) Nuclear waste disposal for marine resources before and after operation of nuclear reactor safety facility constituting facility Nuclear waste disposal facility of exhaust gas facility to prevent natural disaster consisting of pressurized water double structure reactor facility main body (1) (811e) of nuclear power plant safety control and management production section (811e) constituting nuclear power generation equipment section (811) constituted inside the main body (1) of pressurized water type pressurized water type nuclear waste treatment processing facility having the same exhaust gas outlet and entrance, ;
In the nuclear power plant safety control management production electric power generating unit 811e equipment constituting the nuclear power generation facility unit 811,
(688A), turbine building (688B), control building (688C), auxiliary building (688D) and diesel generator building (1) (688E), nuclear fuel building (688F), and waste building (688G). The reactor structure (688Z) is equipped with nuclear power plant buildings (688Z) The control unit 811f of the electronic control regulating apparatus is equipped with a crane boom 651 and a conveyor 651 of the position movement regulating apparatus construction machine crane 861 while the nuclear power plant of the ocean is equipped with a large- 633) transporting bodies, and electronically controlled regulating devices, each of which is provided with an electronic control regulating device having an operating control of the carrier, An electronic control regulating device construction machine control unit 811f of the nuclear hydropower generation facility 811 constituting the facility main body 1;
In the electronic control apparatus construction machine control unit 811f equipment constituting the nuclear hydropower generation facility unit 811,
Nuclear waste disposal for marine resources (2) Pressurized water type double structure reactor facility (1) Nuclear reactor consisting of internal nuclear waste disposal unit equipped with storage tanks to control the capacity of nuclear waste, Waste Treatment Pressurized water type double structure reactor facility Main body (1) Nuclear power generation facility (811) composed of inside is safe and continuous Treatment of nuclear waste for exclusive use of marine resources Pressurized water type double structure reactor facility Main body (1) Nuclear fuel explosion The barge hull 591 at the upper end of the dual structure holding tank provided with the prevention means is configured in the power generation and production unit 811b of the pressurized water type double structure reactor facility for the marine resource exclusive nuclear waste treatment;
In the barge hull 592 at the lower end of the double structure holding tank constituting the power production and production section 811b,
An electronically controlled screw control unit 811g that includes several nuclear reactor facilities of a nuclear waste disposal nuclear power plant and constitutes an electronic control unit constituting the nuclear power generation facility unit 811;
In the electronic control screw control unit 811g that constitutes the nuclear power generation facility unit 811,
The lag 607, the lug connecting side engaging bolt 603 and the lug connecting side engaging disassembling nut 604 from the holding tank 590 to the disassembling-engaging portable lug-engaging lug-pin connecting side 606 of the block tank position- And the position of the respective adjustment sides are adjusted so that the nuclear plant nuclear waste disposal unit 811a to 810a included in the nuclear power generation facility unit 811 provided inside the main body 1 of the pressurized water double- A sensor valve screw control unit 811l to constitute a nuclear reactor waste water treatment type dual structure nuclear reactor facility;
In the disaster prevention prevention and control unit 811h provided in the nuclear power plant 811,
Nuclear waste disposal for marine resources (2) Pressurized water type double structure nuclear reactor facility (1) Nuclear power plant consisting of internal nuclear waste disposal shielding tanks, equipped with regulating side to regulate nuclear waste capacity, Nuclear waste treatment Pressurized water double structure Reactor main body (1) The nuclear power generation facility (811) inside the barge ship hull (591) at the top of the dual structure holding tank which provided safe and continuous explosion prevention of the nuclear fuel explosive nuclear power plant, In the barge hull 592 at the lower end of the double structure holding tank, the power generation unit is connected to the power production facility constituting the power transmission unit 811d equipment which distributes the nuclear waste to constitute the discharge,
A disaster prevention preventive control unit 811h constituting a connection with an electronic control regulating unit constituted in the nuclear power generation equipment unit 811 by having a double structure reactor facility for a nuclear waste disposal treatment for marine resources only;
In addition to the pressurized water reactor facility constituting the connection with the disaster prevention preventive control section 811h constituting the nuclear power generation facility section 811,
The groundwater and deep sea water capacity supply regulating unit 811i, the common and shared water surface burial regulating unit 811j, A satellite control unit 811k for preventing radioactive contamination of nuclear radiation, and an electronic sensor valve screw control unit 811g for a distribution input device and a marine tunnel transportation device 941 ) And the transport equipment with the control of the position of the construction equipment for the marine source only nuclear waste treatment pressurized water type double structure nuclear reactor facility body (1) is configured to include;
The dual structure block tank dust collector 794 constituting the nuclear power generation nuclear waste processing unit 811a to the electronic sensor screw control unit 811g of the nuclear power hydroelectric power generation unit 811 has a water pressure double- For structural reactor installations,
A nuclear reactor facility is installed on both sides of the fore and aft ends of a plurality of inner block tanks 596 of the double structure block tank reactor aspirator 794 constituting the nuclear reactor facility in the crane boom section 651 of the position movement control apparatus construction machine crane 861, A crane boom hook 652 and a conveyor 633 to provide a positional control to the carrier of the pressurized water reactor installation,
A nuclear waste disposal unit for a marine resource, a dual structural nuclear reactor facility (1), a double structure block tank dust collector (794) provided with a safe and continuous nuclear radiation leakage control of the nuclear power generation facility (811) A nuclear power plant consisting of
In the double-structure reactor installation for pressurized water treatment for ocean nuclear waste,
A dual structural nuclear reactor facility for the operation of a nuclear water reactor for marine resources, a double structure reactor for nuclear power plants, and a pressurized water double structure reactor facility provided inside the dust collector,
Nuclear waste disposal Treatment of nuclear waste for marine resources constituting double-structure reactor of pressurized water type Pressurized water type double structure reactor facility is provided to freely control the amount of power generated by nuclear power generation while preventing the leakage of nuclear radiation, In addition,
The nuclear waste disposal type double-structure reactor facilities for the nuclear waste disposal for preventing the leakage of the nuclear radiation of the nuclear reactor facility are not mixed with each other, and the nuclear waste located in the upper part of the double structure block tank collector 794 The input of the waste tank 295 into the waste treatment apparatus is provided in the nuclear waste disposal pressurized water double structure reactor facility,
(593,594,595) of marine nuclear power plants constructed inside the main body (1) Double-structure barge hull (591) at the upper end of the holding tank constituting the prevention of sinking of the marine nuclear power plant, And a dual structure barge ship hull (592) at the lower end of the holding tank are included in a marine nuclear power plant,
Nuclear waste treatment dual structural block tank pipe bridge to prevent fuel explosion prevention Marine tunnel transport equipment (941)
Operation of nuclear reactors before and after renovation of pressurized water reactor facilities Operation of nuclear reactors at double-structure barge ship hull (591) equipped with hydro generators in electric power production and production of alternate- A maritime tunnel transport device 941, and a construction machine comprising the marine carriers and constituting the movement control;
Wherein the nuclear reactor is a nuclear reactor. The method according to claim 1,
The distribution side 705, which constitutes the nuclear waste treatment pipe manufacturing process included in the nuclear power generation facility unit 811,
(593, 594, 595) of several marine nuclear power plants included in the nuclear power generation facility unit (811) constituting the nuclear waste treatment pipe manufacturing process of the distribution side (705) and the floating nuclear power plant Treatment of Nuclear Waste Treatment for Nuclear Hydroelectric Power Plant in Nuclear Hydroelectric Power Plant (1) Treatment of Nuclear Waste Treatment for Nuclear Power Plant in Nuclear Hydroelectric Power Plant Nuclear waste treatment of pressurized water type double structure reactor facility of pressurized water type double structure reactor facility. A dual structure block tank bridge pier 928 and a dual structure block tank bridge 937 constituted by a block tank 598 and a dual structure block tank precipitator 794 for controlling the leakage of the nuclear activity of the connection side, Tank tube bridge (937) Includes the nuclear waste disposal system of pressurized water type double structure reactor of nuclear power plant (672) constituting disconnection side of connection side,
In the pressurized water reactor facility for nuclear waste disposal of a nuclear hydroelectric power plant having the double structure block tank dust collector 794 on the distribution side 705 constituting the nuclear waste disposal pressurized water double structure reactor facility of the nuclear power plant 672,
(593, 594, 595) hull of a marine nuclear power plant is connected to the distribution side (705, 595) hull by means of steel plates (597) of high-strength stainless steel constituted by the nuclear waste disposal pressurized water double- The double structure block tank 598 constituting the double structure block tank dust collector 794 is provided with nuclear waste treatment by the nuclear reactor facility,
An inner block tank 596 located at the center of the double structure block tank 598 constituting the nuclear waste treatment by the nuclear reactor facility and an outer block tank 599 located outside the inner block tank 596, (794) double-structure block tank dust collector (794) with cutting structure and welding process at the industrial site in the form of structure.
(600) for a block tank connected to a double structure block tank pipe bridge (937) device composed of a pressurized water double structure reactor facility nuclear waste treatment at one side of the double structure block tank dust collector (794) A dual structure block tank dust collector (794) provided with a second auxiliary steel plate (601) as a connection structure device between the cutting process and the welding process; and a connection structure at the connection side to the aft and stern connection position of the equipment (794) Includes a large flange (614) that constitutes waste treatment,
A large flange 614 positioned as a connection structure at a joint portion of a connection flange joining portion processing hole 615 of a large flange constituting a large flange 614 of a pressurized water double structure nuclear reactor for processing nuclear waste, (1) A double structure nuclear reactor facility (1) for treatment of nuclear waste for marine resources, while providing a pressurized water reactor facility manufacturing and processing process for nuclear waste of a nuclear hydroelectric power plant having a double structure block tank dust collector (794) The double structure block tank dust collector 794 on the distribution side 705 of the nuclear waste processing pipe manufacturing process of the nuclear power generation equipment unit 811 constituting the inside of the nuclear waste treatment facility is operated so as to operate the nuclear power plant with the pressurized water double- ;
In the closure iron plate 625 facility of the nuclear waste-treated pressurized water double structure reactor facility having the double structure block tank dust collector 794 on the distribution side 705 constituting the nuclear power plant operation,
(794) facilities on the distribution side (705) of the pipe making process constituting the stopper steel plate (625) equipment of the pressurized water type double structure reactor facility, and the steel plates (597) of the high- And a conveyor 633 having a ceiling crane 861 and a conveyor 633 for passing the double structure block tank dust collector 794 to the conveying process with a bending process and a cutting and conveying process sequence through the marking process, And a high-strength stainless steel plate 597 is provided with a foaming bending process machine provided with a foaming and a foaming and bending processing machines provided at each thickness of the high-strength stainless steel plate 597 constituting the equipment, , A V-type folding (b), and a round folding (c)
A double structure block tank dust collector (not shown) on the distribution side 705 of the nuclear waste processing pipe manufacturing process of the nuclear power generation facility 811 constituted inside the pressurized water type double structure reactor facility main body 1 constituting the bending process, (794), comprising a pressurized water type double structure reactor installation of a nuclear water hydropower plant, and a pressurized water double structure reactor installation of a nuclear waste disposal system;
A bending type press braking type bending machine, a bending type roller bending machine and a bending type three bending roller bending machine, which are constituted by a pressurized water double structure reactor facility for nuclear waste treatment, A bending and bending machine of a high-strength stainless steel plate 597 is provided to bend and cut a pressurized water type double structure reactor facility,
The overhead crane 861 and the conveyor 633, which are fed into the conveying process constituting the bending and cutting process of the pressurized water type double structure reactor installation,
The bending joint portion of the high-tensile stainless steel plate 597 constituting the bending and cutting process of the pressurized water type double structure reactor equipment is provided with a transporting body for controlling the welding position, and a welder, a cutting tool, a drill lathe and a cutter, Disassembly of the nuclear waste treatment plant with the welding process at the banding joint of the stainless steel plate (597) Nuclear waste treatment for marine resources Disposal of the nuclear waste treatment plant manufacturing process of the nuclear power plant (811) Side dual-structured nuclear reactor with a double structure block tank cleaner 794 on the side 705;
A nuclear waste disposal pipe manufacturing process distribution side 705 of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 on a distribution side 705 constituting a nuclear power plant with a pressurized water double structure reactor facility for nuclear waste treatment, In the pressurized water reactor facility of the United States,
A large structural block tank 598 composed of the pressurized water type double structure reactor facility, a large flange 614 as a connecting portion of a large flange 614 located at a fore and aft connecting portion of the dust collector 794, (625) is provided as a pressurized water type double structure reactor facility connection structure on the pipe manufacturing process distribution side (705) of the manufacturing and processing lathe process,
In the inner block tank 596 constituting the pipe manufacturing process distribution side 705 of the pressurized water type double structure reactor facility and the outer block tank 599 located outside the inner block tank 596, 794) Nuclear waste treatment plant internal block tank (596) with the manufacture of the manufacturing process facility In a pressurized water dual structure reactor installation,
The welding process of the pressurized water type double structure reactor facility includes a ceiling crane 861 and a conveyor 633 which are fed into the outer block tank 599 to control the positional movement of the pipe manufacturing equipment, The welding process of the reactor facilities is provided with a welding machine,
The double-structure nuclear reactor of the pressurized water type double structure nuclear reactor facility is provided with a double structure cylindrical connection structure constituting the welding machine for the welding process of the pressurized water type double structure reactor facility. ) Nuclear Waste Treatment Tube Manufacturing Process Dual Structure Block of Distribution Side (705) Nuclear Waste Treatment with Marine Dust Collector (794) Nuclear Waste Treatment of Pressurized Water Type Dual Structure Reactor Facilities Including nuclear waste disposal with reactor facilities,
In a pressurized water dual structure reactor installation 705 of a nuclear waste treatment plant manufacturing process distribution side of a nuclear hydroelectric power plant having a dual structure block tank dust collector 794 on a distribution side 705 constituting the nuclear waste treatment,
A double structure block tank dust collector 794 composed of the pressurized water type double structure reactor facility, a plurality of outer block tanks 599, a first auxiliary shape steel tank 600 for a block tank, A second auxiliary steel plate for a block tank 601, a vertical partition wall 605, a horizontal partition wall 609 and a steel beam 149. The first auxiliary steel pipe 600 for the block tank and the second auxiliary steel plate And the horizontal barriers 609 and the steel beams 149 and the snap holes 602 and the diaphragm manholes 610 are connected by a computer laser cutter to a pressurized water double structure reactor facility Respectively,
The fifth protective walls formed on the outer wall surface of the fourth protective wall containment vessel 808 are provided with the nuclear waste for the offshore source, Processed Pressurized Water Type Double Nuclear Reactor Equipment Nuclear power generation equipment part 811 constructed inside the main body 1 Nuclear waste treatment pipe manufacturing process Nuclear waste for marine resources having dual structure block tank dust collector 794 on the distribution side 705 The pressurized water type dual structure reactor facility constitutes nuclear power plant operation;
In the reactor facility of the nuclear waste treatment plant manufacturing process distributing side 705 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 constituting the nuclear power plant with the pressurized water type dual structure reactor facility,
The vertical partition wall 605 having the partition wall manhole 610 of the double structure block tank dust collector 794 constructed by the pressurized water type double structure reactor facility and the horizontal partition wall 609 are provided with the traffic device hydraulic cylinder door 624, And the step (s) 631 are provided by welding processes,
The above-mentioned transportation system hydraulic cylinder door 624 and the emergency stairs and the steps 631 are provided with marine tunnel traffic devices for distributing the double structure block tank dust collector 794 constituting the welding process, Nuclear Waste Treatment Plant Consisting of Nuclear Power Plant (811) Consisting of a Water Type Double Structure Reactor Facility (1) In the process of manufacturing a nuclear waste water treatment plant inside and outside of a marine tunnel transport device at the distribution side (705) Nuclear Power Plant Alternative Power Generation A nuclear power plant with dual structure block tank dust collector (794) equipped with hydropower generators for power generation and production constitutes a nuclear power plant with a pressurized water double structure reactor facility;
A double structure reactor (794) of a distribution side (705) constituting a nuclear power plant with the pressurized water type double structure reactor installation, and a double structure block tank collector (794) In the facility,
A double structure block tank dust collector (794) composed of the pressurized water type double structure reactor facility, a bending type bending machine of a reactor facility, a press brake type bending machine, a bending type roller bending machine, Bending type roller bending machines, bending and folding processes of high-strength stainless steel plate (597), and a pressurized water type double structure reactor facility is provided with a double structure block tank reactor facility,
In the stopper plate 625 dust collector (794) equipment constituting the pressurized water double structure reactor facility with the double structure block tank reactor facility,
A double structure block tank 598 comprising a cylindrical egg-shaped coupling structure constituting a dust collector 794 of the pressurized water type double structure reactor facility and constituted by a cap-tight coupling assembly of a double structure block tank 598, Tank 596 and a plurality of outer block tanks 599. The large flange to the dust collector 794 facility, which comprises machines of the welding process at the upper and lower ends of the block tanks, respectively, is provided with a bolting connection device, (1) of the pressurized water type double structure reactor facility (1) of the nuclear waste disposal dedicated for offshore source, which is equipped with marine tunnel traffic apparatuses for distributing the double structure block tank dust collector (794) ) Nuclear waste treatment plant in the manufacturing process Distribution side (705) Marine tunnel Inside and outside of the traffic system Renewal system Nuclear power plant connection structure Nuclear power plant Alternative power generation Manufacturing configuration operations to fulfill the original reference made of a pressurized water nuclear waste disposal facility for double structure reactor of a nuclear power plant comprising a double tank structure block dust collector (794) and;
In the pressurized water double structure reactor installation on the distribution side of the nuclear waste processing pipe manufacturing process of the nuclear power plant having the double structure block tank dust collector 794 on the distribution side 705 composed of the pressurized water type double structure reactor facility,
The double structure block tank (794) reactor double structure block tank (598) of the pressurized water type double structure reactor plant The welding process assembly of the bolting coupling assembly and the stopper plate (625) is provided with a stopper plate ) Double-structure block-type tank dust collector (794) for explosion-proof type of multiple reactor facilities composed of welding process assemblies consisting of a double-structured pressurized water reactor (1) The nuclear waste disposal and dispensing apparatus and the nuclear fuel explosion control apparatus are provided as dispensing and inputting apparatuses,
A double structure block tank dust collector 794 which is provided as a connection structure for a nuclear power plant inside and outside the marine tunnel transportation device on the distribution side 705 of the nuclear waste treatment pipe manufacturing process composed of the pressurized water type dual structure reactor facility, To construct nuclear reactors with double-walled pressurized water reactor facilities for the nuclear waste disposal of nuclear power plants;
In a pressurized water double-structure reactor installation for nuclear waste disposal of a nuclear power plant 811 of a nuclear power plant having a double structure block tank dust collector 794 on a distribution side 705 constituted by the pressurized water type double structure reactor facility,
(593,594,595) composed of a pressurized water type double structure reactor facility, and the installation position of the nuclear hydroelectric power plant (811) is set to a hydraulic cylinder machine Respectively,
The construction of the hydraulic cylinder machine is equipped with the elevator control system for flood control, the mooring device formed on the barge preventing sinking type, and the pressurized water double structure of the nuclear power plant which regulates the position of the nuclear power plant, It is designed to operate nuclear reactors that prevent explosion of reactor facilities,
In the pressurized water reactor facility for the nuclear waste treatment of the nuclear hydroelectric power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 on the distribution side 705 constituted by the pressurized water double structure reactor facility,
In the nuclear power plant 811 composed of the pressurized water type dual structure reactor facility,
A double structure block tank dust collector (794) is installed at a marine nuclear power plant to prevent the explosion of several reactor facilities in the nuclear fuel chamber to prevent environmental pollution caused by nuclear waste constituting the nuclear power generation facility unit (811). In order to secure the safety of the nuclear power generation facilities and to ensure the renovation of the reactor facilities by continuous operation, the nuclear power plant was installed and the double structure block tank dust collectors (794) of the floating nourishment readers of several marine nuclear hydroelectric power plants (593,594,595) (804) of nuclear power plant with dual structure block tank dust collector (794) equipped with hydraulic power generators for the production and production of alternate-capacity alternating-current power generation. City Nuclear Power Plant Connection Structure Nuclear Waste of Nuclear Waste Disposal Facility With the nuclear fuel cycle of the nuclear fuel industry, The nuclear waste generated from the nuclear waste water treatment plant 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 constituting the inside of the main body 1 of the pressurized water double- Operation of pressurized water type double structure reactor;
Wherein the nuclear reactor is a nuclear reactor. The method according to claim 1,
The nuclear fuel cycle of the nuclear waste fuel industry, which consists of a pressurized water type double structure reactor facility for the nuclear waste treatment of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 on the distribution side 705,
(593,594,595) Nuclear power plant (672) of several marine nuclear hydroelectric power plants constituting the nuclear fuel cycle of the pressurized water type double structure reactor facility nuclear fuel industry (672) and double body nuclear reactor equipment body A nuclear waste fuel processor 683 of the nuclear waste fuel industry of the nuclear waste processing unit of the nuclear power generation facility 811 of the nuclear power plant having the dual structure block tank dust collector 794 of the distribution side 705 constituted by the nuclear fuel waste processing unit,
Uranium 812, which constitutes the nuclear fuel cycle of the pressurized water dual-structure reactor fuel plant industry, provides for the processing of nuclear fuel 683 at the reprocessing plant 228,
In the conversion plant 229 constituting the nuclear fuel cycle of the nuclear fuel industry,
The fuel is supplied to uranium fluoride 812 and the nuclear fuel cycle of the nuclear waste fuel plant of the nuclear waste treatment facility is provided to transfer the nuclear fuel 683 to the concentrator 230,
Providing a conversion at uranium dioxide conversion plant 229, uranium fluoride 812 constituting the nuclear fuel cycle,
And a fuel rod (689) constituting processing in the state of a pellet (683) constituting a pressurized water double structure reactor plant fuel cycle,
Plutonium 801, processed at the reprocessing plant that makes up the nuclear fuel cycle,
The fuel rods 689 are prepared at the conversion / processing factory 231,
The reprocessing fuel rods 689 constituting the nuclear fuel cycle,
Again, it includes a forklift carrier that constitutes a transfer of nuclear fuel 683 to the nuclear power plant 672,
The nuclear power plant 672, the reprocessing plant 228, the concentration plant 230 and the conversion plant 229, the conversion and processing plant 231 constituting the pressurized water type double structure reactor plant nuclear fuel cycle,
(705) and a nuclear waste (224) treatment facility of the nuclear fuel industry located at the top of the floating deck deck deck of the sinking prevention type of the sinking prevention type of 40 m above the sea surface of the sea, and the inside and outside of the nuclear power plant 672 Including the fuel cycle of the pressurized water double-structure reactor facility nuclear fuel industry to prevent nuclear radioactivity pollution,
A dual structure block tank of distribution side 705 constituting inside of pressurized water type double structure reactor facility main body 1 for treatment of nuclear waste 224 constituting said pressurized water type double structure reactor facility fuel cycle, The fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal apparatus of the nuclear power generation facility 811 of the nuclear power plant having the dust collector 794 is provided,
(593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear fuel cycle. Mooring devices and diving buoyancy control devices and nuclear waste disposal devices in the nuclear power plant (672). Disassembly and disassembly is performed at the marine vessel manufacturing plant of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 at the nuclear waste disposal facility distribution side 705 of the reactor facility at the hydroelectric power generation facility 811 A nuclear fuel cycle of the nuclear waste processing facility of a possible connection structure and a nuclear fuel cycle of the nuclear fuel industry;
In the nuclear fuel cycle of the nuclear waste fuel industry constituting the nuclear waste disposal apparatus of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 constituting the nuclear power plant operation by the pressurized water reactor facility,
The double structure block tank dust collector 794 on the distribution side 705 of the nuclear waste treatment pipe manufacturing process composed of the nuclear power generation facility unit 811 constituted inside the pressurized water double structure reactor facility main body 1 for the marine source exclusive nuclear waste treatment, Nuclear waste of the nuclear waste disposal system to operate the nuclear plant of the reactor facility To construct the nuclear fuel cycle of the nuclear fuel industry, it is necessary to construct the nuclear power plant before and after the operation of the nuclear power plant. A nuclear waste disposal pipe manufacturing process consisting of a nuclear power generation facility unit 811 constituted by the inside of the structural reactor facility main body 1, and connecting structures having remote control rods for remodeling inside and outside of the traffic apparatus on the distribution side 705 (794) Nuclear waste treatment plant manufacturing process The pressurized water type nuclear reactor equipment is constructed to operate the nuclear power plant;
In the nuclear power plant 811 of the nuclear power plant operating within the main body 1 of the pressurized water type double structure reactor facility for marine nuclear waste treatment,
A nuclear power plant having a double structure block tank dust collector 794 at a distribution side 705 of a nuclear waste processing tube manufacturing process constituting the nuclear power generation facility unit 811, A nuclear waste disposal apparatus connected to the nuclear waste disposal marine tunnel transportation apparatus 941 and a nuclear waste disposal processing type dual structure nuclear reactor facility main body 1 having a position movement control with nuclear waste disposal transportation carriers, It is equipped with internal construction machinery and hydroelectric generators constructed in the production and production of alternate generation electric power for nuclear power plants to supply nuclear power plants with nuclear power plants equipped with dual structure block tank dust collectors. &Lt; / RTI &gt;
(705) constituting the nuclear waste treatment pipe manufacturing process included in the nuclear power generation facility unit (811) constituted inside the pressurized water type double structure reactor facility body (1) constituting the pressurized water type reactor facility, )silver,
(593,594,595) of several marine nuclear hydroelectric power plants constituting the pressurized water type double structure reactor facility and individual pressurized water type of the nuclear power plant constituted of the inside of the pressurized water double structure nuclear reactor facility main body (1) A double structure block tank bridge pier 928 and a dual structure block tank bridge 937 constructed of a nuclear waste treatment dual structural strut block tank 590 and a nuclear waste treatment dual structural block tank 598 of a dual structure reactor installation, A dual structure block tank dust collector 794 for controlling the nuclear radiation leak at the connection side,
And a pressurized water double structure reactor facility for nuclear waste disposal of a nuclear power plant 672 constituting a disassembly coupling side connection side of a double structure block tank bridge 937 constituting the double structure block tank precipitator 794,
The fuel cycle distribution side (705) of the nuclear fuel industry located at the top of the deck deck of a flood prevention type barge deck 40 m above sea level in the ocean; and
Nuclear waste (224) treatment and distribution facility, comprising a nuclear fuel cycle of a nuclear fuel pollution prevention nuclear fuel pollution reactor, which is comprised of inside and outside of a nuclear power plant (672)
A double structure block tank dust collector 794 on the distribution side 705 constituting the inside of the pressurized water type double structure reactor facility main body 1 for processing the nuclear waste 224 constituting the fuel cycle, The fuel cycle of the nuclear waste fuel industry of the nuclear waste disposal unit of the nuclear power generation facility (811) of a nuclear power plant is provided in the pressurized water double structure reactor facility,
(593,594,595) of several marine nuclear hydroelectric power plants constituting the nuclear fuel cycle in the pressurized water type double structure reactor facility, and the mooring device, diving buoyancy control device and nuclear waste treatment device carrier and reactor facility The nuclear power plant 811 of the nuclear power plant having the double structure block tank dust collector 794 of the nuclear waste treatment facility distribution side 705 of the reactor facility at the nuclear power generation facility 811 before and after the safe operation of the reactor facility, The reactor is equipped with a nuclear fuel cycle of a nuclear waste treatment facility consisting of a connection structure capable of disassembling at a manufacturing plant, and is constructed to operate the nuclear power plant with a pressurized water type double structure reactor facility for nuclear waste treatment;
The nuclear waste fuels constituting the nuclear waste disposal apparatus of the nuclear power generation facility 811 of the nuclear power plant having the double structure block tank dust collector 794 of the distribution side 705 constituting the nuclear power plant operation by the pressurized water type double structure reactor facility, In the nuclear fuel cycle of industry,
(811) consisting of nuclear reactor facilities of nuclear and marine nuclear power plants constituting the nuclear fuel cycle of the nuclear waste fuel industry, and nuclear water reactor type double reactor nuclear reactor facility (1) Nuclear waste in the nuclear waste treatment plant Nuclear waste in the nuclear waste processing unit that constitutes the fuel cycle of the nuclear fuel industry Nuclear power plant operation in the nuclear power plant constituting the fuel cycle of the nuclear fuel industry A post-configuration step; and
Nuclear waste disposal for marine resources Nuclear waste treatment plant consisting of pressurized water type double structure reactor facility (1) Nuclear power generation facility consisting of internal nuclear power generation facility (811) Remodeling inside and outside of transportation device at distribution side (705) (794) Nuclear waste treatment plant manufacturing process comprising pressurized water reactor plant with connection structure with control roast;
A nuclear power plant is constructed by constructing a holding block tank (590) constituted by the sea depth by a pressurized water reactor facility in the unit of the depth of the sea surface (SLL)
(593, 594, 595) nuclear power plants (672) of several marine nuclear hydroelectric power plants of the ocean in the nuclear waste treatment section (811a) constituting the nuclear power generation facility section (811) (1) Nuclear Reactor Installed in the Nuclear Power Plant Operation In the rotary table lathe machine 908 of the drilling machine,
A boom boom of a crane boom of an overhead crane 651 located at the upper end of the drilling machine room with a crude oil at the time of crude oil connected to a plurality of pipe racks 854 constituting a rotary table lathe machine 908 of a drilling machine, A boom hook (652) and a wire rope (19) are connected to each other,
The pipe rack 854 in the excavation preparation standby state constituting the mooring unit in the crude oil double-wall reactor-equipped double-walled reactor installation,
A plurality of pipe racks 854 provided as connection structures of the sea level lower end SLD of the sea level SLL constituting the pipe rack 854,
The core drill 917 constituting the pressurized water type dual structure nuclear reactor facility pipe rack 854 is,
A double-structure reactor installation 913 of a pressurized water type double structure reactor core 917 is provided with a drilling hole 936 while a drill 917 is installed at an excavation hole 936 provided at a joint structure with a core drill 917, A construction machine operation connection structure mounted on each of the strut block tank upper barge hulls provided with a crank 846 and provided as a connection structure at the position of the hydraulic cylinder machine 624 and the key bed 616, Prevention line 634 of the mooring unit that constitutes the line distribution input,
The rotary table lathe machine 908 of the crude oil-boring drilling machine, which is located in the connection structure inside the drilling machine machine room constituting the lower end of the overhead crane 651 constituting the sinking prevention retention line 634,
And a plurality of hydraulic cylinder keys 623 for drilling located at the center portion opposite to the circular table line constituting the rotating body of the rotary table lathe machine 908,
And a plurality of hydraulic cylinders 623 for drilling, which are connected to each other at a line center portion of the line, and are provided with several keys 623,
A rotary table lathe machine 908 of a drilling machine for drilling oil for crude oil, constituting the position shift control of the line-opposing central portion, is moved to a position opposite to the center line position, and the position of the connection structure And a rotary table lathe machine (908) for connecting the rotary table lathe,
A plurality of pipe racks 854 are continuously provided at a central position by a rotating body connection structure constituting the rotary table lathe machine 908, and several pipes (not shown) provided at a point of a crude oil borehole 936, And has a rack 854 as a connection structure and has a connecting structure positioned as a choke bar position connecting structure at the time of crude oil so as to have a crude oil bore hole 936 as a rotary shaft core drill 917 for excavating a hole of a crude oil bore hole 936 A nuclear waste disposal reactor type reactor nuclear plant operating apparatus of a nuclear waste disposal unit 811a constituted inside a main body 1 of a pressurized water double structure reactor facility for marine nuclear waste treatment,
A helicopter stop 619 positioned as a deck deck upper center peripheral connection structure constituting peripheral equipment of the block steel towers 116 of the nuclear waste disposal apparatus constituting the nuclear power plant is provided as a pressurized water reactor facility for nuclear waste disposal and,
A satellite launch pad 643 and a space rocket launch pad 646 of a space rocket 612 are provided to provide a positioning position for a safety control room left side connection structure constituting a deck deck peripheral equipment of the block pylon 116 A nuclear waste disposal reactor facility nuclear reactor operating device of the nuclear waste disposal unit 811a constituted around the satellite launching platform 643 and the space rocket launching platform 646 is provided as a pressurized water double structure reactor facility for nuclear waste disposal,
The nuclear reactor plant of the nuclear power plant constituting the upper part of the deck deck of the block pylon 116 is provided with the satellite launching platform 643 and the space rocket launching platform 646, And the natural loess soil 158 is connected to the upper part of the floating deck deck deck, which is located at the connection structure, with the submarine line wiring 946 as a connecting structure constituting the inside of the deodorizing microorganism 921, , &Lt; / RTI &
And a natural loess soil (158) of a loess mixture which generates toothpaste-form soap bubbles mixed with a fire extinguishing control product cooling water composed of a connecting structure provided at the top of a deck deck of the block steel towers (116) by a mixer machine, (921) breeding prevention,
The natural loess (158) of the loess mixture, which generates soap bubbles in the form of a dentifrice mixed with a fire control control supply coolant with a mixer machine, is fed to the top of the floating deck deck deck comprising the loess mixture (158) Respectively,
The countermeasure for preventing harmful red tide in the seabed constituting the harmful tidal microorganism 921 to prevent the propagation of the harmful tidal microorganisms 921 occurring in the seabed constituting the natural loess soil 158 of the loess mixture at the upper deck deck of the block pylon 116,
A natural yurt 158 is inserted into the yatch basket 951 of the harmful redeye suction dust collector constituting the harmful red tide to prevent propagation of the harmful tide, and the yatch basket 951 constituting the input of the natural loess 158 according to the depth of the sea floor, / RTI &gt;
The harmful redeye microbes 921 are stored by the harmful redeye suction dust collector constituting the greeneyed basket 951 so that the harmful redeye microbes 921 are removed by the natural yellow soil 158 inside the greeneyed basket 951, The reactor is equipped with a pressurized water reactor,
At the bottom of the body bottom constituting the removal of the harmful tidal microorganism (921), the natural loess soil (158)
The harmful tidal microorganism 921 is replenished with natural loess soil 158 on the seabed by a moving tackle winch 137 constituting a position control,
A seesaw crane boom girder 942 of a tower crane for substituting for a quarrel constituting the tuna winch 137, a wire rope 19 and a wire rope chain 915, 135,
In the nuclear power plant (811) of the reactor facility of nuclear power plant which is composed of nuclear power plants of nuclear power plants of the land and sea and nuclear power plant of the nuclear power plant, Waste Treatment Tube Manufacturing Process Dual structure block tank (794) on the distribution side (705) Nuclear power plants constituting the operation of the nuclear power plant Several nuclear reactors before and after the failure,
An apparatus for constructing a nuclear reactor with a nuclear fuel cycle of a nuclear fuel industry connected to a nuclear waste disposal marine tunnel transportation device 941 to operate a nuclear reactor reactor with a pressurized water reactor for nuclear waste treatment,
A construction machine equipped with nuclear waste disposal trucks,
Nuclear Reactor Alternative Power Generation Nuclear Reactor Dual Reactor Reactor Facility with Nuclear Fuel Cycle for Nuclear Fuel Industry and Equipments for Removal of Harmful Reduced Microorganism (921) in Nuclear Waste Treatment;
Wherein the nuclear reactor is a nuclear reactor.

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