KR20080080259A - Structure of movable nuclear power plant barge system and construction method thereof - Google Patents

Abstract

A plant structure of a movable nuclear power generation system and a construction method thereof are provided to protect the power generation system from external shock such as an earthquake by constructing the power generation system on a barge module having shock absorbers. A plant structure of a movable nuclear power generation system includes a power generation module(100), a barge module(200), a plurality of shock absorbing modules(300), and a plurality of fixing modules. The power generation module generates electricity by using nuclear fuel and transmits the generated electricity. The barge module is constructed at one side of the power generation module and has a predetermined size. The plurality of shock absorbing modules are protrusively constructed on side surfaces and a lower surface of the barge module to absorb external physical shock. The plurality of fixing modules are constructed at one side of an upper surface of the barge module to fix the barge module in a designated position.

Description

STRUCTURE OF MOVABLE NUCLEAR POWER PLANT BARGE SYSTEM AND CONSTRUCTION METHOD THEREOF

The present invention relates to a mobile nuclear power generation system, and in particular, the construction of the ground site during the construction of the nuclear power generation system by assembling a power generation module that generates and transmits electricity of a predetermined capacity using nuclear fuel in a barge module, so that the entire process is performed. The present invention relates to a plant structure and a construction method of a mobile nuclear power generation system, which reduces the time required, facilitates the movement and replacement of the nuclear power generation system, and facilitates protection from external shocks.

A power plant is equipped with a prime mover, a generator, and an attached machine to generate electric power. A system that converts the flow of energy from a predetermined fuel into mechanical energy and then generates converted power using electromagnetic induction. ) It is a facility.

The power plants are classified into hydroelectric power, thermal power, nuclear power, wind power and tidal power, solar power and geothermal power plants according to the type of resources or fuel generating energy.

In general, hydroelectric power plants generate electricity by turning aberrations into energy when water in high places falls to low places. Thermal power plants burn coal, heavy oil, or gas (GAS) using a boiler. It is a method of obtaining electricity by rotating steam turbine by using high temperature and high pressure steam, which is caused by the difference between wind power and tidal power that generate electric energy by turning windmill by using wind force or kinetic energy and turning windmill. Tidal power plant that generates electric energy with kinetic energy, geothermal power plant that generates electric energy using high temperature and steam from deep inside the volcano, etc., and nuclear power plant that generates electric energy using energy from nuclear power Solar power plant that generates electric energy by using light energy from the sun There is this.

In the case of power generation using natural fuel or artificial fuel as described above, there is a problem that the amount of fuel required for the power plant is very large and takes a lot of cost and time for transportation and storage, and some of these problems are solved by NUCLEAR or It is a technology that uses nuclear fuel.

In the case of using nuclear fuel in a power plant, it is advantageous to improve the amount of fuel required, the number of transports, and the time required because the fuel is used for a long time in a small amount, but problems such as radioactive generation and nuclear waste treatment remain.

Power plant facilities require a certain volume and area of facilities and sites (SITE) to generate energy and produce power from the generated energy, and for safety, replace or maintain them after a specified period of use or life. You must

Since the power plant cannot be moved once it is built on the ground, it must be well selected and decided on the site or site of the power plant in consideration of the surrounding environment and infrastructure.

In general, it takes about seven years to build a nuclear power plant, and the service life is about 30 to 40 years. There is a problem that takes a lot of time and money, and so on.

If the nuclear fuel used in the nuclear power plant and the used nuclear waste are exposed to the air in an unprotected state, it must be safely managed and quarantined because it is very toxic and degrades the surrounding environment for a long time and has a fatal effect on human life.

In general, a thermal power plant including a nuclear power plant generates power by rotating a turbine with high pressure, high temperature steam generated by heating water, and generates a large amount of water to cool the steam and facilities used for power generation. It is often installed in a place where water or water supply is smooth.

After use for a certain period of time, the nuclear power plant equipment should be inspected, repaired and replaced periodically for safety and power generation efficiency, and discarded aging facilities. In particular, in the case of nuclear waste, it will be completely enclosed and segregated for safety. Dispose in a state where it is difficult for the public to access.

In addition, when the entire nuclear power plant equipment needs to be replaced and disposed of at its end of life, there is a problem that it is difficult to dispose of due to its large volume, but there is also a problem of cost and time.

In addition, there is a problem such as a large amount of time and cost, such as pollution control and cleanup in order to recycle the site where the nuclear power plant, which has reached the end of its lifetime, is recycled.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a plant structure and a construction method of a mobile nuclear power generation system in which a standardized power generation module is prefabricated on a standardized barge module.

In addition, it is an object of the present invention to provide a plant structure and construction method of a mobile nuclear power generation system that can be easily recycled on the ground site because the replacement of the nuclear power generation system at the end of its life is quick and easy.

In addition, since the nuclear power generation system is built on the barge module provided with a shock absorber, an object of the present invention is to provide a plant structure and a construction method of a mobile nuclear power generation system that safely protects the power generation system from an external shock such as an earthquake.

The present invention devised to achieve the above object, the power generation module for generating and transmitting electricity of a predetermined capacity set using nuclear fuel; A barge module in which the power generation module is assembled and dried at one side to form an outline of an area and a size of a predetermined standard; A plurality of shock absorbing modules assembled to dry on the side and bottom of the barge module and absorb external physical shocks; And a plurality of fixing modules which are assembled and dried at one side of the upper surface of the barge module so as to be fixed at a designated position and not move. This presents the included configuration.

Preferably, the power station dock is fixed to the barge module is set for a predetermined period; A power receiving module that receives electricity transmitted by the power generation module; And a protection module installed spaced apart from the entrance and exit of the power station dock and opening and closing the entrance and exit in a horizontal movement. This presents a more inclusive configuration.

In addition, the power generation module includes a power generation unit for generating electricity of a predetermined capacity using nuclear fuel; And a power transmission module configured to transmit electricity generated by the power generation unit. Characterized in that comprises a.

In addition, the shock absorbing module is characterized in that made of at least one selected from the airbag and the elastic body of the spring structure and the elastic body of the rubber structure.

In addition, the shock absorbing module is characterized in that a plurality of assembled at predetermined intervals on the side and bottom of the barge module.

In addition, the fixing module is fixedly assembled to one side of the upper surface of the barge module winding portion unwinding or winding the chain by its own rotation; One end is fixed to the winding portion of the chain winding or unwinding; And an anchor portion detachable from the other end of the chain and fixed to prevent the barge module from moving. Characterized in that consisting of a configuration including a.

The present invention devised to achieve the above object, the power generation module for generating and transmitting electricity of a predetermined capacity set using the energy of the selected fuel; A barge module in which the power generation module is assembled and dried at one side to form an outline of an area and a size of a predetermined standard; A plurality of shock-absorbing modules assembled to dry on the side and bottom of the barge module and absorb external physical shocks; And a plurality of fixing modules which are assembled and dried at one side of the upper surface of the barge module so as to be fixed at a designated position and not move. This presents the included configuration.

Preferably, the fuel is characterized in that any one or more selected from natural fuel and artificial fuel.

The fuel may include any one or more selected from tidal power, wind power, solar heat, solar light, geothermal heat, and sea water temperature.

In addition, the power generation module includes a power generation unit for generating electricity of a predetermined capacity using a selected fuel; And a power transmission module configured to transmit electricity generated by the power generation unit. Characterized in that comprises a.

The present invention has been made to achieve the above object, the process of assembling a barge module, a shock absorbing module, a power generation module and a fixed module of a mobile nuclear power plant plant to a predetermined standard and assembled into a mobile nuclear power generation system; Constructing a ground site to which the mobile nuclear power generation system is to be fixed to a predetermined standard set at a designated location; An installation process of moving and fixing a mobile nuclear power generation system to a designated ground site when installing a mobile nuclear power plant at a ground site, and moving and fixing to a designated marine site when installing a mobile nuclear power plant, and connecting a power transmission module to a power receiving module of the ground site; An operation process of returning to the installation process when generating, transmitting and moving a stationary mobile nuclear power generation system and returning to the drying process when the operation is stopped and replaced; This presents the included configuration.

Preferably, the construction process is characterized in that the same as the drying process.

In addition, the mobile nuclear power generation system in the installation process is characterized in that the chain provided in the fixed module or fixed using an anchor.

In addition, the operation process is generated by operating the power generation unit provided in the mobile nuclear power generation system and the power transmission module operating the power transmission module to the ground site; In the case of moving a mobile nuclear power generation system, the process of separating the connection between the power transmission module and the power receiving module and returning to the installation process to move to a designated position; And in the case of stopping and replacing the mobile nuclear power generation system, separating the connection between the power transmission module and the power reception module and feeding back to the drying process. Characterized in that comprises a.

In addition, the mobile nuclear power generation system is characterized in that it is fixed in any one manner selected from the fixed on the water at the ground site and the ground.

The present invention has the industrial use effect of reducing the overall construction period and cost of the power plant plant since the construction of the standardized mobile nuclear power generation system on the barge, so as to reduce the production time and cost and to build the ground site at the same time. .

In addition, the present invention of the configuration as described above is floating on the water and at the same time dry on a barge equipped with a shock absorber to reduce the impact applied from natural disasters such as earthquakes, tsunamis and typhoons and improve the operational safety of the power generation system The height has an industrial effect.

In addition, the present invention of the configuration as described above is easy to move to a designated place because the mobile nuclear power generation system is built on a barge, replacing the old generation system while recycling the ground site, easy to maintain and manage, and easy to use, reducing the cost There is.

Hereinafter, preferred embodiments of the plant structure and construction method of the mobile nuclear power generation system according to the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

Example

1 is an illustration of a plant state in which a mobile nuclear power generation system is fixed to a ground site according to an example of the present invention, and FIG. 2 is a mobile nuclear power generation according to an example of the present invention. 3 is a view showing a system fixed to a marine site, and FIG. 3 is a flowchart of a plant construction method of a mobile nuclear power generation system according to an example of the present invention.

In describing an example of the present invention, drawings and descriptions of well-known technical contents that are not directly related to the present invention are omitted, and thus the present invention is clearly communicated without obscuring the gist of the present invention.

Referring to FIG. 1, when the mobile nuclear power generation system 50 according to an example of the present invention is described with the plant PLANT fixed to the ground site SITE 60, the power generation module 100 and the barge module ( 200, a shock absorbing module 300, a fixed module 400, a power plant dock 500, a power receiving module 510, a protection module 600.

The power generation module 100 generates steam by thermal energy generated by igniting nuclear fuel or nuclear fuel in a corresponding reactor, and generates and outputs electricity having a predetermined capacity by rotating the turbine with the steam. It is a configuration that includes a power generation unit 110 for generating electricity of a predetermined capacity and a power transmission module 120 for transmitting the electricity generated by the power generation unit 110 to the outside.

In addition, the power generation module 100 further includes a configuration for generating power using any one or more selected from fuels including natural fuel, artificial fuel, tidal power, wind power, solar heat, and the like, without using nuclear fuel.

The barge module 200 is a structure floating on the water, the power generation module 100 is dried on the upper layer.

When the barge module 200 is provided with its own power, the barge module 200 may move to the designated position by magnetic force. When the barge module 200 does not have its own power, the barge module 200 may move to the designated position by a tow such as a power line.

For example, when the barge module 200 is dried at a scale of about 150,000 tons (t), the power generation capacity of the power generation module 100 to be dried on the upper layer is about 1 million kilowatts (KW) when using nuclear power. Can be dried to produce power.

The shock absorbing module 300 is repeatedly attached to the side and bottom of the barge module 200 uniformly and repeatedly protruded at a predetermined interval or at a predetermined interval to absorb or reduce a certain amount of external physical impact, so that the upper layer portion of the barge module 200 The shock is prevented from being transmitted to the power generation module 100, which is dried in order to protect against breakage or failure.

The shock absorbing module 300 is made of any one or more selected from among air bag (AIR-BAG) or a spring (SPRING) elastic or rubber elastomer and all the components that can absorb the shock is included.

The fixing module 400 is such that the barge module 200, in which the power generation module 100 is dried, is fixed in an anchored state without moving by water, impact, or the like on the water of a designated site. A plurality of windings 410 fixed to one side and each unwinding or winding a rope (ROPE, CORD, CABLE) or a chain (CHAIN) by rotation; One end is fixed to the winding unit 410 is wound or unwinding rope or chain 420; And an anchor portion 430 fixed to the other end of the rope or chain 420 in a detachable state and inserted into water or tied to a corresponding fixed module on the ground to fix the barge module 200 so as not to move. . In the ground site 60, the barge module 200 may be fixed using the chain 420 from which the anchor part 430 is removed.

The power plant dock 500 is a ground site 60 which is constructed at a waterside, and has a docking facility in which the barge module 200 on which the power generation module 100 is dried is anchored and fixed in a floating state on the water.

The power receiving module 510 is configured at one end of the power station dock 500, and receives electricity transmitted by the power transmission module 120 provided in the power generation module 100 to the ground.

The protection module 600 is spaced apart from the entrance and exit of the power plant dock 500 at a predetermined interval and horizontally moves laterally to open and close the entrance and exit. In addition, the water flow passage part 700 through which water enters and exits between the power plant dock 500 and the protection module 600 is formed by the state spaced at the predetermined intervals.

Hereinafter, referring to the attached FIG. 1, the plant state fixed to the ground site of the mobile nuclear power generation system will be described with reference to FIG. 1. The power generation unit 110 constituting the power generation module 100 includes Nuclear fuel or nuclear fuel is used and the boiler or nuclear reactor is used to generate high pressure, high heat steam, and the turbine is rotated with the generated steam to generate electricity of a predetermined capacity.

In this case, electricity of a predetermined size may be generated using at least one selected from natural fuel, artificial fuel, wind, algae, solar heat, and the like instead of the nuclear fuel.

Since the generated electricity or electric power is transmitted to the power receiving module 510 of the ground site 60 by the power transmission module 120, the power is received at the ground site 60.

The power plant dock 500 of the ground site 60 is a dock (DOCK) is built so that the barge module 200 can be docked and docked, it can be kept in a dry state by filling the water inside or removing the water. .

When water is filled in the power plant dock 500, the water is circulated to the new water through the flow passage 700 so that the freshness is maintained and supplied as water for cooling the power generation module 100 and the like.

A protection module 600 having a length similar to an entrance length is constructed at an entrance and exit of the power plant dock 500, and the protection module 600 has a horizontally moving structure, and opens and closes the entrance and exit.

That is, when the barge module 200 is moved to be installed and fixed in the power plant dock 500 or to be disposed of and replaced, the protection module opens the doorway. When the barge module 200 is fixed to allow the power generation module 100 to safely generate power, the protection module 600 closes the entrance.

When the power station dock 500 is built on the beach, the protection module 600 protects against natural disasters such as tsunamis and waves, and blocks the barge module 200 from moving out of position. , The water flow path 700 is formed so as to be spaced apart at regular intervals so that the water is supplied and the water inside the power plant dock 500 is circulated.

When the power plant dock 500 is operated in a dry state, the protection module may not be used.

A plurality of shock absorbing modules 300 are fixedly attached to the outer side and the bottom of the barge module 200 in a predetermined predetermined interval to protect the power generation module 100 from external physical shocks. The shock absorbing module 300 is composed of a bag-type air bag in which air is injected, a form using an elastic force of the spring, a form using an elastic force of the rubber, etc., and includes any structure and configuration for absorbing shock.

Therefore, in the present invention having the above configuration, when the barge module 200 floats on the water in the power plant dock 500, water is absorbed by external shocks generated from an earthquake, thereby protecting the power generation module 100 safely. A plurality of shock absorbing modules 300 provided around the outer portion of the barge module 200 protects the physical shocks from being directly applied to the power generation module 100.

When the barge module 200 is located in a dry dock of the power plant dock 500, a plurality of shock absorbing modules 300 configured on the lower surface absorbs or cushions shocks generated from the ground, The shock absorbing module cushions physical shocks.

That is, the barge module 200 safely protects the power generation unit from external impact even when the power plant dock 500 is filled with water or no water.

The nuclear power generation system 50 is a desired place or designated by using the water power line to release the connection state of the power receiving module 510 and the transmission module 120, if the facility is to be replaced or moved to another designated place It has the advantage of moving quickly to a place.

Referring to FIG. 2, when the mobile nuclear power generation system is fixed to the offshore site according to an example of the present invention, the barge module 200 in which the power generation module 100 is constructed or constructed may be replaced with a river, a lake, or the sea. The anchor portion 430 is moved into the water because it moves over the water at the designated position and releases the wound rope or chain 420 by rotating the winding part 410 constituting the fixing module 400.

The anchor part 430 is fixed to prevent the barge module 200 from moving because it touches the floor, and is provided at a balanced interval on one side edge of the barge module.

The shock absorbing module 300 fixed to a plurality of sides of the barge module 200 at predetermined intervals mitigates the impact in the case of being connected to other objects by being pushed away by the storm.

If you want to move the mobile nuclear power plant fixed to the offshore site to another place, the winding unit 410 is rotated in the opposite direction, so that the rope or chain is wound up and lift the anchor on the floor to release the fixed state, power lines, etc. Move to the specified position by using.

Referring to Figure 3 as an example of the present invention as a plant construction method of a mobile nuclear power generation system, it consists of a construction process, construction process, installation process and operation process.

In the drying process, when it is determined by the manager or manager who builds and constructs the plant of the mobile nuclear power generation system, it is determined that the plant of the mobile nuclear power generation system is to be constructed (S100). And proceed to manufacture a roll having a shock absorbing module of a predetermined standard in the barge module (S110), and having a fixed module to prevent the power generation module to generate power of the predetermined predetermined standard to move on dry and dry ground or water Proceed to dry production (S120).

The process of assembling and drying the power generation module and the fixed module at a designated position of the barge module is repeated until the assembly drying of the mobile nuclear power generation system is completed or completed (S130, S140).

In the construction process, the barge module provided with the power generation module is docked to confirm whether to build a ground site to be anchored (S150), in the case of constructing the ground site, the ground site of a predetermined standard to the designated position of the ground Constructed in (S160).

The ground site constructed at this time includes a power station dock, a power receiving module, and a protection module for forming a flow passage. In addition, in the case of the maritime site can be fixed because the anchor or anchor is lowered in general, the construction of the maritime site is included when the construction of a separate facility for fixing.

In the installation process, if you want to install a mobile nuclear power generation system equipped with a power generation module in the barge module at a designated location, it is checked whether the ground site or offshore site (S170).

Hereinafter, the maritime site will be described as including the site of the river and lake.

When the mobile nuclear power generation system is installed at the ground site, the mobile nuclear power generation system is moved, docked, and anchored to a designated ground site by using a power line or the like, and is fixed using a fixed module, and the power transmission module and the ground power receiving module are fixed. Connect. At this time, an additional device for supplying fuel is also connected (S180).

In addition, in the case of installing the mobile nuclear power generation system on the offshore site, by moving the mobile nuclear power generation system to the designated offshore site using a power line, and the like to control the fixed module so that the anchor portion to the bottom of the water fixed, power transmission module Connect the power receiving module and necessary additional devices (S190).

Move to the designated location on the ground or the sea as described above, and operate by supplying fuel and the electricity generated is operated to transmit to the power receiving module through the power transmission module (S200).

When it is confirmed that the mobile nuclear power generation system is moved to another location (S210), it is returned to the installation process (S170), moves to a designated location, is fixedly installed and operated, and when it is determined that the mobile station does not move or stops aging. Check whether the replacement due to the cause (S220).

In the case of stopping the operation in the check (S220), the operation of the mobile nuclear power generation system is terminated, and in the case of replacement, the mobile nuclear power generation system is newly constructed or constructed and returned to the designated site. Repeat the process of moving and fixing to generate power.

Although the present invention has been described as an example, it is not necessarily limited to such an example, and various modifications can be made without departing from the spirit of the present invention. Therefore, the examples disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited thereto. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1 is an illustration of a plant state in which a mobile nuclear power generation system is fixed to a ground site according to an example of the present invention;

2 is an illustration of a state in which a mobile nuclear power generation system is fixed to an offshore site according to an example of the present invention;

3 is a flowchart of a plant construction method of a mobile nuclear power generation system according to an example of the present invention.

          ** Explanation of symbols on the main parts of the drawing **

50: nuclear power system 60: ground site

70: offshore site 100: power generation module

110: power generation unit 120: power transmission module

200: barge module 300: shock absorbing module

400: fixed module 410: winding

420: chain 430: anchor

500: power station dock 600: protection module

700: flowing passage

Claims (15)

A power generation module for generating and transmitting electricity having a predetermined capacity set using nuclear fuel; A barge module in which the power generation module is assembled and dried at one side to form an outline of an area and a size of a predetermined standard; A plurality of shock-absorbing modules assembled and dried in a protruding state on the side and bottom of the barge module to absorb external physical shocks; And A plurality of fixing modules which are assembled and dried at one side of an upper surface of the barge module to be fixed at a designated position and prevent from moving; Plant structure of a mobile nuclear power generation system comprising a. The method of claim 1, A power station dock in which the barge module is fixedly installed for a predetermined period of time; A power receiving module receiving the electricity generated by the power generation module; And A protection module installed spaced apart from the entrance and exit of the power station dock and opening and closing the entrance and exit in a horizontal movement; The mobile nuclear power plant system structure further comprises. The power generation module of claim 1, wherein A power generation unit for generating electricity of a predetermined capacity using the nuclear fuel; And A power transmission module for transmitting electricity generated by the power generation unit; Plant structure of a mobile nuclear power generation system comprising a. The method of claim 1, wherein the shock absorbing module, A plant structure of a mobile nuclear power generation system, comprising at least one selected from an airbag, a spring structure elastic body, and a rubber structure elastic body. The shock absorbing module according to any one of claims 1 to 4, wherein Plant structure of a mobile nuclear power generation system, characterized in that a plurality of assembled at predetermined intervals on the side and bottom of the barge module. The method of claim 1, wherein the fixing module, A winding unit fixed to one side of an upper surface of the barge module to unwind or wind the chain by rotation; One end is fixed to the winding portion of the chain wound or unwinding; And An anchor part detachable from the other end of the chain and fixed to prevent the barge module from moving; Plant structure of a mobile nuclear power generation system, characterized in that consisting of a configuration comprising a. A power generation module for generating and transmitting electricity having a predetermined capacity set using energy of the selected fuel; A barge module in which the power generation module is assembled and dried at one side to form an outline of an area and a size of a predetermined standard; A plurality of shock-absorbing modules assembled and dried in a protruding state on the side and bottom of the barge module to absorb external physical shocks; And A plurality of fixing modules which are assembled and dried at one side of an upper surface of the barge module to be fixed at a designated position and prevent from moving; Plant structure of a mobile nuclear power generation system comprising a. The method of claim 7, wherein the fuel, Plant structure of a mobile nuclear power generation system, characterized in that any one or more selected from natural fuels and artificial fuels. The fuel according to claim 7 or 8, wherein the fuel is A plant structure of a mobile nuclear power generation system comprising at least one selected from tidal, wind, solar, solar, geothermal and seawater temperatures. The method of claim 7, wherein the power generation module, A power generation unit for generating electricity of a predetermined capacity using the selected fuel; And A power transmission module for transmitting electricity generated by the power generation unit; Plant structure of a mobile nuclear power generation system comprising a. A process of assembling a barge module, a shock absorbing module, a power generating module, and a fixing module of a mobile nuclear power plant to a predetermined standard and assembling the mobile nuclear power generation system; Constructing a ground site to which the mobile nuclear power generation system is to be fixed to a predetermined standard set at a designated location; An installation process of moving and fixing the mobile nuclear power generation system to a designated ground site if the mobile nuclear power generation system is installed at a ground site; And An operation process of returning to the installation process when generating, transmitting and moving the fixed nuclear power generation system by operating the stationary mobile nuclear power generation system and returning to the drying process when the operation is stopped and replaced; Plant construction method of a mobile nuclear power generation system comprising a. The method of claim 11, wherein the construction process, Plant construction method of a mobile nuclear power generation system, characterized in that is carried out simultaneously with the drying process. The method of claim 11, wherein in the installation process, The mobile nuclear power generation system is a plant of the mobile nuclear power generation system, characterized in that fixed to the chain provided in the fixed module or using an anchor. The method of claim 11, wherein the operation process, Generating power by operating a power generation unit provided in the mobile nuclear power generation system and transmitting power to a power module of a ground site by operating a power transmission module; In the case of moving the mobile nuclear power generation system, the process of separating the connection between the power transmission module and the power receiving module and returning to the installation process to move to a designated position; And In the case of stopping and replacing the mobile nuclear power generation system, separating the connection between the power transmission module and the power reception module and returning to the drying process; Plant construction method of a mobile nuclear power generation system comprising a. The method according to any one of claims 11 to 13, The mobile nuclear power generation system is a plant construction method of a mobile nuclear power generation system, characterized in that fixed in any one of the method of fixing on the water at the ground site and the ground fixed.

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