RU2195531C1 - Process of erection of large-block structure in coastal zone of water basin and floating complex for implementation of process - Google Patents

Abstract

FIELD: construction industry. SUBSTANCE: invention deals with erection of large-block structures in coastal zones of water basins with use of floating transportation of large-size blocks-modules for such structures, predominantly, with construction of atomic power stations. Process provides for construction of dock with locks and erection of foundation in dry dock. Then dock with locks is connected with water basin and is filled with water to level above foundation surface with due account of draft of floating complex. Finished assembled block-module is shipped from manufacturing factory along canal filled with water by floating in mix of pontoon floating complex and is erected with the aid of floating complex on foundation. After this pontoons of floating complex are separated from block-module and are shipped back to manufacturing factory for repeat employment. Later dock with locks is freed from water and erection of structure is completed in dry dock. Pontoon floating complex is vessel which central part is formed by shipped block-module and which bow and stern parts are pontoons. Pontoons are fitted with supporting protrusions which are brought into openings made in block-module and are tied up by reinforcing wire bunches passing through holes of block-module. Protrusions on pontoons can be hollow and have holes in face walls uniaxial with through holes in block- module. Pontoons can be equipped with buttresses and block-module can be provided with at least one embracing reinforced concrete belt to rest against buttresses. This approach makes it feasible to provide for possibility of floating shipment, assembly and disassembly of large-size construction block-module, predominantly block-module of reactor room of coastal atomic power station, when erected structure is located on land, it ensures possibility for dismantling and return of worked out block-module of reactor room with its replacement with new block-module. EFFECT: improved efficiency of erection process. 7 cl, 4 dwg

Description

 The invention relates to the construction of structures erected in the coastal zone of water bodies using floating transportation of large-sized block modules of these structures, mainly to the construction of nuclear power plants (NPPs).

 One of the main problems in the construction and long-term operation of nuclear power plants is the need to replace a spent nuclear reactor and other equipment of a nuclear power plant. The cost of such work for existing nuclear power plants, taking into account the costs of opening the reactor compartment, dismantling equipment and reclamation of the territory, exceeds the cost of building a new nuclear power plant of a similar type. In addition, the construction of a reactor compartment with a new reactor at a nuclear power plant site remote from the manufacturer leads to worsening installation conditions, its quality and, as a result, negatively affects the safety of nuclear power plants.

A solution to this problem by floating transportation of the block module of the reactor compartment of nuclear power plants was found in [1]. The disadvantage of solution [1] is the need for underwater placement of the reactor compartment of the constructed nuclear power plant on the sea shelf (on the shelf of the sea). With such a placement of the nuclear power plant, the following problems arise:
- for the transmission of electricity generated by nuclear power plants, laying of submarine cables along the seabed is required;
- increased operating costs associated with the delivery of personnel and necessary supplies to nuclear power plants;
- enhanced corrosion protection of the entire nuclear power plant and protection against fouling of the underwater elements of the nuclear power plant are required;
- the need to place all life support elements on the NPP platform, which makes the construction and operation of NPPs more expensive.

 Known as a prototype is known a method of erecting a large-block structure in the coastal zone of a reservoir, including the erection of a foundation, factory assembly of a large-sized object, its floating transportation as part of a pontoon floating complex and installation on a foundation using a floating complex [2].

 From [2] it is also known adopted as a prototype device for implementing the method, which is a floating complex containing a transportable block module and two boats (pontoons).

 The prototype device is a pontoon floating complex of a catamaran type: the bow parts of the pontoons and their stern parts are interconnected by removable floating beams. Each pontoon has a tower - a longitudinal elevation. Technological beams are supported on the towers of both pontoons, on which the transported block module is placed.

 The method and device [2] allow the bulk method to transport and place in a surface position on the foundation, erected in the sea shelf, a large-sized factory-assembled block module.

 The disadvantage of the method [2] is the need to place the facility under construction, such as nuclear power plants, on the shelf of a reservoir, and the disadvantage of the device [2] is the impossibility of surface transportation of especially heavy and large-sized objects, for example, block modules of the reactor compartment of nuclear power plants.

 The problem to which the invention (group of inventions) is directed is to provide the possibility of surface transportation, installation and dismantling of a particularly heavy large-sized building block module, mainly a block module of the reactor compartment of a coastal nuclear power plant, when placing a building under construction on land.

 The subject of the invention is a method for erecting a large-block structure in the coastal zone of a reservoir, including erecting a foundation, factory assembly of a building block module, transporting it in a part of a pontoon floating complex and installing it on a foundation using a pontoon floating complex, characterized in that according to the invention, a dry lock dock is constructed in the coastal zone of the reservoir, build a foundation on the territory of this dock, then connect the dock to the reservoir and fill it with water above the surface of the foundation, taking into account plavkompleksa cages.

 The subject of the invention is also a pontoon floating complex for implementing the proposed method, comprising a transportable block module and at least two pontoons, characterized according to the invention in that at least two openings and three through holes are made in the block module, and the pontoons are installed in the bow and stern parts of the floating complex, are pulled together by bundles of reinforcing wire passing through the through holes in the block module, and are equipped with bearing protrusions inserted into its openings.

 Implementation of the proposed method and device allows, by placing nuclear power plants or other large-block structures on land near rivers, seas or oceans, using the floating method to transport from the manufacturer to the place of operation and installing large-sized block modules of these structures, for example, a reactor compartment module on the foundation NUCLEAR POWER STATION.

 The method has a development consisting in the fact that the installation of the block module on the foundation is carried out by lowering the water level in the lock dock and / or by ballasting and de-ballasting the pontoons using the receiver.

 This allows you to realize the advantages of the floating method of installation in the implementation of the proposed method.

 In addition, the method has a development consisting in the fact that the internal volume of the reactor module block module is used as a receiver. This reduces the need for compressor equipment for de-ballasting.

 The proposed pontoon floating complex has a development, which consists in the fact that the bearing protrusions of the pontoons are hollow and provided with holes in the end walls, coaxial with through holes in the transported block module.

 This allows you to further increase the capacity of the floating complex.

 The proposed pontoon floating complex has another development, which consists in the fact that the pontoons are equipped with buttresses, and the block module is equipped with at least one female reinforced concrete belt designed to support buttresses.

 This allows for a further increase in the loading capacity of the floating complex due to the distribution of the load from the transported block module along the length of the pontoons.

 1 and 2 show a pontoon floating complex (FIG. 2 is a plan view), FIG. 3 is a plan of a lock dock with a feed channel for two reactor nuclear power plants, and FIG. 4 is a pontoon mount on a base plate of a block module.

 The pontoon floating complex is a ship-type vessel, in the central part of which the transported block module 1 of the reactor compartment of the nuclear power plant is located, and the bow and stern parts are formed by pontoons 2 and 3, respectively. At least three through holes 4 and two openings 5 are made in the block module 1 in the axial direction of the floating complex. The pontoons 2 and 3 are pulled together by bundles 6 of high-strength reinforcing wire passing through the through holes 4 in the block module 1 and are provided with bearing protrusions 7 intended for introduction into the openings 5. The protrusions 7 can be made hollow with holes in the end walls for the passage of the beams 6. In this case, they can be reinforced with stiffeners.

 The proposed method is carried out using a floating complex as follows.

 In the coastal zone of the reservoir 8 (see Fig. 3), a dry sluice dock 9 is constructed, in which a foundation 10 is erected for the reactor compartment of the nuclear power plant. The lock dock 9 is connected with a reservoir 8, for example, a supply channel 11, separated from the dock 9 by a gate 12, made, for example, in the form of a botport.

 Dock 9 is filled with water, opening the gate 12 and flooding the foundation 10 above its surface, taking into account the precipitation of the pontoon floating complex.

 At the factory, the module 1 is assembled on the base plate 13 and placed in a factory dry dock connected through a gate to a reservoir 8, on a temporary foundation similar to the foundation 10. In the manufacture of the module 1, through holes 4 and openings are provided 5, and the pontoons 2 and 3 are made with bearing protrusions 7. In addition, the pontoons 2 and 3 can be equipped with buttresses 14, and the block module 1 can be made with one or more reinforced concrete belts 15 surrounding it, designed to support the buttresses 14 , set docked on pontoons 2 and 3.

 The factory dock is connected to the reservoir 8 and filled with water in the same way as dock 9.

 Then, a pontoon floating complex is assembled in the factory dock, for which pontoons 2 and 3, equipped with buttresses 14 and bearing protrusions 7, are introduced into the dock. The pontoons are led to the corresponding sides of the factory foundation on which the assembled block module 1 is located. Then, ballasting and de-ballasting the pontoons and / or changing the water level in the factory dock, the bearing protrusions 7 of the pontoons 2 and 3 are introduced into the corresponding openings 5 of the block module 1. Using, for example, anchor clamps 16 (Fig. 4), the pontoons 2 and 3 are pulled together to the block module 1 by beams 6 high-strength reinforcing wire, passing them through the holes 4 and coaxial holes in the end walls of the protrusions 7.

 The assembled floating complex, by de-ballasting the pontoons and / or raising the water level in the factory dock, is torn off from the factory foundation and put into the reservoir 8, through which it is transported to the construction site of the coastal nuclear power plant.

 Through the inlet channel 11 through the gate 12, the block module 1 as part of the floating complex is delivered to the dock 9 filled with water and placed above the foundations 10. The necessary horizontal movements of the floating complex for the precise installation of the block module 1 above the foundation 10 are provided, for example, by means of mounted on pontoons 2 and 3 winches (not shown in the drawings). Then, ballasting and de-ballasting the pontoons and / or changing the water level in the dock 9, lower the block module 1 on the foundation 10.

 After the block module 1 is installed on the foundation 10, the anchor clamps 16 on the bundles 6 of reinforcing wire, tightening the pontoons 2 and 3, are released, the pontoons ballast and their bearing protrusions 7 are removed from the openings 5 of the block module 1. Then, the pontoons are removed from the block -module and output through the inlet channel 11 into the reservoir 8, through which it is transported back to the manufacturer for subsequent use.

 The floating transportation of the floating complex or pontoons along the reservoir 8 (river, sea or ocean) and inlet channel 11 is carried out using tugboats of the appropriate purpose, and in the dock - using winches mounted on pontoons (not shown in the drawings).

 After installing block module 1 on the foundation 10, dock 9 is freed from water and the construction of a dry dock nuclear power plant is completed. After completion of construction, channel 11 can be used as a source of cooling water for the technological equipment of nuclear power plants.

 The implementation of the proposed method and device allows, by placing nuclear power plants or other large-block structures on land near rivers, seas or oceans, using the floating method to transport from the manufacturer to the place of operation and installing large-sized block modules of these structures on the foundation. At the same time, the proposed floating complex allows for the on-site transportation and installation of such especially heavy and large-sized objects on the foundation as, for example, the block module of the reactor compartment of a nuclear power plant, which is a fully-equipped and ready-for-use nuclear reactor with all the necessary equipment.

 The proposed technical solution also allows us to solve the problem of replacing the spent reactor departments of nuclear power plants with new block modules assembled at the manufacturer. To do this, at the site of operation of the nuclear power plant, they release the reactor from nuclear fuel, restore the lock dock 9, fill it with water above the foundation level 10, bring the pontoons to the reactor compartment and form a floating complex of pontoons 2 and 3 and module block 1 in the described sequence. Next, after operations to remove the block module 1 from the foundation 10, similar to the operations described above to remove the block module 1 from the factory foundation, the block module as part of the floating complex is transported along the reservoir 8 to the place of long-term storage (sludge) - gateway ovomu swimming pool equipped with the foundation and the gate 9 is similar to the dock.

 Due to the fact that the spent block module is removed and stored in its entirety (in this case, the spent equipment of the reactor compartment remains in a protective shell), its transportation and storage in an open space are environmentally safe.

 The implementation of the proposed solution makes it possible to provide reactor compartments of nuclear power plants for operation under leasing conditions with subsequent dismantling and return of the spent reactor module block module with the possibility of replacing it with a new one.

 Currently, technical proposals have been developed on the application of the proposed technology for the construction of nuclear power plants with reactor sections of the VVER-640 and VVER-1000 types, whose masses are about 120 and 180 thousand tons, respectively.

Sources of information
1. RF patent 1721179, IPC E 02 B 17/00, 1992

 2. Auth. testimonial. USSR 1555424, IPC E 02 B 17/00, 1990

Claims (7)

 1. A method of erecting a large-block structure in the coastal zone of the reservoir, including the foundation, factory assembly of the building block module, its floating transportation as part of the pontoon floating complex and installation on the foundation using the pontoon floating complex, characterized in that before erecting the foundation of the large-block structure in the coastal zone a pond is constructed with a dry sluice dock, the foundation of the structure is erected in it, a block module is assembled at the factory within the factory's dry dock and placed it is connected to a pond through channels and filled with water on a temporary foundation similar to the foundation of a large-block construction, the lock and factory docks, a pontoon floating complex is assembled in the factory dock, connecting the pontoons with a block module, the assembled floating complex is torn from the factory foundation, transported along the channel and placed over with a foundation, while before installing the block module above the foundation of the construction, the lock dock is filled with water above the foundation surface, taking into account the precipitation of the floating complex, and after installing the block on the foundation modulus divide by pontoons plavkompleksa block module is removed from the block unit and outputted through a feed channel into the reservoir, transporting the factory for subsequent use, then the gateway docking freed from water and completing the construction of structures in the dry dock.  2. The method according to p. 1, characterized in that the installation of the block module on the foundation is carried out by lowering the water level in the lock dock.  3. The method according to p. 1, characterized in that the installation of the block module on the foundation is carried out by ballasting and de-ballasting the pontoons using the receiver.  4. The method according to p. 3, characterized in that as the receiver using the internal volume of the block module of the reactor compartment.  5. A pontoon floating complex for erecting a large-block structure in the coastal zone of a reservoir containing a transportable block module with through holes in the walls and at least two pontoons, characterized in that at least the axial direction of the floating complex is made in the block module two openings and three through holes, and the pontoons are installed in the bow and stern parts of the floating complex, are pulled together by bundles of reinforcing wire passing through the through holes in the block module, and are equipped with bearing protrusions inserted into the openings block module.  6. The pontoon floating complex according to claim 5, characterized in that the supporting protrusions of the pontoons are hollow and with holes in the end walls, coaxial with through holes in the transported block module.  7. The pontoon floating complex according to claim 5, characterized in that the pontoons are equipped with buttresses, and the block module, at least one covering reinforced concrete belt, designed to support the buttresses.

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