KR101692777B1 - Modularized floating type nuclear plant system - Google Patents

Abstract

The present invention relates to a modular floating ocean nuclear power system, and more particularly, to a modularized floating marine nuclear power system, in which modularized and modular facilities that unify and unify a facility having a similar function in one place are assembled To a modular floating marine nuclear power system.
According to the present invention, it is possible not only to facilitate the construction of floating nuclear power plants by assembling the facilities having similar functions by modularizing them in one place, by assembling such modular facilities, but also to make the modularized facilities function as various So that it can be assembled in such a manner.

Description

{MODULARIZED FLOATING TYPE NUCLEAR PLANT SYSTEM}

The present invention relates to a modular floating ocean nuclear power system, and more particularly, to a modularized floating marine nuclear power system, in which modularized and modular facilities for integrating and unifying a facility having a similar function in one place are assembled To a modular floating marine nuclear power system.

Conventionally, a plurality of methods for combining marine nuclear power plants by module configuration have been disclosed. However, it is necessary to construct a single module by integrating the facilities having similar functions in one place, and to modularize such modular facilities in various ways for mutual connection of functions, Lt; / RTI >

KR 10-2013-0047187 A

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a floating nuclear power plant which can easily construct a floating nuclear power plant by assembling such modular facilities by integrating facilities having a similar function in one place, And it is an object of the present invention to allow modularized facilities to be assembled in various manners as required in terms of function.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a modularized maritime nuclear power system comprising: a subsystem including a nuclear power system including a containment building module and installed in a floating state below a sea level; An upper system including a nuclear ancillary facility including an anchoring module of a ship approaching the modularized marine nuclear power system and installed above a sea level; A connecting passage connecting the upper system and the lower system and having a moving path of a person or a material between the lower system and the lower system; And a fixture connecting the lower and the underside so that the lower system is held floating below the sea level, wherein each lower module and each module included in the upper system are individually constructed Wherein the nuclear reactor system is constructed in the form of being assembled and disposed within the lower system or the upper system, the nuclear reactor system comprising: a containment building system including a reactor; A water intake system for taking seawater to be used as cooling water; A power generation system for generating electricity by the turbine and for condensing the steam of the turbine by the cooling water taken by the water intake system; And a drainage system for discharging the used cooling water to the sea, wherein the water intake system comprises: a water intake module for introducing seawater; A water intake facility module for performing processing for using the inflowed seawater as cooling water; And a water intake module for storing the processed seawater for use as the cooling water, wherein the water drainage system comprises a drainage module for performing a treatment for discharging spent seawater to the sea; A drainage tank module for temporarily storing the treated seawater for discharging to the sea; And a drain module for draining the seawater of the drain module to the sea.

Wherein the water intake facility module is installed in an upper layer of the water intake tank module, the water drainage facility module is installed in an upper layer of the water drainage tank module, the water intake facility module and the drainage facility module are disposed at symmetrical positions at the same height, The intake tank module and the drain tank module may be disposed at positions symmetrical to each other at the same height.

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Preferably, the drainage port module and the drainage port module are installed in the seawater outside the lower system and below the lower system so that underwater intake and underwater drainage are possible.

The containment building system includes a containment building module in which a nuclear reactor, a nuclear steam system, and a spent fuel storage facility are located; One or more auxiliary building modules for safety equipment, fuel system and passive residual removal systems related to reactor operation; And a reloading module for recharging the nuclear fuel in the containment building.

The auxiliary building module may be disposed in a wrap-around fashion of the containment building module.

The auxiliary building module comprising: a radiation assisted building module; And non-radiation auxiliary building modules.

The reloading module may be located above the containment building module.

The nuclear power system includes a radioactive waste collection, storage, treatment facility and a complex building module including access control facilities between a radiation assisted building zone and a non-radiation auxiliary building zone, the complex building module comprising: It can be divided into two modules for quick evacuation.

The power generation system may further include an emergency power generation module for automatically operating upon shutdown of the power plant to supply emergency power in the power plant.

The subsystem may further include a main room module that takes charge of a main word of operation of the nuclear power plant.

According to the present invention, it is possible not only to facilitate the construction of floating nuclear power plants by assembling the facilities having similar functions by modularizing them in one place, by assembling such modular facilities, but also to make the modularized facilities function as various So that it is possible to assemble in such a manner.

1 is a conceptual view of a floating nuclear power plant.
2 is a cross-sectional view in x direction of a modular floating nuclear power plant system;
3 is a y-direction cross-sectional view of a modular floating marine nuclear power system.
Figure 4 shows the containment and auxiliary building module arrangements of a modular floating nuclear power plant system.
FIG. 5 is a diagram illustrating the recharging facility, composite building, and drainage / drainage module arrangement of a modular floating oceanic nuclear power system; FIG.
6 is a diagram showing a power generation related module and a wastewater / drainage module arrangement of a modular floating marine nuclear power system.
Figure 7 shows an office module and a control room module arrangement of a modular floating marine nuclear power system.
8 shows the arrangement of the connection passage modules of a modular floating marine nuclear power system.
9 is a diagram showing the superstructure arrangement of a modular floating marine nuclear power system.
10 shows a secondary steam system and a cooling water (sea water) supply system of a modular floating oceanic nuclear power system.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

1 is a conceptual diagram of a floating nuclear power plant.

2 is a cross-sectional view in the x direction of a modular floating nuclear power plant system, and Fig. 3 is a cross-sectional view in y direction of a modular floating nuclear power plant system.

Floating marine nuclear power systems consist largely of a submerged subsystem and an upper subsystem above the surface of the water. The subsystem corresponds to the nuclear power system and consists of containment building module, auxiliary building module, complex building module, power generation module, extraction water module, and control building module. The upper system corresponds to an auxiliary system and consists of a deck, anchoring facility, storage tank, residential facility, and maintenance facility. This technology consists of containment building module, auxiliary building module, complex building module, extraction water module and power generation module.

Hereinafter, each module will be described in detail with reference to FIGS. 4 to 10. FIG.

4 is a diagram showing the containment and auxiliary building module arrangements of a modular floating marine nuclear power system.

The containment building module may be, for example, a high strength reinforced concrete structure having a cylindrical space of 15 m in diameter inside a rectangular parallelepiped of 20x20x25 m. Inside the containment building module, reactor, nuclear steam system, spent fuel storage facility, etc. are located, and the containment building will serve as the core of the entire structural system.

 The auxiliary building module may be composed of four quadrant modules. Auxiliary buildings should be located in the form of a wrap-around structure surrounding the containment building. The auxiliary facilities should be located nearest to the operation of the nuclear power plant, such as engineering safety equipment, nuclear fuel system and passive residual heat removal system. Auxiliary buildings 1 and 2 are radiation zones, and auxiliary buildings 3 and 4 are non-radiation zones.

FIG. 5 is a view showing the recharging facility, the combined building, and the drainage / drainage module arrangement of the modular floating marine nuclear power system.

The reloading module may have a rectangular parallelepiped shape of 20x20x10m as an example. Since the space inside the containment building is narrow in the horizontal direction, the reloading module is preferably located above the containment building module.

 The complex building module may be equipped with facilities for collecting, storing and processing radioactive waste and access control facilities for access to radiation assisted building areas and non-radiation auxiliary building areas in the main building. It is desirable to divide the nuclear power plant into two in order to improve the convenience of the nuclear power plant and to evacuate quickly in an emergency.

 The intake and drainage modules are arranged symmetrically for stability of the plant and are located at the same height to minimize the head difference.

6 is a diagram showing a power generation related module and a wastewater drainage module arrangement of a modular floating marine nuclear power system.

The turbine / power plant module can consist of two turbines / generators, condensers, and so on.

The intake and drainage facilities are located at the same height and supply cooling water (seawater) to the condenser of the secondary system (power generation system).

 Emergency diesel power generation module will automatically operate when SBO (Station Black Out), and supply emergency power in the power plant.

7 is a diagram showing an office module and a control room module arrangement of a modular floating marine nuclear power system.

It is desirable that the office module and the main control room module are located at the uppermost position for easy access from the outside and for quick evacuation in an emergency.

 The main control room module is located at the center, minimizing the circulation to each office.

8 is a diagram showing the arrangement of the connection passage modules of a modular floating floating nuclear power system.

The connecting passage module is a cylindrical high-strength reinforced concrete structure having a diameter of 14 m and a height of 15 m. The function of connecting the upper system and the lower system, the function of minimizing the water plane area, and the function of minimizing the frictional drag force.

Figure 9 is a diagram showing the superstructure arrangement of a modular floating marine nuclear power system.

The floor of the superstructure may be a concrete slab structure, and residences, anchoring facilities, maintenance facilities, etc. of the operator may be located.

Anchoring facilities can be configured to be located in two locations for similar use.

10 is a view showing a secondary steam system and a cooling water (sea water) supply system of a modular floating nuclear power plant system.

Floating offshore nuclear power system is an underwater water intake system that takes water at 30 ~ 50m depth. In case of underwater water intake, it has more than 30% cooling water saving effect compared to surface water intake.

100: Modular Floating Marine Nuclear Power System

Claims (12)

As a modular marine nuclear power system,
A subsystem including a nuclear power system including an containment building module, wherein the subsystem is suspended at a certain depth below the sea level;
An upper system including a nuclear ancillary facility including an anchoring module of a ship approaching the modularized marine nuclear power system and installed above a sea level;
A connecting passage connecting the upper system and the lower system and having a moving path of a person or a material between the lower system and the lower system; And
The lower system is connected to the bottom of the sea bed so that the lower system is fixed in a floated state below the sea level,
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Wherein each of the facility modules included in the lower system and the upper system is separately constructed and configured to be assembled and disposed in the lower system or the upper system,
In the nuclear power system,
Containment building systems including reactors;
A water intake system for taking seawater to be used as cooling water;
A power generation system for generating electricity by the turbine and for condensing the steam of the turbine by the cooling water taken by the water intake system;
Drainage system that discharges the used cooling water to the sea
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The water intake system comprises:
A water intake module for introducing seawater;
A water intake facility module for performing processing for using the inflowed seawater as cooling water; And
A water intake module for storing the processed seawater for use as cooling water
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The drainage system comprises:
A drainage module for performing a treatment for discharging used seawater to the sea;
A drainage tank module for temporarily storing the treated seawater for discharging to the sea; And
Drain module that drains seawater from drainage module to sea
Wherein the modularized marine nuclear power system comprises:
delete delete The method according to claim 1,
Wherein the water intake facility module is installed in an upper layer of the water intake tank module,
The drainage module is installed on the drainage module,
Wherein the water intake facility module and the drainage facility module are disposed at symmetrical positions at the same height,
Wherein the water intake tank module and the drain tank module are disposed at symmetrical positions at the same height
A modularized marine nuclear power system. The method according to claim 1,
Wherein the drainage port module and the drainage port module comprise:
In the seawater outside the lower system so that the underwater intake and the underwater drainage are possible, the lower system being installed below the lower system
A modularized marine nuclear power system. The method according to claim 1,
The containment building system comprises:
A containment building module in which nuclear reactors, nuclear steam systems and spent fuel storage facilities are located;
One or more auxiliary building modules for safety equipment, fuel system and passive residual removal systems related to reactor operation; And
A reloading module for reloading nuclear fuel in the containment building;
Wherein the modularized marine nuclear power system comprises: The method of claim 6,
The auxiliary building module includes:
Disposed in a wrap-around manner within the containment building module
A modularized marine nuclear power system. The method of claim 6,
The auxiliary building module includes:
Radiation assisted building module; And
Non-radiation auxiliary building module
Wherein the system is divided into a plurality of modules. The method of claim 6,
Wherein the reloading module comprises:
Located above the containment building module
A modularized marine nuclear power system. The method of claim 8,
In the nuclear power system,
Radioactive waste collection, storage and treatment facilities and complex building modules including access control facilities between radiation assisted and non-radiation assisted building areas
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The multi-
The module is divided into two modules for enhancing convenience of the nuclear power plant and for quick evacuation in case of an emergency. Claim 1
The power generation system includes:
Emergency power generation module to automatically operate when the power plant is shut down to supply emergency power in the power plant
Further comprising the step of: The method according to claim 1,
The sub-
The main room module that manages the main language of nuclear power management
Further comprising the step of:

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