KR101879426B1 - Independent storage system for spent fuel pool storage during nuclear power plant decommissioning - Google Patents

Abstract

The present invention relates to an independent storage facility for converting spent fuel storage related systems used during operation of a nuclear power plant into an independent system for only spent fuel storage in order to facilitate disassembly of the nuclear power plant, An independent building made up of separate buildings; A spent fuel reservoir disposed within the independent reservoir and capable of storing spent fuel; A cooling system disposed within the independent reservoir and capable of removing decay heat released from the spent nuclear fuel; A purification system disposed in the independent reservoir and capable of purifying water in the spent nuclear fuel storage vessel; And a cooling water supply system disposed inside the independent storage and capable of supplying cooling water to the cooling system, wherein the cooling system, the purification system, and the cooling water supply system are connected to the spent fuel storage tank And the cooling system, the purification system, and the cooling water supply system are disposed in a building such as the spent fuel storage tank.

Description

{Independent storage system for spent fuel storage during decommissioning of nuclear power plants}

The present invention relates to an independent storage facility for storing spent fuel during the decommissioning of a nuclear power plant. More particularly, the present invention relates to a system for storing spent fuel used during operation of a nuclear power plant, This is an independent storage facility that is remodeled and operated as an independent system.

Generally, there are various systems in nuclear power plants, and these various systems perform various functions while operating nuclear power plants. Nuclear power plants also have systems for storing spent fuel. Such systems for storing spent fuel are diversely dispersed in nuclear power plants.

1 is a diagram showing a related system for storing spent fuel in a conventional nuclear power plant operation. Referring to FIG. 1, the system for storing spent fuel is disposed in various buildings. The cooling system 51 of the spent nuclear fuel storage tank 50 is disposed in the nuclear fuel handling building 10 and the replenishment water supply system 52 and the cooling water supply system 53 of the spent nuclear fuel storage tank 50 are connected to the auxiliary building 20, the purification system 54 of the spent nuclear fuel storage tank is distributed and disposed in the complex building 30. [

The related system for storing the spent fuel described above functions to store the spent fuel, but also performs other functions necessary for operation of the nuclear power plant including the fuel reloading operation. The nuclear fuel handling building 10 in the nuclear power plant in operation is provided with a system such as a recharge tank 61 and a new fuel reservoir 62. The emergency power building 40 is provided with an emergency power supply system 41, .

Nuclear power plants are disassembled after the nuclear power plant has been permanently shut down, and there are the following problems in dismantling conventional nuclear power plants.

During decommissioning of nuclear power plants, spent fuel must be stored in spent fuel storage tank (50). For this purpose, the related systems for storing spent fuel (cooling system 51, makeup water supply system 52, cooling water supply system 53, and purification system 54) should be used as they are. However, the related system for storing spent nuclear fuel is not only a function for storing spent fuel, but also other necessary functions of nuclear power plant. Therefore, unnecessary maintenance costs are incurred if existing systems are kept intact, There is a problem.

In dismantling the nuclear power plant, buildings other than the fuel handling building 10 where the spent nuclear fuel storage vessel 50 is located are dismantled or remodeled to facilitate disassembly. That is, in addition to the related systems for storing spent fuel, the remaining systems are disassembled. However, the relevant systems for storing spent fuel (cooling system 51, makeup water supply system 52, coolant supply system 53, purge system 54, etc.) Is located outside the nuclear fuel handling building (10) and is dispersedly disposed in various buildings.

As the disassembly of the nuclear power plant progresses in a state where the related systems for storing the spent nuclear fuel are dispersed and disposed outside the nuclear fuel handling building 10 where the spent nuclear fuel storage vessel 50 is located, And there is a problem that the operator receives more cloth by the related systems for storing the spent nuclear fuel dispersed and disposed in the disassembling operation.

That is, the related systems for storing the spent fuel to be used after dismantling the nuclear power plant are arranged and distributed in the outer building of the nuclear fuel handling building 10 where the spent nuclear fuel storage vessel 50 is located, There is a problem that the worker is exposed to a larger amount of cloth.

Korean Registered Patent No. 10-1250750

The present invention is directed to solve the above-mentioned problems, and more particularly, to provide a system for storing spent fuel used during operation of a nuclear power plant by converting it into an independent system for only spent fuel storage in order to facilitate disassembly of the nuclear power plant, The present invention relates to an independent storage facility capable of enhancing the efficiency of storing spent nuclear fuel after disabling a permanent operation of a nuclear power plant and facilitating dismantling work of a nuclear power plant by constructing a storage facility.

The independent storage facility for storing the spent nuclear fuel among the decommissioning of the nuclear power plant of the present invention described above is an independent storage constructed by modifying the nuclear power plant and made up of independent buildings. A spent fuel reservoir disposed within the independent reservoir and capable of storing spent fuel; A cooling system disposed within the independent reservoir and capable of removing decay heat released from the spent nuclear fuel; A purification system disposed in the independent reservoir and capable of purifying water in the spent nuclear fuel storage vessel; And a cooling water supply system disposed inside the independent storage and capable of supplying cooling water to the cooling system, wherein the cooling system, the purification system, and the cooling water supply system are connected to the spent fuel storage tank And the cooling system, the purification system, and the cooling water supply system are disposed in a building such as the spent fuel storage tank.

The cooling system of the independent storage facility for storing the spent nuclear fuel among the nuclear power plant dismantling of the present invention is composed of a heat exchanger and a pump, and the cooling system is preferably a two-loop type, Preferably, the cooling water supply system is of a two-loop type, and the first loop is water-cooled and the second loop is air-cooled.

The independent storage facility for storing the spent nuclear fuel among the nuclear power plant dismantling system of the present invention is disposed inside the independent storage system and functions as a cooling system to supplement the evaporation amount lost due to the increase in the temperature of the spent nuclear fuel storage vessel. And the replenishment water supply system is preferably designed as a first-class earthquake-resistant category.

The independent storage facility for storing the spent nuclear fuel among the decommissioning nuclear power plants of the present invention further includes a desalted water supply system disposed outside the independent storage and capable of maintaining the quality of the spent nuclear fuel storage tank, It is desirable that the subsystem is designed as the first class of the seismic category.

The independent storage facility for storing the spent nuclear fuel among the decommissioning of the nuclear power plant of the present invention is disposed outside the independent storage and can supply alternative power when the power supply of the cooling system, It is desirable to further include an emergency power supply system.

The present invention resides in an independent storage facility for converting spent fuel storage related systems used during operation of a nuclear power plant into an independent system for only spent fuel storage in order to facilitate disassembly of the nuclear power plant, thereby realizing a high efficiency, low- Related system configuration becomes possible, thereby reducing operating costs. In addition, there is an advantage that the performance of the spent fuel storage tank can be improved through improvement of the old facilities.

In addition, since the independent storage facility of the present invention is independent of the external system, it is possible to perform the dismantling work in parallel with the stored spent fuel in the independent storage facility, thereby shortening the period of dismantling work, There is an advantage that the amount of receiving cloth can be reduced.

1 is a diagram showing a related system for storing spent fuel in a conventional nuclear power plant operation.
2 is a diagram illustrating an independent storage facility according to an embodiment of the present invention.

The present invention relates to an independent storage facility in which spent fuel storage related systems used during the operation of a nuclear power plant are converted into independent systems to operate the systems necessary for storing the spent fuel in order to facilitate disassembly of the nuclear power plant. Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

2, the independent storage facility of the present invention includes an independent storage 110, a spent fuel storage tank 120, a cooling system 130, a purification system 140, and a coolant supply system 150 .

The independent storage unit 110 is constructed by modifying a conventional nuclear power plant and is constructed as an independent building. Specifically, the independent reservoir 110 may be constructed by modifying the nuclear fuel handling building 10 in which the spent nuclear fuel storage vessel 50 of FIG. 1 is disposed. Conventional nuclear power plants have various problems because the systems necessary for storing spent fuel are dispersed in various buildings of nuclear power plants. Accordingly, the independent storage facility of the present invention can arrange the system necessary for storing the spent nuclear fuel dispersed in various buildings by providing the independent storage 110. That is, the independent storage unit 110 may be an independent building capable of collecting the necessary systems for storing the spent fuel at the time of dismantling the nuclear power plant.

The spent nuclear fuel storage tank 120 is a reservoir capable of storing spent fuel, and is disposed inside the independent reservoir 110. The spent fuel stored in the spent nuclear fuel storage tank 120 can be safely stored through the cooling system 130, the purification system 140, and the cooling water supply system 150.

The cooling system 130 is disposed inside the independent reservoir 110 to remove decay heat released from the spent nuclear fuel. The cooling system 130 can treat the maximum decay heat generated in the spent nuclear fuel assemblies (not shown) in the spent nuclear fuel storage tank 120 and can be formed of a heat exchanger (not shown) and a pump (not shown) have.

The cooling system 130 may have a two-loop structure. Two loops are provided with two identical systems, and for safety, the cooling system 130 may be of a two-loop type. In the case where the cooling system 130 is of a two-loop type, even if one loop fails, the operation can be performed by using another loop, and thus the stability can be improved. If the cooling system 130 is sufficient to treat the maximum decay heat generated in the spent nuclear fuel storage tank 120, the existing system used during operation of the nuclear power plant may be used as it is. If necessary, And can be modified and used according to the situation of the spent nuclear fuel storage tank 120.

The purge system 140 is disposed inside the independent reservoir 110 to purify water from the spent fuel storage tank 120. Specifically, the purification system 140 can purify water in the spent nuclear fuel storage tank 120 to maintain the dose rate of the water surface of the storage tank below the regulatory reference value, so that the operator can be prevented from approaching the periphery of the storage tank during fuel handling operation And can maintain the cleanliness of water and water surfaces.

In the conventional nuclear power plant, the purification system 54 is disposed in the composite building 30 separated from the spent nuclear fuel storage tank 50. However, in the independent storage facility of the present invention, the purging system 140 is relocated within the independent storage 110. In addition, the conventional purification system 54 has various functions required for operation of a conventional nuclear power plant. However, the purification system 140 can perform only the purification function of the spent nuclear fuel storage vessel 120 after the permanent operation of the nuclear power plant is stopped .

The purifying system 140 may be a one-loop type. The purge system 140 can be configured as a one-loop type within a range that does not affect safety and operation, and as such, the purge system 140 has the effect of reducing the maintenance cost as compared with the two-loop type .

The cooling water supply system 150 is disposed inside the independent reservoir 110 to supply cooling water to the cooling system 130. Specifically, the cooling water supply system 150 functions to supply cooling water to the heat exchanger of the cooling system 130. The conventional cooling water supply system 53 supplies cooling water to a plurality of heat exchangers in addition to the heat exchanger of the spent fuel storage tank 50 cooling system 51 during operation of the nuclear power plant and uses seawater as a final heat removal source, The scale was very large. In particular, the conventional cooling water supply system 53 is often associated with external systems and is disposed outside the nuclear fuel handling building 10 where the spent nuclear fuel storage vessel 50 is located because of its large size.

However, the cooling water supply system 150 of the present invention is modified to perform only a function for storing spent fuel, and the cooling water necessary for the heat exchanger of the cooling system 130 is re- . That is, the cooling water supply system 150 is modified to exclude supply of cooling water from other existing heat exchangers and to supply only the cooling water necessary for storing the spent nuclear fuel in the spent nuclear fuel storage tank 120. In the method of determining the cooling water, the capacity of the cooling water is formed differently according to the nuclear power plant, and is regulated considering the required cooling water capacity in the spent nuclear fuel storage tank 120 at the property right time.

The cooling water supply system 150 may be of a two-loop type, and the first loop may be water-cooled and the second loop may be air-cooled. The water-cooled type uses water to cool the heat, and the air-cooled type uses air to cool the heat. Specifically, the water heated by the heat generated in the spent nuclear fuel storage tank 120 exchanges heat with the cold water in the heat exchanger of the cooling system 130. (First loop, water-cooled type) And the water cooled in this way gets cooled down by another heat exchanger and the temperature drops (2nd loop, air-cooled).

According to an embodiment of the present invention, the cooling system 130, the purification system 140, and the cooling water supply system 150 are disposed in one independent building. In particular, the nuclear fuel handling building 10 in which the spent nuclear fuel storage vessel 120 is disposed is modified to form a building with the independent reservoir 110, and the cooling system 130, the purification system 140, And the cooling water supply system 150 are disposed to arrange the spent fuel storage tank 120 and the systems for storing the spent fuel in the same building. As described above, the system for storing the spent fuel and the spent fuel storage tank 120 are collected in one place, thereby facilitating the disassembly of the nuclear power plant and configuring a high efficiency and low capacity spent fuel related system.

According to one embodiment of the present invention, the independent storage facility of the present invention may further comprise a replenishment water supply system. The replenishment water supply system may include a replenishing water supply system 161, a desalted water supply system 162, and an external impregnation supply system 163.

The supplementary water supply system (161) is designed to be a first-class earthquake-resistant system. The supplementary water supply system (161) is designed to function as a cooling system (130) Water supply. The replenishment water supply system (161) is disposed inside the independent reservoir (110). Since the conventional replenishing water supply system 52 is required to supply replenishment water to a plurality of systems requiring replenishment water supply in addition to the spent fuel storage tank 50, the spent fuel storage tank 50 Lt; RTI ID = 0.0 > (10). ≪ / RTI >

However, the supplementary water supply system (161) of the present invention is adapted to perform only a function for storing spent fuel, and the supplementary water supply system (161) reserves supplementary water necessary for storing spent fuel And may be disposed within the independent storage 110. That is, the replenishment water supply system 161 is modified so as to supply supplementary water necessary for storage of spent fuel in the spent fuel storage tank 120 without excluding supplementary water to other existing systems. In the method of determining the makeup water, the capacity of the makeup water is different according to the nuclear power plant, and is determined based on the replenishing water capacity required in the spent nuclear fuel storage vessel 120 at the property right time.

The desalted water supply system 162 is designed as a first-class earthquake-resistant system. The desalted water supply system 162 receives fresh water from a fresh water storage tank of a fire protection system, removes soluble and floating impurities, Thereby maintaining the quality of the spent nuclear fuel storage tank 120. The dehumidifying water supply system 162 requires a lot of equipment and space such as a filter supply pump, a desalination system, a membrane type oxygen removal system, a desalination water storage tank, a desalination water transfer pump, and a cleaning facility. Therefore, when the desalinated water supply system 162 is disposed in the independent reservoir 110, it is disadvantageous in terms of cost and operating efficiency is also lowered. The desalination water supply system 162 is preferably disposed outside the independent reservoir 110.

The external sucking and supplying part system 163 is designed as an earthquake-resistant category 1, and in order to secure the function of the pump and the heat exchanger of the cooling system 130 as alternative heat removing function, emergency cooling water is replenished And the like. That is, the external sucking and supplying part system 163 is provided with a connection part capable of supplying emergency cooling water to the spent fuel storage tank 120 through a fire engine or the like. The external sucking and supplying part system 163 can use the existing system as it is without any modification and can be modified to suit the situation in the spent fuel storage tank 120.

Conventional replenishment water supply systems could include a boric acid feed system. The boron oxygen supply system functions to maintain the quality of the spent fuel storage tank by supplying the boric acid water through the chemical and volumetric control system. During operation of a nuclear power plant, a boron-rich water supply system was required, but the need for such a system would be significantly reduced after permanent operation. Thus, the independent storage facility of the present invention can be used in a manner that removes the boric acid water supply system and sprays boric acid powder when boron is needed in the spent fuel storage tank 120.

The Cask Loading pit (180) and the Cask Decon Pit (190) shown in FIG. 2 provide a work space necessary for managing the spent fuel, and are facilities necessary for maintenance of the independent storage facility.

The independent storage facility of the present invention may further comprise an emergency power supply system 171. The emergency power supply system 171 can supply alternative power when the cooling system 130 is powered off. The emergency power supply system 171 is composed of various systems such as a low temperature cooling water system, a high temperature cooling water system, a lubricant system, a starting air system, a fuel oil system, an air intake and an exhaust system. It is preferable to arrange it in a separate building 170 outside the independent storage 110. That is, the emergency power supply system 171 is disposed outside the independent reservoir 110. When the power supply to the cooling system 130, the purification system 140, and the cooling water supply system 150 is cut off, It should be capable of supplying sufficient power.

The independent storage facility for storing the spent nuclear fuel among the nuclear power plant disassembly of the present invention has the following effects.

The present invention resides in an independent storage facility for converting spent fuel storage related systems used during operation of a nuclear power plant into an independent system for only spent fuel storage in order to facilitate disassembly of the nuclear power plant, thereby realizing a high efficiency, low- Related system configuration becomes possible, thereby reducing operating costs. In addition, there is an advantage that the performance of the spent fuel storage tank can be improved through improvement of the old facilities.

In addition, since the independent storage facility of the present invention is independent of the external system, it is possible to perform the dismantling work in parallel with the stored spent fuel in the independent storage facility, thereby shortening the period of dismantling work, There is an advantage that the amount of receiving cloth can be reduced.

That is, the independent storage facility of the present invention collects and arranges systems necessary for storing spent nuclear fuel dispersed in various buildings during operation of a nuclear power plant in a single building, and has a function necessary for storing spent fuel. The independent storage facility of the present invention can remove the necessary functions during operation of the existing nuclear power plant, thereby reducing unnecessary maintenance cost and stopping the possibility of related accidents after the permanent operation stop.

In addition, since the system for storing spent fuel is collected and arranged in one building, it is easy to dismantle other systems of a nuclear power plant which is no longer used, and the amount of coating that a worker receives during dismantling work can be reduced .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, and many modifications may be made without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

110 ... Independent storage 120 ... spent fuel storage tank
130 ... cooling system 140 ... purification system
150 ... Cooling water supply system 161 ... Replenishing water supply system
162 ... desalinated water supply system 163 ... external succulent supply system
170 ... separate buildings 171 ... emergency power supply system

Claims (7)

As an independent storage facility for spent fuel storage during decommissioning of nuclear power plants,
An independent repository consisting of an independent building constructed by retrofitting the nuclear power plant;
A spent fuel reservoir disposed within the independent reservoir and capable of storing spent fuel;
A cooling system disposed within the independent reservoir and capable of removing decay heat released from the spent nuclear fuel;
A purification system disposed in the independent reservoir and capable of purifying water in the spent nuclear fuel storage vessel;
A cooling water supply system disposed in the independent reservoir and capable of supplying cooling water to the cooling system; And
A supplemental water supply system disposed inside the independent reservoir and capable of supplying supplemental water supplementing evaporation amount lost due to temperature increase of the spent fuel storage tank,
The replenishment water supply system is designed as a first-
The cooling system, the purification system, the cooling water supply system, and the makeup water supply system only function to store spent fuel in the spent fuel storage tank,
The cooling water supplied through the cooling water supply system is reformed so that only the cooling water necessary for storing the spent nuclear fuel can be supplied,
The replenishment water supplied through the replenishing water supply system is modified so that only the replenishment water necessary for storing spent fuel can be supplied,
The cooling system, the purification system, the cooling water supply system, and the makeup water supply system are disposed in a building such as the spent fuel storage tank,
Wherein said independent reservoir is capable of collecting a system for storing spent fuel when a nuclear power plant is dismantled, and an independent storage facility for storing spent nuclear fuel during dismantling of said nuclear power plant. The method according to claim 1,
Characterized in that the cooling system comprises a heat exchanger and a pump, and the cooling system comprises a two-loop system. The independent storage facility for storing spent nuclear fuel during dismantling of a nuclear power plant. The method according to claim 1,
Characterized in that the purification system is a one-loop type, and an independent storage facility for storing spent nuclear fuel among decommissioning nuclear power plants. The method according to claim 1,
Wherein the cooling water supply system is of a two-loop type, wherein the first loop is water-cooled and the second loop is air-cooled. delete The method according to claim 1,
A second storage unit disposed outside said independent storage,
And a desalted water supply system capable of maintaining the quality of the spent nuclear fuel storage tank, wherein the desalted water supply system is designed as a first-class earthquake-resistant category. . The method according to claim 1,
An external storage device disposed outside the independent storage,
Further comprising an emergency power supply system capable of supplying alternative power when the power supply to the cooling system, the purification system, and the cooling water supply system is disconnected.

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