KR20130027838A - Sprinkling water system for cooling a nuclear reactor - Google Patents

Abstract

PURPOSE: A sprinkling system for nuclear reactors is provided to implement a cooling function of a nuclear reactor even in an accident by being equipped with multiple water sources. CONSTITUTION: A refueling water storage tank(240) holds water. Multiple storage tanks(250) supply additional water when the water is insufficient. A nuclear reactor makeup water storage tank(260) supplies additional water to the refueling water storage tank when the water is insufficient. A spray header(210) jets the water of the refueling water storage tank with high pressure to a nuclear reactor(100). An auxiliary pipe(220) is supplied with water from an external water source.

Description

Sprinkling Water System for Cooling a Nuclear Reactor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reactor cooling sprinkling system, and more particularly, to a reactor cooling sprinkling system capable of securing a plurality of water sources to increase the reliability of the reactor cooling function.

Reactors in a nuclear power plant are cooled by sprinkling of coolant, which is equipped with a cooling system. Conventional cooling systems for cooling reactors use a single water source, which results in inadequate cooling of the reactor in the event of a reactor coolant loss or major steam engine failure in a nuclear power plant.

As a technique for cooling the outer wall of the lower part of the reactor vessel during a serious accident of a nuclear power plant, the design of the reactor joint immersion system disclosed in Korean Patent No. 10-0204188 is improved, but the above patent is also limited to a water source. It is.

Accordingly, the present invention has been made to solve the above-mentioned problems, and the object of the present invention is to provide a reactor cooling watering system capable of securing a reactor even in the event of an accident of a reactor building by securing a plurality of water sources. have.

In order to solve the above problems, the reactor cooling sprinkling system according to the present invention includes a replacement water storage tank for holding water; A plurality of storage tanks for supplying additional water to the replacement water storage tank when water in the replacement water storage tank is insufficient; A reactor supplementary water storage tank for supplying additional water to the exchange water storage tank when water of the exchange water storage tank and the plurality of storage tanks is insufficient; A spray header receiving water from the exchange water storage tank through the sprinkling pipe to spray the high pressure into the reactor; And an auxiliary pipe connected to the sprinkling pipe and receiving water from an external water source.

In addition, the replacement water storage tank is a submersible pump for sucking the water inside and supplying to the water pipe.

In addition, the plurality of storage tanks and the reactor supplemental water storage tank is installed at a position higher than the height of the replacement water storage tank, it is possible to supply the water to the replacement water storage tank through the pipe connected to the bottom.

According to the reactor cooling sprinkling system of the present invention, a large number of various water sources can be secured, and water for cooling the reactor can be stably supplied in the event of a serious accident in the reactor containment vessel.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing a sprinkling system for reactor cooling according to the present invention.
Figure 2 is a block diagram showing the configuration of a spraying system for reactor cooling according to the present invention.

DETAILED DESCRIPTION Hereinafter, embodiments of the present invention in which the above object can be specifically realized are described with reference to the accompanying drawings. In describing the embodiments, the same names and symbols are used for the same components, and additional description thereof will be omitted below.

1 is a view showing a reactor cooling sprinkling system according to the present invention, Figure 2 is a block diagram showing the configuration of the reactor cooling spraying system.

1 and 2, the reactor 100 is disposed in the reactor containment vessel 102, and steam generators 110 are disposed on both sides of the reactor 100. In addition, the primary side hot tube is provided with a pressurizer 120 to adjust the pressure in the closed pipe. In addition, a pair of coolant pumps (RCP) 130 is disposed with the reactor 100 interposed therebetween.

Reactor cooling sprinkling system 200 is for spraying the cooling water in the reactor 100 when the reactor coolant loss accident or the main steam engine failure accident occurs, the spray header 210 and the heat exchanger 230 and the water source (water source) (240,250,260,270).

The spray header 210 may be disposed above the reactor 100 to cool the reactor 100 by spraying coolant supplied through the water pipe 212 into the reactor building.

The sprinkling pipe 212 is connected to the replacement water storage tank 240, the plurality of storage tanks 250, and the reactor supplemental water storage tank 260 that holds the water in order to supply cooling water to the spray header 210. In addition, the watering pipe 212 is connected to the auxiliary pipe 220 for receiving water from the fire truck / water truck (270).

An In-Containment Refueling Water Storage Tank (IRWST) 240 holds cooling water for cooling the reactor 100. The exchange water storage tank 240 is disposed to surround the lower inner wall of the reactor containment container 102 inside the reactor containment container 102. The exchange water storage tank 240 includes an underwater pump 242 for supplying water to the heat exchanger 230.

That is, the submersible pump 242 is for supplying water from the exchange water storage tank 240 to the heat exchanger 230, and is disposed inside the exchange water storage tank 240. In this way, the submersible pump 242 is disposed inside the exchange water storage tank 240, it is possible to simplify the path to the water supply.

The exchange water storage tank 240 is connected to the plurality of storage tanks (CST) 250 and the reactor supplemental water storage tank (RMWST) 260 to replenish water.

The plurality of storage tanks 250 are connected to the exchange water storage tank 240 through the first pipe 252. The first pipe 252 may be connected to the exchange water storage tank 240 at the lower portion of the plurality of storage tanks 250, and is opened or closed by the first valve 254. That is, the first valve 254 controls the supply of water held by the plurality of storage tanks 250 to the replacement water storage tank 240, and may be operated by manual operation or operation by a control signal.

In addition, the plurality of storage tank 250 is disposed at a position higher than the height of the replacement water storage tank 240. Therefore, the plurality of storage tanks 250 may supply the water held in the plurality of storage tanks 250 to the replacement water storage tank 240 through the adjustment of the first valve 254 without a separate pump.

In addition, the plurality of storage tanks 250 are pressurized with nitrogen, and thus, even when the pressure in the reactor storage container 102 increases during an accident, water can be sufficiently supplied to the replacement water storage tank 240.

The reactor supplemental water storage tank 260 is connected to the exchange water storage tank 240 through the second pipe 262. The second pipe 264 may be connected to the replacement water storage tank 240 at the lower portion of the reactor supplemental water storage tank 260, and may be opened or closed by the second valve 264. In this case, a part of the second pipe 262 may be shared with the first pipe 252, and the parts shared by the first and second pipes 252 and 262 may be exchanged with the first and second valves 254 and 264. It may correspond to an area between the storage tanks 240. In addition, the second valve 264 controls supply of the water retained by the reactor supplemental water storage tank 260 to the replacement water storage tank 240, and may be operated by manual operation or control by a control signal.

In addition, the reactor supplemental water storage tank 260 is disposed at a position higher than the height of the exchange water storage tank 240 and is retained in the reactor supplemental water storage tank 260 through adjustment of the second valve 264 without a separate pump. Water can be supplied to the replacement water storage tank 240.

In addition, the reactor make-up water storage tank 260 is pressurized with nitrogen, and thus water can be supplied to the replacement water storage tank 240 even if the pressure of the reactor storage container 102 increases at the time of an accident.

An external water source connected to the auxiliary pipe 220 may be a fire engine / spray 270 or a fire hose. The third valve 222 is positioned between the sprinkling pipe 212 and the auxiliary pipe 220 to adjust the water supplied to the sprinkling pipe 212 through the auxiliary pipe 220.

Looking at the operation of the reactor water spraying system 200 according to the present invention as follows. When an accident such as a loss of coolant or a failure of a main engine occurs in a nuclear power plant, the submersible pump 242 sucks water in the exchange water storage tank 240 and provides the heat exchanger 230 through the water spray pipe 212. do. The heat exchanger 230 cools the water supplied from the exchange water storage tank 240 and provides it to the spray header 210 through the sprinkling pipe 212. The spray header 210 injects high pressure the cooling water supplied from the heat exchanger 230 to the reactor 100.

When the water in the replacement water storage tank 240 decreases in this process, the plurality of storage tanks 250 and the reactor supplemental water storage tank 260 are controlled by the first and second valves 252 and 262. Water is supplied to the tank. Supplying additional water to the exchange water storage tank 240 may be a water source is selected from the plurality of storage tank 250 or the reactor supplemental water storage tank 260 to supply water sequentially, or a plurality of The storage tank 250 and the reactor supplemental water storage tank 260 may supply water at the same time.

In this case, the plurality of storage tanks 250 and the reactor supplemental water storage tank 260 may be pressurized with nitrogen to smoothly supply water to the exchange water storage tank 240 even if the pressure of the reactor containment building increases during an accident.

In addition, when power supply is not possible due to a serious accident such as a station black out, the submersible pump 242 may not operate. In this case, the spray header 210 may receive water from an external water source through the auxiliary pipe 220.

It is to be understood by those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope of the invention,

Accordingly, the above-described embodiments are to be considered illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents are intended to be included within the scope of the present invention.

100 reactor 102 reactor containment vessel
110: steam generator 120: pressurizer
130: coolant pump 210: spray header
212: watering pipe 220: auxiliary pipe
230: heat exchanger 240: exchange water storage tank
242: submersible pump 250: multiple storage tank
260: reactor supplementary water storage tank 270: watering car
222,252,262: Valve

Claims (3)

A replacement water storage tank for holding water;
A plurality of storage tanks for supplying additional water to the replacement water storage tank when the water in the replacement water storage tank is insufficient;
A reactor replenishment water storage tank for supplying additional water to the replacement water storage tank when water of the replacement water storage tank and the plurality of storage tanks is insufficient;
A spray header receiving water from the exchange water storage tank through a watering pipe, and spraying a high pressure into a reactor; And
And an auxiliary pipe connected to the sprinkling pipe and receiving water from an external water source.
The method of claim 1,
And the exchange water storage tank is an underwater pump that sucks the water inside and supplies the water to the sprinkling pipe.
The method of claim 1,
The plurality of storage tanks and the reactor supplemental water storage tank are installed at a position higher than the height of the exchange water storage tank, and supplies water to the exchange water storage tank through a pipe connected to the lower portion for cooling the reactor. Watering system.

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