JP2009180526A - Fuel pool water supply system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fuel pool water supply system which enables automatically supplying fuel pool water, at an emergency, such as, earthquake. <P>SOLUTION: The fuel pool water supply system includes a water source 1 of make-up water, a fuel-pool water level gauge 12 for measuring the water level of a fuel pool 8; a skimmer surge tank water level gauge 13 for measuring the water level of a skimmer surge tank 11; a pump 3 activated or stopped automatically by signals, from at least one of the fuel master water level gauge 12 and the skimmer surge tank water level gauge 13; a fuel pool master valve 7 placed in a pipe connected from the pump 3 to the fuel pool 8 and opened and closed automatically by signals from the fuel pool water level gauge 12; and a skimmer surge tank master valve 10, placed in a pipe branched off from the pipe to the fuel pool 8 and connected to the skimmer surge tank 11 and opened and closed automatically by signals from the skimmer surge tank water level gauge 13, in the fuel-pool water supply system for supplying the make-up water to the fuel pool 8 to store the spent fuel of a reactor. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a fuel pool water supply system for supplying water to a fuel pool of a nuclear power plant.

  In general, a fuel pool water replenishment system of a boiling water nuclear power plant employs a method of manually replenishing water at the operator's discretion when the water level of the fuel pool drops. Moreover, the drainage equipment of the surplus water of this fuel pool water is known (for example, refer patent document 1). Such fuel pool water replenishment systems include a condensate storage tank, a condensate storage tank, or a fuel pool replenishment water system and a suppression pool purification system that replenish the fuel pool with water from the suppression pool.

  FIG. 2 is a configuration diagram showing a configuration of a conventional fuel pool water supply system.

  As shown in the figure, in a conventional general fuel pool water replenishment system, a suction pipe 2, a pump 3 and a discharge pipe 4 are connected to a water source 1 for make-up water. The discharge pipe 4 is connected to the auxiliary machine cooling system surge tanks 6a to 6c via the auxiliary machine cooling system surge tank main valves 5a to 5c. Further, the fuel pool 8 is connected to the fuel pool 8 through the fuel pool main valve 7.

  The skimmer surge tank 11 is not connected to the fuel pool makeup water system, but is configured to receive replenishment from another makeup water system when the water level drops.

In the conventional boiling water reactor, when the water level at the replenishment destination drops, the operator starts the pump 3 and the auxiliary equipment cooling system surge tank installed in the pipe connected to the replenishment destination By performing the opening operation of the main valves 5 a to 5 c or the fuel pool main valve 7, the makeup water can be injected into the fuel pool 8.
JP-A-4-116498

  In the conventional fuel pool water replenishment system described above, it is necessary for the operator to confirm the decrease in the fuel pool water level and to replenish the fuel pool water by starting the pump and opening the valve. For this reason, there has been a problem that the load on the operator increases in an emergency such as an overflow of fuel pool water due to an earthquake or the like, or damage of the fuel pool.

  The present invention has been made to solve the above problems, and an object of the present invention is to provide a fuel pool water supply system that can automatically supply fuel pool water in an emergency such as an earthquake.

  In order to achieve the above object, the present invention is a fuel pool water supply system that supplies makeup water to a fuel pool that stores spent fuel of a nuclear reactor, and measures a water source of the makeup water and a water level of the fuel pool. A fuel pool water level meter, a skimmer surge tank water level meter that measures the water level of the skimmer surge tank, a pump that is automatically activated or stopped by a signal of at least one of the fuel pool water level meter and the skimmer surge tank water level meter, Installed in a pipe connected to the fuel pool from the pump and automatically opened and closed by a signal from the fuel pool water level meter, and installed in a pipe branched from the pipe to the fuel pool and connected to the skimmer surge tank A skimmer surge tank main valve that automatically opens and closes in response to a signal from the skimmer surge tank water level meter. Than is.

  According to the fuel pool water replenishment system of the present invention, it becomes possible to replenish water without the operator's operation, reducing the burden on the operator in the event of an emergency such as an earthquake, and the fuel pool water replenishment system. Reliability can be increased.

  Embodiments of a fuel pool water supply system according to the present invention will be described below with reference to the drawings. Here, the same or similar parts are denoted by common reference numerals, and redundant description is omitted.

  FIG. 1 is a configuration diagram showing a configuration of a fuel pool water supply system according to an embodiment of the present invention.

  First, the configuration of the fuel pool water supply system will be described with reference to FIG.

  As shown in FIG. 1, a suction pipe 2, a pump 3, and a discharge pipe 4 are sequentially connected to a water source 1 for replenishment to the fuel pool 8. The discharge pipe 4 is connected to auxiliary machine cooling system surge tanks 6a to 6c via auxiliary machine cooling system surge tank main valves 5a to 5c, respectively. Further, the fuel pool 8 is connected to the fuel pool 8 via the fuel pool main valve 7.

  A skimmer surge tank connection pipe 9 is connected upstream of the fuel pool main valve 7. The other end of this clearance surge tank connecting pipe 9 is connected to a clearance surge tank 11 via a clearance surge tank main valve 10.

  Further, the water level signals of the fuel pool water level meter 12 and the skimmer surge tank water level meter 13 are input signals to the makeup water flow rate control device 14. A signal from the makeup water flow control device 14 is output to the pump 3, the fuel pool main valve 7, and the skimmer surge tank main valve 10.

  Next, the operation of the embodiment configured as described above will be described.

  When the water level of the fuel pool 8 drops to a predetermined water level, the pump 3 is automatically activated by a water level low signal from the fuel pool water level meter 12. Further, the fuel pool main valve 7 is automatically opened, so that the water from the water source 1 is automatically injected into the fuel pool 8. When the water level of the fuel pool 8 reaches a predetermined water level, the pump 3 is automatically stopped by the water level high signal from the fuel pool water level meter 12, and the fuel pool main valve 7 is automatically closed.

  Also, the pump 3 is automatically activated by a low water level signal from the skimmer surge tank water level meter 13 and the skimmer surge tank main valve 10 is automatically opened, so that the water in the water source 1 is automatically sent to the skimmer surge tank 11. Injected. Further, the pump 3 is automatically stopped by the water level high signal from the skimmer surge tank water level meter 13, and the skimmer surge tank main valve 10 is automatically closed.

  When water level low signals from the two water level gauges of the fuel pool water level gauge 12 and the skimmer surge tank water level gauge 13 are generated at the same time, injection is started to both the fuel pool 8 and the skimmer surge tank 11. When a water level high signal is output from one of the water level gauges, the pump 3 does not stop, and the main valve to the load in which this one water level gauge is installed is automatically closed.

  The opening degree of the fuel pool main valve 7 and the skimmer surge tank main valve 10 is controlled by a signal controlled via the makeup water flow control device 14, and the water injection flow rate to the fuel pool 8 and the skimmer surge tank 11 is changed. Thus, the water levels of the fuel pool 8 and the skimmer surge tank 11 can be gently recovered.

  In addition, the signal from the makeup water flow rate control device 14 to the pump 3 is provided with a timer (not shown) for preventing unnecessary start and stop. That is, when the pump 3 is automatically started or stopped by the signal of at least one of the fuel pool water level meter 12 and the skimmer surge tank water level meter 13, a timer for adjusting the starting or stopping time is provided.

  With such a configuration, it is possible to suppress malfunction caused by temporary increase or decrease of the water level caused by sloshing during an earthquake, to start up appropriately, and to stop when the water level is secured.

  According to the present embodiment, the pump 3 is automatically started and water is injected by the low water level signal of the fuel pool water level meter 12 of the fuel pool or the skimmer surge tank water level meter 13 of the skimmer surge tank, so that the operation of the operator is performed. It becomes possible to replenish water without passing through the water, and the water levels of the fuel pool 8 and the skimmer surge tank 11 can be gently recovered. Thus, the burden on the operator can be reduced in an emergency such as an earthquake, and the reliability of the fuel pool water supply system can be improved.

  Further, a skimmer surge tank used as a water source for the fuel pool cooling and purification system is provided with a supply line composed of a system having a low earthquake resistance class. As shown in this embodiment, the reliability of the fuel pool cooling and purification system including the skimmer surge tank with a low earthquake resistance class is provided by providing an automatic supply line from a system with a high earthquake resistance class as a supply system to the fuel pool. Can also be increased.

  Next, a fuel pool water supply system according to a second embodiment of the present invention will be described with reference to FIG.

  The second embodiment of the present invention is different from the first embodiment of the present invention in the following points.

  In this figure, there is provided a fuel pool cooling and purification system pump (not shown) for taking the fuel pool water of the fuel pool 8 from the skimmer surge tank 11 and circulating it to the fuel pool 8 through purification equipment and a heat exchanger. Yes.

  Here, the capacity of the pump 3 is set to be equal to or greater than the capacity of the fuel pool cooling and purification system pump.

  Further, when the water level of the skimmer surge tank 11 is lowered, a replenishing water supply means (not shown) for preferentially supplying make-up water to the skimmer surge tank 11 regardless of the drop in the water level of the fuel pool 8 is provided. ing.

  In this Embodiment comprised in this way, after the water injection start of the pump 3, it is suppressed that the water level of the skimmer surge tank 11 falls more than the present water level. For this reason, when the water level of the skimmer surge tank 11 is abnormally lowered, it is possible to avoid forcibly stopping the pump 3 in order to protect the fuel pool cooling and purification system pump. As a result, the fuel pool water in the fuel pool 8 can be continuously cooled by the heat exchanger of the fuel pool cooling and purification system.

  Further, since all the fuel pool water discharged from the fuel pool cooling and purification system pump is circulated to the fuel pool 8, the water level of the fuel pool 8 can be recovered early.

  The embodiments of the present invention have been described above. However, the present invention is not limited to the embodiments described above, and departs from the gist of the present invention by combining the configurations of the embodiments. Various modifications can be made without departing from the scope.

The block diagram which shows the structure of the fuel pool water replenishment system of the 1st and 2nd embodiment of this invention. The block diagram which shows the structure of the conventional fuel pool water supply system.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Water source, 2 ... Suction piping, 3 ... Pump, 4 ... Discharge piping, 5a-c ... Auxiliary equipment cooling system surge tank main valve, 6a-c ... Auxiliary equipment cooling system surge tank, 7 ... Fuel pool original valve, 8 DESCRIPTION OF SYMBOLS ... Fuel pool, 9 ... Clearance surge tank connection piping, 10 ... Clearance surge tank main valve, 11 ... Clearance surge tank, 12 ... Fuel pool water level meter, 13 ... Clearance surge tank water level meter, 14 ... Supply water flow rate control device.

Claims (4)

In a fuel pool water supply system that supplies makeup water to a fuel pool that stores spent fuel of a nuclear reactor,
A water source of the makeup water;
A fuel pool water level meter for measuring the water level of the fuel pool;
A skimmer surge tank water level meter that measures the water level of the skimmer surge tank,
A pump that is automatically activated or stopped by a signal from at least one of the fuel pool water level meter and the skimmer surge tank water level meter;
A fuel pool original valve that is installed in a pipe connected from the pump to the fuel pool and automatically opens and closes by a signal of the fuel pool water level meter;
A skimmer surge tank main valve that is installed in a pipe connected from the pump to the skimmer surge tank and automatically opens and closes by a signal of the skimmer surge tank water level meter;
A fuel pool water replenishment system comprising:   The apparatus further comprises a makeup water flow rate control device for controlling a water injection amount to at least one of the fuel pool and the skimmer surge tank by a signal of at least one of the fuel pool water level meter and the skimmer surge tank water level meter. The fuel pool water supply system according to claim 1.   The makeup water flow control device has a timer for adjusting a start or stop time when the pump is automatically started or stopped by a signal of at least one of the fuel pool water level meter and the skimmer surge tank water level meter. The fuel pool water replenishment system according to claim 1, further comprising: A fuel pool cooling and purification system pump for circulating the pool water of the fuel pool taken from the skimmer surge tank to the fuel pool via a purification facility and a heat exchanger;
The pump having a capacity equal to or greater than the capacity of the fuel pool cooling and purification system pump;
Replenishment water supply means for supplying replenishment water to the skimmer surge tank by the pump when the skimmer surge tank water level decreases;
The fuel pool water supply system according to any one of claims 1 to 3, further comprising:

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