JPH0325200Y2 - - Google Patents

Description

[Detailed description of the invention] [Technical field of the invention] This invention relates to nuclear power plant auxiliary equipment.
In particular, it concerns BWR type nuclear power plant auxiliary equipment.

[Technical background of the invention and its problems]

Generally, in a BWR type nuclear power plant, a condensate tank is installed as an auxiliary equipment as a water source to supply water to various equipment of the nuclear power plant, high pressure core spray system, or reactor isolation cooling system. . Normally, the capacity of this condensate tank is approximately 3,600 m ² for a nuclear power plant with an output of 11 million kW.

By the way, as shown in FIG. 1, the inflow side of the condensate tank 1 is connected to a radioactive waste treatment facility 4 through a conduit 3 in which an on-off valve 2 is interposed. On the other hand, two pipes 5 and 6 are arranged in parallel on the outflow side of the condensate tank 1, and an on-off valve 7 and a pump 8 are provided.
A pipe (hereinafter referred to as a supply pipe) 5 is connected to various equipment (not shown) in the nuclear power plant, and another pipe 6 with an on-off valve 9 is connected to high pressure. It is in communication with a core spray system or a reactor isolation cooling system (not shown).

Note that a pipe line 12 in which an on-off valve 10 and a check valve 11 are interposed is branched from the upstream position of the on-off valve 9 of the pipe line 6, and the other end of this pipe line 12 is connected to the on-off valve 9 of the pipe line 6. It is connected at an intermediate position between the valve 7 and the pump 8. Further, a pipe line 14 having an on-off valve 13 interposed therein is branched from a downstream position of the pump 8 in the pipe line 5, and the other end of this pipe line 14 is connected to the condensate tank 1. Further, the inflow side of the radioactive waste treatment facility 4 is connected through a pipe 15 to various sump tanks (not shown) of the nuclear power plant. In FIG. 1, the on-off valves 2, 7, 9, and 13 are normally open valves, while the on-off valve 10 is a normally closed valve.

Next, the operation of conventional nuclear power plant auxiliary equipment will be explained.

FIG. 1 shows the condensate tank 1 in its normal state. That is, during normal operation of the plant, water sent from various sump tanks through the pipe 15, the radioactive waste treatment facility 4, and the pipe 3 is collected in the condensate tank 1 and temporarily stored there. This stored water is then pumped through the pipe 5 by the pump 8.
is sent to various equipment in the plant. The water is then used as washing water, pump seal water, etc. in these various devices, and the used water is led back to the sump tank.

In addition, even when there is no need to supply water from the condensate tank 1 to various devices, the pump 8, which has a large starting load,
The water in the condensate tank 1 is circulated by the pump 8 through the conduit 5 and the conduit 14 in order to keep it in operation at all times.

Note that if water is required for the high-pressure core spray system or reactor isolation cooling type, water in the condensate tank 1 is supplied through the pipe 6.

In addition, from the radioactive waste treatment facility 4 to the condensate tank 1
When the condensate tank 1 is full, water from the radioactive waste treatment facility 4 is cut off.

Next, to explain the case where the condensate tank 1 is inspected once every 5 to 10 years, water in the condensate tank 1 is pumped by a pump 8 through a pipe 5 to a reactor well and equipment temporary pool (not shown). will be transferred to. In this case, the water at the bottom of the condensate tank 1 is transferred by the pump 8 once through the pipe 12 and then through the pipe 5 to the reactor well and the equipment temporary storage pool.

Then, the condensate tank 1 is emptied and the interior is inspected, and once the inspection is completed, the water in the reactor well and equipment temporary storage pool is returned to the condensate tank 1.

Although the interior of the condensate tank 1 is inspected as described above, the conventional method has the following drawbacks.

That is, when inspecting the condensate tank 1, it is necessary to shut off water from the radioactive waste treatment equipment 4, so the operation of the radioactive waste treatment equipment 4 is restricted. Further, when the condensate tank 1 is inspected, the water in the condensate tank 1 becomes empty, so water cannot be supplied to various devices during the inspection, and plant operation is restricted.

In addition, in a BWR type nuclear power plant, for example, a reactor coolant recirculation system (not shown)
A suppression pool is provided to prevent radioactive materials that could be released from the reactor core from being dissipated to the outside in the event of a rupture. Normally, the empty tank capacity of this suppression pool is 11 million kW, which is equivalent to the output of a nuclear power plant.
The size of the class is approximately ^4000cm3 .

As shown in FIG.
A pair of parallel conduits 16 and 18 8 communicate with a suppression pool storage tank 20 . This suppression pool storage tank 20
The facility is used to temporarily store water in the suppression pool during inspections of the suppression pool, which are performed several times during the design life of a nuclear power plant.

When inspecting the suppression pool, the water in the suppression pool is guided to the suppression pool storage tank 20 through the pipe 16, and after the inspection is completed, the water is introduced into the suppression pool storage tank 20 by the pump 17. water is returned to the suppression pool.

The suppression pool storage tank 20 is used as described above, but as described above, this suppression pool storage tank 20 is used only a few times during the plant design life, so it cannot be used effectively. It was hoped that it would be used for.

[Purpose of invention]

This idea was created in view of these circumstances,
The purpose of the present invention is to provide auxiliary equipment for a nuclear power plant that can supply water to various equipment in the plant during inspections of condensate tanks and that can effectively use radioactive waste treatment equipment and suppression pool storage tanks.

[Summary of the idea] The above purpose is to temporarily store water sent from various sump tanks of a nuclear power plant through radioactive waste treatment equipment, and to pump this stored water through supply pipes to various equipment. In nuclear power plant auxiliary equipment equipped with a condensate tank that supplies washing water, etc., and a suppression pool storage tank that temporarily stores water in the suppression pool during suppression pool inspection,
A pipe line that leads water in a condensate tank to a suppression pool storage tank, a pipe line that supplies water from the suppression pool storage tank to the upstream side of the pump in the supply pipe line, and a suppression pool storage tank. This is achieved by providing a pipe line leading water from the radioactive waste treatment facility to the condensate tank and a pipe line leading water from the radioactive waste treatment facility to the suppression pool storage tank.

[Example of idea]

Hereinafter, the present invention will be explained based on examples. In addition, the same parts as before are given the same symbols,
The explanation will be omitted.

FIG. 3 shows an embodiment of the present invention, in which a pipe line 21 is provided branching off from the pipe line 14 of the condensate tank 1;
The other end is connected to a suppression pool storage tank 20 via an intermediate on-off valve 22. In addition, the suppression pool storage tank 20 is connected to another conduit 2.
3 is connected, and the other end of this pipe line 23 is connected to the intermediate position between the on-off valve 7 and the pump 8 of the pipe line 5 from the condensate tank 1 via an on-off valve 24 and a check valve 25. It is connected. Furthermore, a pipe line 26 is branched from a position downstream of the pump 17 of the pipe line 18 from the suppression pool storage tank 20, and the other end of this pipe line 26 is connected to a sump tank (not shown) and a radioactive waste tank. It is connected to a pipe line 15 that communicates with the processing equipment 4 . In addition, a pipe line 27 is branched from the upstream position of the on-off valve 2 of the pipe line 3 that communicates the radioactive waste treatment equipment 4 and the condensate tank 1, and this pipe line 27 is connected to the supply via an on-off valve 28 in the middle. It is connected to a storage tank 20.

In addition, in Fig. 3, on-off valves 2, 7, 9, 1
3 and 28 are normally open valves, while open/close valves 10, 22,
24 represents a normally closed valve.

Next, the operation of the embodiment will be explained.

FIG. 3 shows the normal state of the embodiment. That is, water treatment during normal operation of the plant is the same as before. However, in the case of this embodiment, when water is returned to the condensate tank 1 from the radioactive waste treatment facility 4 through the pipe 3, when the condensate tank 1 is full, the water is suppressed through the pipe 27. It leads to the pool storage tank 20. Also,
The same applies when the water leaving the radioactive waste treatment facility 4 has a high radioactivity concentration.

When inspecting the inside of the condensate tank 1, the on-off valve 22 of the pipe line 21 is opened, the on-off valve 13 of the pipe line 14 is closed, and the pump 8 is operated to
1 leads water in the condensate tank 1 to a suppression pool storage tank 20. In this case, the water at the bottom of the condensate tank 1 is pumped through the pipe 12,
5, 14, and 21 to the suppression pool storage tank 20. At the same time, the on-off valve 24 of the conduit 23 is opened, the on-off valve 7 of the conduit 5 is closed, and the water source of the pump 8 is switched from the condensate tank 1 to the suppression pool storage tank 20.

When the condensate tank 1 is empty, the inside of the condensate tank 1 is inspected, and once the inspection is completed, the water in the suppression pool storage tank 20 is transferred to the pipes 18, 26, 15 for radioactive disposal. It is returned to the condensate tank 1 through the material treatment equipment 4 and the pipe line 3.

On the other hand, inspection of the suppression pool will be carried out in the same way as before. However, when draining water from the suppression pool, if there is water in the suppression pool storage tank 20, the water in the suppression pool storage tank 20 is pumped through the pipes 18, 26, 15. It is necessary to return the radioactive waste to the condensate tank 1 through the radioactive waste treatment facility 4 and the pipe line 3.

According to the above embodiment, water is stored in the suppression pool storage tank 20 even when the inside of the condensate tank 1 is inspected, so water can be supplied to various devices through the pipes 23 and 5. Therefore, plant operation is not restricted. Also, condensate tank 1
During inspection, the water flowing through pipe 3 is cut off, but
Since this blocked water can be transferred to the suppression pool storage tank 20, the radioactive waste treatment equipment 4 can be used effectively. A further advantage is that the suppression pool storage tank 20, which has been used only a few times during the design life of the plant, can be used effectively.

[Effect of idea]

As explained above, the present invention temporarily stores water that is sent from various sump tanks in nuclear power plants through radioactive waste treatment equipment, and then pumps this stored water through supply pipes to various equipment. In nuclear power plant auxiliary equipment that is equipped with a condensate tank that supplies washing water, etc., and a suppression pool storage tank that temporarily stores water in the suppression pool during suppression pool inspection, A pipe line that leads water to a suppression pool storage tank, a pipe line that supplies water from the suppression pool storage tank to the upstream side of the pump in the supply line, and from the suppression pool storage tank to a condensate tank. There are pipes that lead water and pipes that lead water from the radioactive waste treatment equipment to the suppression pool storage tank, so water can be supplied to various equipment in the plant when inspecting the condensate tank. Moreover, it has the advantage that radioactive waste treatment equipment and suppression pool storage tanks can be used effectively.

[Brief explanation of the drawing]

Figures 1 and 2 are diagrams showing the outline of conventional nuclear power plant auxiliary equipment, respectively. Figure 1 is a diagram of the pipes near the condensate tank, and Figure 2 is the diagram of the pipes near the suppression pool storage tank. 3 are pipe diagrams schematically showing an embodiment of the nuclear power plant auxiliary equipment according to the present invention. 1... Condensate tank, 3, 5, 6, 12, 14,
15, 16, 18, 21, 23, 26... pipe line,
4...Radioactive waste treatment equipment, 8...Pump, 2
0...Suppression pool storage tank.

Claims (1)

[Scope of Claim for Utility Model Registration] 1. Water sent from various sump tanks of a nuclear power plant through radioactive waste treatment equipment is temporarily stored, and this stored water is sent to various equipment by pumps through supply pipes. In nuclear power plant auxiliary equipment that is equipped with a condensate tank that supplies washing water, etc., and a suppression pool storage tank that temporarily stores water in the suppression pool during suppression pool inspection, A pipe line that leads water to a suppression pool storage tank, a pipe line that supplies water from the suppression pool storage tank to the upstream side of the pump in the supply line, and from the suppression pool storage tank to a condensate tank. A nuclear power plant auxiliary equipment characterized by having a conduit for guiding water and a conduit for guiding water from a radioactive waste treatment facility to a suppression pool storage tank. 2 The pipe that leads water from the suppression pool storage tank to the condensate tank is branched from the pipe that returns water from the suppression pool storage tank to the suppression pool, and the other end is connected from the sump tank to the radioactive waste treatment A nuclear power plant auxiliary equipment according to claim 1, characterized in that the equipment is connected to a conduit that leads water to the equipment.