JP2016008828A - Sampling device and method of reactor containment vessel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To achieve sampling of atmospheric gas in a containment vessel by using a portable sampling device when a monitoring function of an atmosphere monitor part or a sampling rack part is shut down.SOLUTION: A sampling device of a reactor containment vessel includes: a sampling pipe 20a for guiding atmospheric gas in a reactor containment vessel 1 to an atmosphere monitor part 7 or a sampling rack part 14; and at least one sampling pedestal 6a provided to the sampling pipe 20a. When a monitoring function of the atmosphere monitor part 7 or the sampling rack part 14 is shut down, a portable sampling device 18 is connected to the sampling pedestal 6a.

Description

  The present invention relates to a reactor containment vessel sampling apparatus and a sampling method for monitoring the atmosphere in the reactor containment vessel.

  In the event of a severe accident at a nuclear power plant, hydrogen that may cause hydrogen explosion may occur in the reactor containment vessel, so it is necessary to constantly monitor the hydrogen concentration and oxygen concentration in the reactor containment vessel. Therefore, the atmospheric gas in the reactor containment vessel is guided to the atmosphere monitoring unit via the sampling pipe, and the hydrogen concentration and the oxygen concentration meter are used to measure the hydrogen concentration and the oxygen concentration (Patent Document 1).

  In addition, in nuclear power plants, in order to monitor leakage in the containment vessel, there is a means for guiding the atmospheric gas in the containment vessel to the sampling rack part through the sampling pipe and measuring the moisture in the atmosphere with a dew point meter or the like. (Patent Document 2).

JP 2013-19883 A Japanese Patent No. 4832353

  In the conventional sampling means described above, the atmospheric gas in the reactor containment vessel is guided to the sampling rack section or the atmosphere monitoring section via the sampling pipe. The sampling pipe is provided with a plurality of on-off valves such as electromagnetic valves and is opened and closed by remote operation.

  However, if the entire power source is lost during a severe accident at a nuclear power plant, the sampling pipe on / off valve may not operate or various measuring instruments may not operate. As a result, it becomes impossible to sample the atmospheric gas in the reactor containment vessel, and there is a problem that the situation in the containment vessel cannot be confirmed.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a reactor containment vessel sampling apparatus and a sampling method capable of sampling atmospheric gas in a containment vessel in a severe accident.

  In order to solve the above problems, a reactor containment vessel sampling apparatus according to the present invention is provided in a sampling pipe for guiding an atmospheric gas in the reactor containment vessel to an atmosphere monitoring unit or a sampling rack unit, and the sampling pipe. A reactor containment vessel sampling apparatus comprising at least one sampling seat, wherein a portable sampling device is connected to the sampling seat when the monitoring function of the atmosphere monitoring section or the sampling rack section is stopped. It is characterized by.

  The reactor containment vessel sampling method according to the present invention connects the portable sampling device to the sampling seat when the monitoring function of the atmosphere monitoring unit or the sampling rack unit is stopped using the sampling device according to the present invention. It is characterized by doing.

  According to the present invention, when the monitoring function of the atmosphere monitoring unit or the sampling rack unit is stopped, the atmosphere gas in the containment vessel is sampled by using the portable sampling device, so that the situation in the reactor containment vessel can be reliably confirmed. Can be confirmed.

The lineblock diagram of the sampling device provided with the atmosphere monitor part concerning a 1st embodiment. The block diagram of the sampling apparatus provided with the sampling rack part which concerns on 1st Embodiment. The lineblock diagram of the portable sampling device concerning a 1st embodiment. The block diagram of the portable sampling apparatus which concerns on 2nd Embodiment.

DESCRIPTION OF EMBODIMENTS Embodiments of a reactor containment vessel sampling apparatus and sampling method according to the present invention will be described with reference to the drawings.
[First Embodiment]
A reactor containment vessel sampling apparatus and sampling method according to a first embodiment will be described with reference to FIGS. 1 to 3.

  The atmospheric gas in the reactor containment vessel is led to the atmosphere monitoring unit 7 and / or the sampling rack unit 14 via the sampling pipes 20a and 20b, and various measurements are performed.

The atmosphere monitor unit 7 measures oxygen concentration, hydrogen concentration, radiation intensity, and the like.
In the sampling rack unit 14, the atmospheric gas in the reactor containment vessel 1 is sucked by the pump 9 in the sampling rack unit 14, and moisture in the atmospheric gas is detected by the dew point meter 8 or the like.

<Atmosphere monitor>
First, an example in which the atmosphere gas in the reactor containment vessel 1 is sampled in the atmosphere monitor unit 7 will be described.

(Constitution)
As shown in FIG. 1, the sampling apparatus according to the present embodiment is connected to a sampling pipe 20a for extracting atmospheric gas in the nuclear reactor containment vessel 1 and a sampling pipe 20a, and a hydrogen concentration meter, an oxygen concentration meter, and a radiation inside. Atmosphere monitor 7 in which a measuring instrument or the like is arranged, first on-off valve 2a provided on sampling pipe 20a, second on-off valve 5a provided on the downstream side of first on-off valve 2a, second on-off The isolation seat pipe 21a connected to the sampling seat 6a provided on the downstream side of the valve 5a, the sampling pipe 20a between the first and second on-off valves 2a and 5a, and the end of the pipe 21a. It is comprised from the isolation | separation test valve 3a and the closing cover 4a provided in the exit side of the isolation test valve 3a.

  The isolation test valve 3a is used when conducting a leak inspection of the first and second on-off valves 2a and 5a. During the test, the closing cover 4a is removed and a leak inspection instrument is connected to the isolation test valve 3a. (Not shown).

  As shown in FIG. 3, the portable sampling device 18 connected to the sampling seat 6 a protrudes outside the portable sampling device 18, and the sampling nozzle 19 inserted into the sampling seat 6 a and the portable sampling device 18 inside. It comprises a sampling container 17 accommodated, and a check valve 15 and an on-off valve 16 provided in a pipe connecting the sampling container 17 and the sampling nozzle 19.

  Further, the inside of the sampling container 17 is maintained at a negative pressure so that the atmospheric gas automatically flows into the sampling container 17 when the sampling nozzle 19 is fitted into the sampling seat 6a.

  In addition, in order to prevent radiation exposure at the time of transfer and analysis, the piping in the portable sampling device 18 and the sampling container 17 are preferably made of shielding materials or arranged around them. .

(Function)
In the sampling apparatus configured as described above, the atmosphere gas in the reactor containment vessel 1 is sent to the atmosphere monitoring unit 7 via the first and second on-off valves 2a and 5a, the sampling pipe 20a, a pump (not shown), and the like. The oxygen concentration, hydrogen concentration, radiation intensity, etc. are measured.

  On the other hand, when an accident that causes the loss of all the power supplies occurs, the detection devices in the pump and the atmosphere monitoring unit 7 do not function, and the state in the reactor containment vessel 1 cannot be grasped. In order to cope with such a situation, in this embodiment, the portable sampling device 18 is connected to the sampling seat 6a, and the atmosphere gas in the reactor containment vessel 1 is collected to monitor the hydrogen concentration and the like.

  Specifically, the sampling nozzle 19 of the portable sampling device 18 is fitted into the sampling seat 6a provided on the downstream side of the second on-off valve 5a, the on-off valve 16 is opened, and the inside of the reactor containment vessel 1 is opened. Atmospheric gas is collected in the sampling container 17. At this time, since the inside of the sampling container 17 is maintained at a negative pressure, the atmospheric gas in the pipe 20a flows into the sampling container 17 without delay. After the collection of the atmospheric gas, the portable sampling device 18 is removed from the first sampling seat 6a, transferred to a facility equipped with various detectors, and the oxygen concentration, hydrogen concentration, radiation intensity, and the like are measured.

The sampling seat 6a is provided with a self-closing valve and an elastic sealing body (not shown) that can attach and detach the sampling nozzle 19 in a sealed state.
Further, when a situation occurs in which the second on-off valve 5a does not open, the closing lid 4a of the isolation test valve 3a is removed, and a sampling seat is attached to the outlet of the isolation test valve 3a (not shown). Then, the sampling nozzle 19 of the portable sampling device 18 is fitted into the sampling seat, and the isolation test valve 3 a is opened to collect the atmospheric gas in the reactor containment vessel 1 in the sampling vessel 17.

  As the on-off valves 2a, 2b, 5a, 5b and the isolation test valves 3a, 3b, manual valves or solenoid valves are used. When solenoid valves are used, they are set so that they are opened when power is lost. Or a valve that can be manually opened is used.

(effect)
According to the present embodiment, by providing a sampling seat 6a in the sampling pipe 20 in advance and / or utilizing the normally closed isolation test valve 3a, the sampling seat 6a is mounted on the isolation test valve 3a. Even when a power loss accident or the like occurs, the atmospheric gas in the reactor containment vessel 1 can be collected using the portable sampling device 18.

<Sampling rack section>
Next, an example in which the atmospheric gas in the reactor containment vessel 1 is sampled in the sampling rack section 14 will be described with reference to FIG. 2. The sampling pipe 20b includes first and second on-off valves 2b and 5b, and an isolation test pipe. The isolation test valve 3b provided at the end of 21b and the closing lid 4b provided on the outlet side of the isolation test valve 3b are installed in the same manner as in the atmosphere monitor unit 7 shown in FIG. Since there is, explanation is omitted.

  In the sampling rack section 14, the atmospheric gas in the reactor containment vessel 1 is sucked by the pump 9 in the sampling rack section 14 through the sampling pipe 20b and the filter 10, as shown in FIG. Thus, moisture in the atmospheric gas is detected.

In the present embodiment, the sampling seat 6b is provided on the downstream side of the second on-off valve 5b.
When an accident that causes the loss of all power sources occurs, the sampling nozzle 19 of the portable sampling device 18 is fitted into the sampling seat 6b, the on-off valve 16 is opened, and the atmospheric gas in the reactor containment vessel 1 is collected. . After collection, the portable sampling device 18 is transferred to a facility equipped with various detectors, and moisture and the like are measured.

  Further, when a situation occurs in which the second on-off valve 5b does not open, the closing lid 4b of the isolation test valve 3b is removed, and a sampling seat is attached to the outlet of the isolation test valve 3b (not shown). Then, the sampling nozzle 19 of the portable sampling device 18 shown in FIG. 3 is inserted into the sampling seat, and the isolation test valve 3 b is opened, and the atmospheric gas in the reactor containment vessel 1 is collected in the sampling vessel 17.

  According to this embodiment, even in the sampling rack unit 14, when a power loss accident or the like occurs, it is possible to collect the atmospheric gas in the reactor containment vessel 1 using the portable sampling device 18.

[Second Embodiment]
An embodiment of a reactor containment vessel sampling apparatus and sampling method according to a second embodiment will be described with reference to FIG.
In the present embodiment, a plurality of sampling containers 17 are connected and arranged in parallel in the portable sampling device 18 via the branch pipe 11.

Each of the plurality of sampling containers 17 includes an opening / closing valve 16 a, and when one sampling container 17 is full, the opening / closing valve 16 a is opened / closed to switch to another sampling container 17 via the branch pipe 11. In addition, since there is a possibility that the gas staying in the sampling pipes 20a and 20b is sampled at the initial stage of sampling, several of the plurality of sampling containers are used for sucking and removing the staying gas. May be.
According to this embodiment, a large amount of atmospheric gas can be collected reliably and efficiently.

  As mentioned above, although embodiment of this invention was described, this embodiment is shown as an example and is not intending limiting the range of invention. For example, the number of sampling seats provided in the sampling pipes 20a and 20b is not limited to one, and a plurality of sampling seats can be provided. Also, the installation location of the sampling seat can be provided at any location of the sampling system.

  The novel embodiment can be implemented in various other forms, and various omissions, combinations, replacements, and changes can be made without departing from the spirit of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  DESCRIPTION OF SYMBOLS 1 ... Reactor containment vessel, 2a, 2b ... Open / close valve, 3a, 3b ... Isolation test valve, 4a, 4b ... Closing lid, 5a, 5b ... Open / close valve, 6a, 6b ... Sampling seat, 7 ... Atmosphere monitor part, 8 Dew point meter, 9 ... Pump, 10 ... Filter, 11 ... Branch pipe, 14 ... Sampling rack part, 15 ... Check valve, 16, 16a ... Open / close valve, 17 ... Sampling container, 18 ... Portable sampling device, 19 ... Sampling nozzles, 20a, 20b ... sampling pipes, 21a, 21b ... pipes.

Claims (5)

A reactor containment vessel sampling apparatus comprising: a sampling pipe for guiding atmospheric gas in a reactor containment vessel to an atmosphere monitor part or a sampling rack part; and at least one sampling seat provided in the sampling pipe,
A reactor containment vessel sampling apparatus, wherein a portable sampling apparatus is connected to the sampling seat when the monitoring function of the atmosphere monitoring section or the sampling rack section is stopped.   2. The reactor containment vessel sampling apparatus according to claim 1, wherein the portable sampling apparatus comprises a sampling nozzle fitted into the sampling seat and a sampling container connected to the sampling nozzle and having a negative pressure inside. 3. .   3. The reactor containment vessel according to claim 2, wherein a plurality of the sampling vessels are arranged in the portable sampling device, and the plurality of sampling vessels are connected to the sampling nozzles via branch pipes. 4. Sampling device.   4. The reactor containment vessel sampling apparatus according to claim 1, wherein a sampling seat is attached to an isolation test valve of an isolation test pipe connected to the sampling pipe. 5.   A portable sampling device is connected to the sampling seat when the monitoring function of the atmosphere monitoring unit or the sampling rack unit is stopped using the sampling device according to any one of claims 1 to 4. Reactor containment sampling method.

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