CN110223791A - A kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident - Google Patents
A kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident Download PDFInfo
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- CN110223791A CN110223791A CN201910294508.XA CN201910294508A CN110223791A CN 110223791 A CN110223791 A CN 110223791A CN 201910294508 A CN201910294508 A CN 201910294508A CN 110223791 A CN110223791 A CN 110223791A
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- G—PHYSICS
- G21—NUCLEAR PHYSICS; NUCLEAR ENGINEERING
- G21C—NUCLEAR REACTORS
- G21C17/00—Monitoring; Testing ; Maintaining
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- G—PHYSICS
- G21—NUCLEAR PHYSICS; NUCLEAR ENGINEERING
- G21C—NUCLEAR REACTORS
- G21C17/00—Monitoring; Testing ; Maintaining
- G21C17/02—Devices or arrangements for monitoring coolant or moderator
- G21C17/022—Devices or arrangements for monitoring coolant or moderator for monitoring liquid coolants or moderators
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E30/00—Energy generation of nuclear origin
- Y02E30/30—Nuclear fission reactors
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Abstract
The invention discloses a kind of core sampling systems that can be used for after pressurized-water reactor nuclear power plant accident, including gas sampling cell, it further include injector power unit, the injector power unit includes nitrogen supply (NS) unit and injector, the nitrogen supply (NS) unit is the nitrogen storage bottle for being loaded with compressed nitrogen, the injector is connected on the outlet end of nitrogen supply (NS) unit, and injector is connected by pipeline with gas sampling cell;The gas sampling cell provides the gas that power sucks gas sample point by the nitrogen fluid sprayed in injector.The core sampling system carries out gas sample after can be used for pressurized-water reactor nuclear power plant accident.
Description
Technical field
The present invention relates to core sampling monitoring technical field, more particularly to it is a kind of can be used for pressurized-water reactor nuclear power plant accident after
Core sampling system.
Background technique
In nuclear power station, primary Ioops water chemistry monitor and control be management of nuclear power plant an important process, be related to
The safe and stable and economical operation of entire power plant.The important means that core sampling system is realized as primary Ioops water chemistry monitor,
Effect is that representative liquid is acquired from each process system under operating condition during normal operation, after accident and accident in nuclear power plant
The samples such as body, gas, for chemical analysis and radiochemical analysis.The main purpose of sampling analysis is to monitor reactor core activity, monitoring
The integrality of fuel assembly evaluates the characteristic of ion-exchanger and filter, monitors the chemical index and prison of each process system
Survey the leakage of radioactive substance.Analysis result is for evaluating primary Ioops water chemistry, to propose counter-measure.In the design of nuclear power plant
In, it is necessary to consider the configuration of core sampling system.
Shown in the technical solution as disclosed in the utility model patent application No. is 201420800212.3, the prior art
In, for cooling system of nuclear power station and each auxiliary system of primary Ioops, has dedicated sampling equipment and complete sampling operation.But it is existing
Have in technology, existing pressurized-water reactor nuclear power plant core sampling system there is structure in design and the process is more complicated, sampled functions
Simply, the problems such as inconvenient for operation.Therefore it is more, easy to operate and be able to satisfy pressure water that a kind of simple process, sampled functions are designed
The core sampling system that demand is sampled under reactor of nuclear power plant major accident operating condition is very necessary.
Summary of the invention
To design a kind of simple process, sampled functions more, easy to operate and be able to satisfy presurized water reactor core for set forth above
The very necessary problem of the core sampling system of demand is sampled under the major accident operating condition of power station, can be used for pressing the present invention provides one kind
Core sampling system after water-water reactor nuclear power plant accident, the core sampling system can be used for the laggard promoting the circulation of qi body of pressurized-water reactor nuclear power plant accident and take
Sample.
The technological means of this programme is as follows, a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident, including gas
Body sampling unit further includes injector power unit, and the injector power unit includes nitrogen supply (NS) unit and injector, institute
Stating nitrogen supply (NS) unit is the nitrogen storage bottle for being loaded with compressed nitrogen, and the injector is connected to the outlet end of nitrogen supply (NS) unit
On, and injector is connected by pipeline with gas sampling cell;
The gas sampling cell provides the gas that power sucks gas sample point by the nitrogen fluid sprayed in injector
Body.
In the prior art, shown in technical solution disclosed in the utility model patent such as the number of asking for 201420800212.3,
A kind of technical solution with multiple gas sample mouths, multiple liquid sampling mouths is provided, as those skilled in the art, this is existing
There is scheme to can be used for carrying out concentration sampling to reactor coolant loop and each auxiliary system of primary Ioops etc., and to sampling operation
Personnel provide nuclear radiation shield protection, meanwhile, the program also has the characteristics that occupy little space, is easy to operate, using safe.
However, in practical sampling process, since gas sample point is different or position from liquid sampling point position
Object is different, if nuclear power station is under major accident, such as by after eaerthquake damage, for the liquid sampling where liquid sampling mouth
Position, since the pressure boundary where general liquid medium will not be destroyed in the state of accident, therefore the pressure of liquid sampling position
Power is generally possible to maintain original pressure or maintains the pressure for being greater than atmospheric pressure for a long time.And for the gas where gas sample mouth
Sample position, in the state of accident, gas sample position can become atmospheric pressure environment in a short time.Therefore traditional sampler by
In cannot rely upon itself energy for being sampled gas medium at this time or electric energy can not be obtained in accident to be extracted
In the case where power, gaseous sample can not be obtained to realize gas sample.
In the present solution, further including injector power unit by being set as sampling system, while being limited to injector power
Unit includes nitrogen supply (NS) unit and injector, even if in this way, when gaseous sample sample point is normal pressure state in the state of accident,
Also gas sampling cell can be made to be drawn into gas to be sampled, i.e. this programme in a manner of jet pump by the injector
Provide a kind of scheme that can carry out gas sample to pressurized-water reactor nuclear power plant after accident;Simultaneously in the present solution, due to injector
While providing power for gas sampling cell, it is extracted gaseous sample and is actually mixed with nitrogen, therefore present solution provides
It is a kind of to dilute the scheme for being sampled gas, using the program, automatic sample dilution is realized first, can omit subsequent dilution
Step is to reduce the chance that operator is exposed in radiation environment;Meanwhile for such as with sampling bottle carry out constant volume dilution after
Gas before the dilution of gas and same sampling bottle constant volume needs to shift and the subsequent content of radioactive substance operated is less,
The radiation environment of operator can also be improved in this way.
As those skilled in the art, the scheme of gas is sampled for nitrogen utilized above dilution, it can be by obtaining quilt
The amount of extracted gas sampled and acquisition participate in the amount of the nitrogen extracted before diluting, to obtain the dilution ratio of gaseous sample,
It is final to obtain required analysis result.
Further technical solution are as follows:
The nitrogen for accurately participating in extraction is obtained for convenience of obtaining the amount for being diluted preceding extracted gas sampled and obtaining
Amount, the sampling valve with quantitative loop is additionally provided on the gas sampling cell, the sampling valve is for being limited to injector
Under power unit effect, the amount for being sampled gas that gas sampling cell is sucked by its suction inlet;
Nitrogen flow control device is additionally provided on the injector power unit, the nitrogen flow control device is used for
Limit the amount of injector power unit output nitrogen.It is adopted as those skilled in the art for the nitrogen flow control device
With the flowmeter being connected in respective line.Further, it to improve measuring accuracy, is set as further including thermometer, pressure
Power table etc., the thermometer, pressure gauge are used to measure the temperature value and pressure value of measured gas, with by the temperature value and
Pressure value obtains the amount of accurately measured gas.
It further include liquid sampling unit, the gas sampling cell and liquid sampling unit are provided with multiple sample points.
Using this programme, it can get multiple gas mediums and multiple liquid medium sample points.
The liquid sampling unit and gas sampling cell include sampling supervisor and more sampling branch pipes, liquid sampling list
In member and gas sampling cell the two, each sampling branch pipe of each is connected with sampling supervisor, and each nozzle for sampling branch pipe is
One sampling nozzle;
In liquid sampling unit and gas sampling cell the two, each includes reversal valve, and each sampling branch pipe of each is equal
It is connected by reversal valve with sampling supervisor, the reversal valve is used to control the connected state of each sampling branch pipe and sampling supervisor;
It further include the sampling valve with quantitative loop being connected on sampling supervisor.In the present solution, the reversal valve is for real
The independent connection of existing corresponding sample supervisor and corresponding sample branch pipe, i.e., according to sampling purpose or the specific type of sampling medium, choosing
Select specific sampling branch pipe.In the present solution, being set as further includes the sampling valve with quantitative loop being connected on sampling supervisor, purport
Medium is sampled by what corresponding sample valve obtained certain known quantity realizing.
The liquid sampling unit further includes the mixing vessel for being connected thereto sampling valve outlet side, further includes that demineralized water supplies
Unit is answered, the demineralized water supply unit connect with mixing vessel pipeline, is additionally provided on demineralized water supply unit for limiting
The desalination water flow control system of the amount for the demineralized water that demineralized water supply unit is injected into mixing vessel;
The injector power unit is connected by pipeline with mixing vessel, and for being connected to injector power unit and mixing
Close the bottom that the tie point of the pipeline of container on the mixing vessel is located at mixing vessel.This programme when specifically used, hold by mixing
Sampling bottle is also connected on rear side of device, sampling bottle is such as logical such as obtaining the liquid medium in mixing vessel in a manner of constant volume
Overflow pipe is set on over sampling bottle, flow switch is set on overflow pipe in a manner of detecting sampling bottle and whether fill liquid medium,
To obtain the liquid medium in mixing vessel to complete finally to sample.As described above, in the state of accident not due to sampler
Such as electric power energy can be obtained, and is directed to liquid sampling, being sampled medium in the mixing container and mixing with demineralized water may be not
Uniformly, certainly will will cause so finally sample it is unreliable.In the present solution, passing through pipeline by being set as injector power unit
It is connected with mixing vessel, in this way, injector power unit can be by being passed through nitrogen into mixing vessel, with nitrogen-burst agitation liquid Jie
The ingredient of liquid medium in the uniform mixing vessel of the mode of matter.
The liquid sampling unit further includes the mixing vessel for being connected thereto sampling valve outlet side, further includes that demineralized water supplies
Unit is answered, the demineralized water supply unit connect with mixing vessel pipeline, is additionally provided on demineralized water supply unit for limiting
The desalination water flow control system of the amount for the demineralized water that demineralized water supply unit is injected into mixing vessel;
The injector power unit is connected by pipeline with mixing vessel, and for being connected to injector power unit and mixing
Close the top that the tie point of the pipeline of container on the mixing vessel is located at mixing vessel.As described above, in the state of accident due to
Sampler cannot obtain such as electric power energy, since the sample source of sampling bottle is in mixing vessel, to make in mixing vessel
Medium can be entered in the case where not by other influences mixing vessel medium composition in sampling bottle with complete finally take
Sample, it is above by injector power unit to provide compressed nitrogen at the top of mixing vessel in above scheme using above scheme
Compressed nitrogen may make that liquid medium is forced out mixing vessel in mixing vessel, is such as detachably connected on mixing vessel for sampling bottle
Bottom.
As described above, sampling bottle to be made to obtain the sample from mixing vessel by way of constant volume, need so that mixed
The volume for closing container is greater than the volume of sampling bottle;Meanwhile this sampling system can also generate waste liquid in the process of cleaning, therefore sampling
There is waste liquid in the process, and the above waste liquid has certain radioactivity, to make this sampling system that there is certain waste liquid
Store function, with the temporary waste liquid for having little time discharge, setting are as follows: further include the waste liquid being connected by pipeline with mixing vessel bottom
Tank, liquid level sensor is also set up on the waste liquid tank, and whether the actual liquid level that the liquid level sensor can detect in waste liquid tank reaches
To preset low liquid level value and high liquid level value.This programme in the specific implementation, the scheme of discharge is forced using medium in waste liquid tank,
Special waste drains pump is such as set so that the fluid extraction in waste liquid tank to be emitted into containment, peace can be used in the above liquid level sensor
Two liquidometers of different height in waste liquid tank can determine that when liquid level reaches preset low liquid level as waste drains pump discharge
Pipeline failure or the fluid flow for entering waste liquid tank are greater than the Extracting Ability of waste drains pump, at this point, waste liquid tank also has certain deposit
Energy storage power, this sampling system can continue on for sampling or carrying out the movement in relation to waste liquid discharge;When liquid level reaches preset high liquid
When position, it can determine that and reach preset upper limit for liquid level in waste liquid tank, to avoid radioactive substance from overflowing, before waste liquid tank must being truncated at this time
The case where holding the valve on waste liquid input channel and avoiding the occurrence of radioactive waste pollution environment.
The demineralized water supply unit passes through pipeline with injector power unit and is connected with liquid sampling unit, injector
Power unit is connected by pipeline with gas sampling cell.Using this programme, can be provided by the demineralized water supply unit
The nitrogen that demineralized water and injector power unit provide this sampling system respective line, pipe fitting, container etc. are rinsed and
Purging, to be ready for next sub-sampling.Preferably, being set as the demineralized water supply unit includes storing pressure medium
Air bag and be stored with the container of demineralized water, provide pressure by the air bag for the container, force in DW system demineralized water system
Demineralized water can be discharged to respective line and realize corresponding purpose.
To reduce radioactive substance pollution on the environment as far as possible, it is arranged are as follows: further include shielding cabinet body, the gas
Sampling unit, liquid sampling unit are partially or fully located in shielding cabinet body, and the mixing vessel is located in shielding cabinet body;
It further include the sampling bottle being connected by pipeline with mixing vessel bottom, the connection of the sampling bottle and mixing vessel is closed
System is to be detachably connected relationship;
It further include the transfer trolley for shifting sampling bottle.Make those skilled in the art, the gas sampling cell, liquid
Sampling unit is preferably arranged to the outside that only sampling nozzle is located at shielding cabinet body in the case where being partially located in shielding cabinet body;Institute
It states when being entirely located in shielding cabinet body, passes through corresponding pipeline section and connect sample tap and sample position.It above include that transfer is small
The technical solution of vehicle is a kind of monoblock type scheme, this sampling system sample obtained is enabled conveniently to be transferred to analysis area
Domain.
To make this sampling system can be used in gas sample containing iodine, it is arranged are as follows: the pipeline on the gas sampling cell
On further include heat tracing pipeline section, further include the iodine filter for being connected on gas sampling cell on pipeline, the iodine filter
It is to be detachably connected relationship with the connection relationship of corresponding pipeline.The above heat tracing pipeline section is used to heat correspondence and is sampled gas, with
So that including iodine be attracted in a manner of gaseous on iodine filter, then, iodine filter as iodine carrier by this
It can be used to iodine analysis after separating in system.It is preferably arranged to the pipeline that iodine filter is connected on this system by quick coupling
On, when needing iodine filter, to quickly finish the installation of iodine filter, when iodine filter is analyzed as carrier for iodine, fastly
The completion iodine filter of speed is separated by this system;Under the sampling operation for not needing iodine filter, corresponding two is fast in this system
Quick coupling is directly connected to can be obtained complete gas sample pipeline.
Preferably, it is set as further including test(ing) liquid sample unit and test gas sample unit, the above test(ing) liquid sample
Article unit and test gas sample unit are provided to liquid sampling unit and gas sampling cell respectively for regular or non-periodically
The test that the test liquid and test gas of principal component, i.e. liquid sampling unit periodically or non-periodically sample principal component
With liquid, gas sampling cell periodically or non-periodically samples the test gas of principal component, according to subsequent analysis decision content
Given value is compared, periodically or non-periodically determines the reliability of this sampling system sampling.
Preferably, it is set as on injector power unit further including pressure reducing valve, the above pressure reducing valve cannot be only used for adjusting and use
In the pressure value for rinsing this system pipeline nitrogen, while nitrogen storage bottle is in use, above since its pressure value can decline
Pressure reducing valve can enable amount of this system for the nitrogen of diluent gas sample more accurate by its constant output pressure value
It is measured.
The invention has the following advantages:
In the present solution, further including injector power unit by being set as sampling system, while being limited to injector power
Unit includes nitrogen supply (NS) unit and injector, even if in this way, when gaseous sample sample point is normal pressure state in the state of accident,
Also gas sampling cell can be made to be drawn into gas to be sampled, i.e. this programme in a manner of jet pump by the injector
Provide a kind of scheme that can carry out gas sample to pressurized-water reactor nuclear power plant after accident;Simultaneously in the present solution, due to injector
While providing power for gas sampling cell, it is extracted gaseous sample and is actually mixed with nitrogen, therefore present solution provides
It is a kind of to dilute the scheme for being sampled gas, using the program, automatic sample dilution is realized first, can omit subsequent dilution
Step is to reduce the chance that operator is exposed in radiation environment;Meanwhile for such as with sampling bottle carry out constant volume dilution after
Gas before the dilution of gas and same sampling bottle constant volume needs to shift and the subsequent content of radioactive substance operated is less,
The radiation environment of operator can also be improved in this way.
Detailed description of the invention
Fig. 1 is a kind of unified specific implementation of core sample train that can be used for after pressurized-water reactor nuclear power plant accident of the present invention
The process flow chart of example;
Fig. 2 is the partial enlarged view of A portion shown in Fig. 1;
Fig. 3 is the partial enlarged view of B portion shown in Fig. 1;
Fig. 4 is the partial enlarged view of C portion shown in Fig. 1;
Fig. 5 is the partial enlarged view of D portion shown in Fig. 1, wherein the figure is rotated by 90 ° counterclockwise;
Fig. 6 is the partial enlarged view of E portion shown in Fig. 1, wherein the figure is rotated by 90 ° counterclockwise;
Fig. 7 is the partial enlarged view of F portion shown in Fig. 1;
Fig. 8 is the partial enlarged view of G portion shown in Fig. 1;
Fig. 9 is a kind of unified specific implementation of core sample train that can be used for after pressurized-water reactor nuclear power plant accident of the present invention
In example, for providing the structural schematic diagram for testing liquid sample unit of test(ing) liquid sample;
A kind of Figure 10 unified specific implementation of core sample train that can be used for after pressurized-water reactor nuclear power plant accident of the present invention
In example, the structural schematic diagram of nitrogen storage bottle part in injector power unit.
Appended drawing reference in figure is respectively as follows: 1, injector power unit, 2, gas sampling cell, 3, liquid sampling unit,
4, mixing vessel, 5, shielding cabinet body, 6, heat tracing pipeline section, 7, sampling bottle, 8, waste liquid tank.
Specific embodiment
Below with reference to embodiment, the present invention is described in further detail, but structure of the invention be not limited only to it is following
Embodiment.
Embodiment 1:
As shown in Figures 1 to 10, a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident, including gas sample
Unit 2 further includes injector power unit 1, and the injector power unit 1 includes nitrogen supply (NS) unit and injector, described
Nitrogen supply (NS) unit is the nitrogen storage bottle for being loaded with compressed nitrogen, and the injector is connected to the outlet end of nitrogen supply (NS) unit
On, and injector is connected by pipeline with gas sampling cell 2;
The gas sampling cell 2 provides the gas that power sucks gas sample point by the nitrogen fluid sprayed in injector
Body.
Embodiment 2:
As shown in Figures 1 to 10, the present embodiment is further qualified on the basis of embodiment 1:
The sampling valve with quantitative loop is additionally provided on the gas sampling cell 2, the sampling valve is for being limited to spray
Under emitter power unit 1 acts on, the amount for being sampled gas that gas sampling cell 2 is sucked by its suction inlet;
Nitrogen flow control device is additionally provided on the injector power unit 1, the nitrogen flow control device is used
In the amount for limiting the output nitrogen of injector power unit 1.
It further include liquid sampling unit 3, the gas sampling cell 2 and liquid sampling unit 3 are multiple.
The liquid sampling unit 3 and gas sampling cell 2 include sampling supervisor and more sampling branch pipes, liquid sampling
In 2 the two of unit 3 and gas sampling cell, each sampling branch pipe of each is connected with sampling supervisor, each nozzle for sampling branch pipe
It is a sampling nozzle;
In 2 the two of liquid sampling unit 3 and gas sampling cell, each includes reversal valve, each sampling branch pipe of each
It is connected by reversal valve with sampling supervisor, the reversal valve is used to control the connected state of each sampling branch pipe and sampling supervisor;
It further include the sampling valve with quantitative loop being connected on sampling supervisor.
The liquid sampling unit 3 further includes the mixing vessel 4 for being connected thereto sampling valve outlet side, further includes demineralized water
Supply unit, the demineralized water supply unit connect with 4 pipeline of mixing vessel, are additionally provided on demineralized water supply unit for limiting
The desalination water flow control system of the amount for the demineralized water that demineralized water supply unit processed is injected into mixing vessel 4;
The injector power unit 1 is connected by pipeline with mixing vessel 4, and for being connected to injector power unit 1
It is located at the bottom of mixing vessel 4 with the tie point of the pipeline of mixing vessel 4 in mixing vessel 4.
The liquid sampling unit 3 further includes the mixing vessel 4 for being connected thereto sampling valve outlet side, further includes demineralized water
Supply unit, the demineralized water supply unit connect with 4 pipeline of mixing vessel, are additionally provided on demineralized water supply unit for limiting
The desalination water flow control system of the amount for the demineralized water that demineralized water supply unit processed is injected into mixing vessel 4;
The injector power unit 1 is connected by pipeline with mixing vessel 4, and for being connected to injector power unit 1
It is located at the top of mixing vessel 4 with the tie point of the pipeline of mixing vessel 4 in mixing vessel 4.
Further include the waste liquid tank 8 being connected by pipeline with 4 bottom of mixing vessel, liquid level biography is also set up on the waste liquid tank 8
Whether sensor, the actual liquid level that the liquid level sensor can detect in waste liquid tank 8 reach preset low liquid level value and high liquid level value.
The demineralized water supply unit is taken by pipeline and gas sampling cell 2 and liquid with injector power unit 1
Sample unit 3 is connected.
It further include shielding cabinet body 5, the gas sampling cell 2, liquid sampling unit 3 are partially or fully located at shielding cabinet
In body 5, the mixing vessel 4 is located in shielding cabinet body 5;
It further include the sampling bottle 7 being connected by pipeline with 4 bottom of mixing vessel, the company of the sampling bottle 7 and mixing vessel 4
Connecing relationship is to be detachably connected relationship;
It further include the transfer trolley for shifting sampling bottle 7.
Further include heat tracing pipeline section 6 on pipeline on the gas sampling cell 2, further includes for being connected on gas sample list
Iodine filter in member 2 on pipeline, the iodine filter are to be detachably connected relationship with the connection relationship of corresponding pipeline.
Embodiment 3:
As shown in Figures 1 to 10, the present embodiment provides a kind of specific system on the basis of embodiment 1 or embodiment 2
Implementation and system process for using:
1) liquid sampling: according to sampling demand, switching sampling six-way valve V103 to sample introduction state A, the liquid that sample source is come
Sample enters sampling system by sample selector valve, wherein sample first removes larger through grade one filter S01A/B, S02A/B
Grain object;Sample flow is adjusted by regulating valve V102, switching sampling six-way valve V103 to B state takes acquisition fixed by quantitative loop
Measure sample;Dilution switch between components are diluted and injected state to demineralized water, the demineralized water of corresponding amount is obtained by sample dilution ratio
Diluent;Sample in quantitative loop is injected in mixing vessel BB04 together with the diluent of dilution component constant volume by nitrogen and is mixed
It is even;The sample in mixing vessel BB04 is injected into sampling bottle BB05 with nitrogen again, the sample after obtaining a certain amount of dilution.
After completing sampling, the sampling bottle equipped with sample is put into the lead screen container B B11 shifted on trolley and is sent to experiment
Room analysis.
Valve transfer to demineralized water flushing/nitrogen is purged into state again, is passed through demineralized water/nitrogen to sampling line and equipment
It is rinsed/purges.Waste liquid, the exhaust gas that sampling and pipeline flushing process generate are emitted into containment.
2) gas sample: according to sampling demand, accompanying-heat cable is opened by sampling line and is preheated to 110 DEG C;Switching sampling six
Port valve V202 to sample introduction state A, start injector AP02, from containment come gaseous sample by sample selector valve V201 into
Enter sampling system, sampling line is purged with sample;Adjust the pressure and flow of sampling six-way valve V202 arrival end, switching
Six-way valve V202 is sampled to B state, quantitative gas sample is obtained by quantitative loop;By sample dilution ratio, by nitrogen diluent
Gas sample bottle is injected together with the gaseous sample in quantitative loop, it is right respectively by aerosol fillter and iodine adsorber in the process
The aerosol of sample and iodine sampling in quantitative loop.
After completing sampling, the sampling bottle that sample is housed and aerosol, Iodinc Sampler are put into the lead screen on transfer trolley
Lab analysis is sent in container B B11.
Valve transfer to nitrogen is purged into state again, nitrogen is passed through and sampling line and equipment is purged.Purge
The exhaust gas of generation is discharged into containment.
Switching multichannel sample selection valve is connect with gas routine test entrance, starts injector, providing power will be empty
Gas is pumped into sampling system and is tested, and the exhaust gas generated in the process is discharged into draft tube liner.Remaining process is the same as gas sample process.
3) discharging of waste liquid: start waste drains pump AP01, and continuous running waste drains pump, the waste liquid generated in the process before liquid sampling
Into the waste liquid tank BB06 of discharging of waste liquid unit, the waste liquid that liquid sampling process generates is drained into respectively by safety by waste drains pump
Shell.Waste liquid tank is equipped with high 1, high 2 liquid level warning function, wherein high 1 liquid level warning serves as warning, for judging Spent Radioactive
Whether liquid is discharged in time;When waste liquid tank reaches high 2 liquid level warning, sampling module front end liquid feed valve is turned off manually.
4) liquid routine test: good solution is packed into solution reservoir BB12, and it is dynamic to pump AP03 offer by liquid routine test
Power tests reagent injection sampling system.Remaining process is the same as liquid sampling process.The waste liquid that test process generates passes through useless
Liquid pump AP01 is discharged into floor drain.
5) gas routine test: switching multichannel sample selection valve and exterior atmosphere start injector, mention
Air suction sampling system is tested for power, the exhaust gas generated in the process is discharged into draft tube liner.The same gas of remaining process
Sampling flowsheet.
Below by embodiment, the present invention is described further, but the embodiment should not be construed as to limit of the invention
System.
In the above scheme, the fluid sample amount quantitatively obtained is 0.1ml, the dilution ratio of the fluid sample
It is 2000 times;Sampling when the case where gas sample gaseous sample loses pressure, the gaseous sample amount quantitatively obtained are
1ml, the dilution ratio of gaseous sample are 14 times.The side being sampled using the above-mentioned core sampling system for pressurized-water reactor nuclear power plant
Method the following steps are included:
1. fluid sample sampling and dilution
A. sampling line is rinsed with fluid sample to be taken.Switching discharge five-way valve V113 to 1-3 connection, opens pump AP01,
First switching sampling six-way valve V103 is to B state (diluted state), the liquid-like obtained needed for switch sample selector valve V101 selection
Product enter sampling system, and control valve V102 makes sample flow within the scope of sampling requirement, rinse sampling line certain time.
B. sample obtains.To the end of sample wash pipeline, after flowmeter F01 stable reading, closes by-passing valve V107 and cut
Sample six-way valve V103 is exchanged for A condition, after 10s, then switches sampling six-way valve V103 to B state, obtains 0.1ml fluid sample;
After obtaining sample, switch sample selector valve V101 to 1-7 is connected to (closed state).
C. desalination diluent water constant volume.According to 2000 times of sample dilution ratio, switching dilution module inlet valve V303 is extremely
1-3 connection, V302 to 1-3 connection are connected to the dilution component BB02 that capacity is 200ml, switch valve V302 to 1-2 connection,
V305 to 1-3 connection, opens valve V301, injects desalination diluent water (bottom into ejection), component to be diluted into dilution component
When the relief cock F03 of export pipeline issues alarm signal, valve V302, V305, V301 are successively closed, desalination diluent water is fixed
Hold and completes.
D. sample is bubbled dilution.Successively switch valve V104 to 1-3 is connected to, V105 to 1-2 is connected to, V302 to 1-3 is connected to,
V307 to 1-2 connection, V305 to 1-2 connection, adjust nitrogen cylinder pressure reducing valve CV01 for nitrogen and are decompressed to goal pressure, open and delay
The slow pressure reducing valve V401 that adjusts is passed through nitrogen into dilution component, under nitrogen pressure effect, dilutes in component to pressure is diluted
Diluent enters mixing vessel BB04 with sample in quantitative loop and is diluted, and is uniformly mixed under the effect of nitrogen bubbling;It is bubbled
After, valve V104, V305, V302, V307 are successively closed, pressure reducing valve V401, switch valve V303 to 1-5 connection are closed
(closed state), V304 to 1-5 are connected to (closed state), stand bubble in mixing vessel BB04 abjection sample, close valve after 60s
Door V105.
E. sample.After the completion of sample dilution, switch valve V106 to 1-2 connection, V104 to 1-2 connection, V105 are extremely
1-3 connection, opens valve V403, and opening and slowly adjusting pressure reducing valve V401 will mix under nitrogen pressure effect to goal pressure
It closes the sample in container and fills liquid sampling bottle BB05, when the relief cock F04 of the outlet bottle BB05 to be sampled issues alarm signal,
Successively close valve V106, V403 and pressure reducing valve V401.
F. sample shifts.After completing sampling, the company of CZ02 (quick coupling socket) and CT02 (quick coupling plug) is cut off
It connects, cuts off the connection of CZ01 and CT01, remove sampling bottle, and CT02 is connect with CZ01.Sampling bottle equipped with sample is put into
Laboratory is sent in lead screen container B B11 on transfer trolley.
G. sampling line rinses
1) remaining sample discharges.After completing sample transfer, switch valve V106 to 1-3 connection is opened valve V403, is kept
Valve V104 to 1-2 connection, V105 to 1-3 connection are constant, slowly open pressure reducing valve V401, are passed through nitrogen into mixing vessel BB04
The remaining sample of mixing vessel is discharged into waste liquid tank BB06 by gas;After the completion of discharge, valve V105, pressure reducing valve V401 are closed.
2) sampling line rinses.
Switch valve V101 to 1-2 connection, V306 to 1-3 connection, V307 to 1-3 connection, V104 to 1-3 connection, V105
To 1-2 connection, V106 to 1-2 connection, switching sampling six-way valve V103 to A condition opens valve V107, standard-sized sheet regulating valve
V102, opening valve V301 are passed through demineralized water and are rinsed to pipeline and equipment, and switch valve V306 to 1-5 connection (is closed after 30s
Closed state), remaining valve state remains unchanged, and continues the injection demineralized water into mixing vessel BB04 and is rinsed to container;Punching
After the completion of washing, valve V301, V307 are closed, switch valve V104 to 1-2 connection, V106 to 1-2 connection, V105 to 1-3 are connected to,
Valve V403 is opened, unlatching pressure reducing valve V401 is passed through nitrogen and flushing water in container is discharged into waste liquid tank, in the process relief cock F04
It being resetted when issuing alarm signal, after 10s, switch valve V106 to 1-3 connection empties mixing vessel interior flushing water,
Close valve V403.
H. nitrogen purges.After the completion of sampling line rinses, switch valve V306 to 1-2 is connected to, V104 to 1-2 is connected to,
V105 to 1-3 connection, V106 to 1-3 connection, open valve V402, V403, remaining valve holding tube line flushing state is constant, opens
It opens pressure reducing valve V401 and is passed through nitrogen and nitrogen purging carried out to pipeline and equipment, when 60s closes valve V402, and when 3min closes
V403。
After completing the nitrogen purging to liquid sampling pipeline and equipment, each valve is restored to default conditions.
2. gas sample (containing iodine, aerosol, inert gas) and dilution
A. sampling bottle and dilution pipeline vacuumize.Switch drain valve V113 to 1-3 connection, switch valve V205 to 1-3 connects
It is logical to be connected to volume is 14ml BB07 dilution bottle, valve V204, V404 are opened, nitrogen cylinder pressure reducing valve CV01 is adjusted and subtracts nitrogen
It is depressed into goal pressure, unlatching pressure reducing valve V401 and slowly conciliation pressure are passed through nitrogen to injector, to sampling bottle and dilution pipeline
It vacuumizes, when observation P02 pressure value reaches about -30.0KPa, successively closes valve V205 (1-5 connection), V204, V401.
B. gas sample pipeline preheats.Start accompanying heat cable, preheating target gas sampled sampling line is kept the temperature to 110 DEG C.
C. sampling line is purged with product to be sampled.After sampling line preheating, six-way valve V202 is to B state for switching sampling, cuts
The pipeline for obtaining gaseous sample needed for product selector valve V201 connection is varied, valve V404 is opened, opens and slowly adjusts pressure reducing valve
V401 is passed through nitrogen starting injector AP02 and vacuumizes to sampling line, observes gaseous sample flow by adjusting pressure reducing valve V401
In F02 claimed range, sampling line is purged, switching samples six-way valve V202 to A condition after 2min.
C. sample obtains.After the completion of purging sampling line with product to be sampled, valve V203 is closed, pressure reducing valve is continued through
V401 adjusts nitrogen inlet pressure, when six-way valve inlet pressure P01 to be sampled reaches about -50.0KPa and stablizes, switching sampling six
Port valve V202 obtains 1ml gaseous sample to B state, and closes valve V404, V401.
E. iodine and the dilution of aerosol sampling and inert gas.Switch valve V405 to 1-2 connection, adjust pressure reducing valve CV01 to
1MPa opens and slowly adjusts pressure reducing valve V401 to pressure is diluted, is slowly introducing nitrogen diluent, will be in diluent and quantitative loop
1ml sample gas obtains remaining indifferent gas after aerosol, iodine sample via aerosol fillter S03, iodine adsorber S04 respectively
Body is passed through gas sample bottle, and when observation P02 pressure value reaches about 8.9KPa and stablizes, switch valve V205 to 1-5 connection (is closed
State), and close accompanying heat cable.
F. sample shifts.After completing sample dilution, connection and the CZ03 and CT03 of quick coupling CZ04 and CT04 are cut off
Connection, and CT04 is connect with CZ03, aerosol, Iodinc Sampler are transferred in the lead screen container B B11 of transfer trolley, and
Cutting quick coupling CZ05 and CT05's links, and removes gas sample bottle BB07 into lead screen container B B11, will shift trolley
In gaseous sample and be sent to laboratory.
H. nitrogen purges.After the completion of gas sample, switch valve V201 to 1-4 connection, V405 to 1-3 connection, switching are taken
Sample six-way valve V202 to sample introduction state A opens valve V203, opens and adjust pressure reducing valve V401 and be passed through nitrogen, and purge gas takes
Sample pipeline and equipment after 30s, open valve V204, and switch valve V405 to 1-2 connection purges dilution pipeline, 30s
Valve V401 is closed afterwards.
After completing the nitrogen purging to gas sample pipeline and equipment, each valve is restored to default conditions.
3. routine test
1) liquid routine test
Configured solution is packed into solution reservoir BB12, switch valve V306 to 1-4 is connected to, V101 to 1-2 is connected to,
V113 to 1-4 connection, connects quick coupling CZ06 and CT06, opens valve V501, starts waste drains pump AP01, starts routine test
Pump AP03, solution is inputted into sampling system, remaining operation with it is above-mentioned 1) in liquid sampling operation.
2) gas routine test
Switch valve V201 to 1-4 connection, V113 to 1-2 connection, open valve V406, remaining operation takes with gas 2)
Sample operation.
4. waste liquid, exhaust gas discharge
1) discharging of waste liquid is sampled
Before liquid sampling, start waste drains pump AP01, switching drain valve V114 to 1-3 connection, the waste liquid that sampling process generates
It collects in waste liquid tank BB06, the waste liquid that sampling process generates is drained by containment by waste drains pump AP01.Waste liquid tank is equipped with height
1, high 2 liquid level warning function, wherein high 1 liquid level warning LO1A serves as warning, for judging whether radioactive liquid waste is arranged in time
Out;When the high 2 liquid level warning L01B of waste liquid tank issues alarm signal, sampling module front end liquid feed valve is turned off manually.
2) gas sample process waste gas discharges
Gas sample process, switch valve V113 to 1-3 connection, the exhaust gas that gas sample process generates pass through valve V113
Drain into containment.
The above content is combine specific preferred embodiment to the further description of the invention made, and it cannot be said that originally
The specific embodiment of invention is only limited to these instructions.For those of ordinary skill in the art to which the present invention belongs,
The other embodiments obtained in the case where not departing from technical solution of the present invention should be included in the protection scope of corresponding invention.
Claims (10)
1. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident, including gas sampling cell, which is characterized in that also
Including injector power unit, the injector power unit includes nitrogen supply (NS) unit and injector, the nitrogen supply (NS) list
Member is to be loaded with the nitrogen storage bottle of compressed nitrogen, and the injector is connected on the outlet end of nitrogen supply (NS) unit, and injector
It is connected by pipeline with gas sampling cell;
The gas sampling cell provides the gas that power sucks gas sample point by the nitrogen fluid sprayed in injector.
2. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident according to claim 1, which is characterized in that
The sampling valve with quantitative loop is additionally provided on the gas sampling cell, the sampling valve is for being limited to injector power list
Under member effect, the amount for being sampled gas that gas sampling cell is sucked by its suction inlet;
Nitrogen flow control device is additionally provided on the injector power unit, the nitrogen flow control device is for limiting
The amount of injector power unit output nitrogen.
3. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident according to claim 1, which is characterized in that
It further include liquid sampling unit, the gas sampling cell and liquid sampling unit are provided with multiple sample points.
4. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident according to claim 3, which is characterized in that
The liquid sampling unit and gas sampling cell include sampling supervisor and more sampling branch pipes, liquid sampling unit and gas
In sampling unit the two, each sampling branch pipe of each is connected with sampling supervisor, and each nozzle for sampling branch pipe is a sampling
Nozzle;
In liquid sampling unit and gas sampling cell the two, each includes reversal valve, and each sampling branch pipe of each passes through
Reversal valve is connected with sampling supervisor, and the reversal valve is used to control the connected state of each sampling branch pipe and sampling supervisor;
It further include the sampling valve with quantitative loop being connected on sampling supervisor.
5. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident according to claim 4, which is characterized in that
The liquid sampling unit further includes the mixing vessel for being connected thereto sampling valve outlet side, further includes demineralized water supply unit,
The demineralized water supply unit is connect with mixing vessel pipeline, is additionally provided on demineralized water supply unit and is supplied for limiting demineralized water
The desalination water flow control system of the amount for the demineralized water for answering unit to inject into mixing vessel;
The injector power unit is connected by pipeline with mixing vessel, and be used to be connected to injector power unit with mix appearance
The tie point of the pipeline of device on the mixing vessel is located at the bottom of mixing vessel.
6. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident according to claim 4, which is characterized in that
The liquid sampling unit further includes the mixing vessel for being connected thereto sampling valve outlet side, further includes demineralized water supply unit,
The demineralized water supply unit is connect with mixing vessel pipeline, is additionally provided on demineralized water supply unit and is supplied for limiting demineralized water
The desalination water flow control system of the amount for the demineralized water for answering unit to inject into mixing vessel;
The injector power unit is connected by pipeline with mixing vessel, and be used to be connected to injector power unit with mix appearance
The tie point of the pipeline of device on the mixing vessel is located at the top of mixing vessel.
7. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident according to claim 6, which is characterized in that
Further include the waste liquid tank being connected by pipeline with mixing vessel bottom, liquid level sensor, the liquid are also set up on the waste liquid tank
Whether the actual liquid level that level sensor can detect in waste liquid tank reaches preset low liquid level value and high liquid level value.
8. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident according to claim 5 or 6, feature exist
In the demineralized water supply unit passes through pipeline with injector power unit and is connected with liquid sampling unit, injector power
Unit is connected by pipeline with gas sampling cell.
9. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident according to claim 5 or 6, feature exist
In, further include shielding cabinet body, the gas sampling cell, liquid sampling unit partially or fully be located at shielding cabinet body in, institute
Mixing vessel is stated to be located in shielding cabinet body;
It further include the sampling bottle being connected by pipeline with mixing vessel bottom, the connection relationship of the sampling bottle and mixing vessel is
It is detachably connected relationship;
It further include the transfer trolley for shifting sampling bottle.
10. a kind of core sampling system that can be used for after pressurized-water reactor nuclear power plant accident according to claim 1, feature exist
In further including heat tracing pipeline section on the pipeline on the gas sampling cell, further include for being connected on gas sampling cell upper tube
Iodine filter on road, the iodine filter are to be detachably connected relationship with the connection relationship of corresponding pipeline.
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CN115575459A (en) * | 2022-12-08 | 2023-01-06 | 中国核动力研究设计院 | Miniaturized modular water quality on-line monitoring system |
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