KR20230103101A - Archive hub integrated management method to verify results of radionuclide analysis of nuclear power plant decommissioning radioactive waste - Google Patents

Abstract

The present invention is concerned with the loss of analysis results and sample data that may occur in the process of nuclide analysis of nuclear power plant dismantling radioactive waste, application of different values due to errors when recording samples after measurement, errors in radioactive waste generation information, errors in calculation formulas and data input, and nuclide analysis data It relates to an archive hub integrated management method for verifying the nuclide analysis results of nuclear power plant dismantling radioactive waste in order to reanalyze and verify the nuclide analysis results due to management system errors, etc.
The archive hub integrated management method for verifying the result of radioactive waste radionuclide analysis of nuclear power plant decommissioning includes collecting data generated in the process of sample handling and management (110); Collecting data generated in the nuclide analysis process (120); Generating data generated in the archive production and management process (130); Building a data hub for storing the data generated in steps 110, 120 and 130 (140); manufacturing a high-quality archive for long-term preservation (150); Building an archive hub consisting of various types of archives (160); Building an archive hub operating system for archive ejection and handling (170); includes
According to this configuration, a systematic process for the entire process, from the reception process of requesting chemical analysis after collecting samples from radioactive waste generated at the site of nuclear power plant dismantling, classification and storage according to the characteristics of the sample and radiation dose intensity, and completion of chemical analysis In addition to tracking the sample history, it is possible to provide an archive hub integrated management method for verifying the results of nuclear dismantling radioactive waste, which can quickly perform reanalysis by tracking the history of samples when there is a request for verification of the analysis results of the samples.

Description

Archive hub integrated management method to verify results of radionuclide analysis of nuclear power plant decommissioning radioactive waste}

The present invention is concerned with the loss of analysis results and sample data that may occur in the process of nuclide analysis of nuclear power plant dismantling radioactive waste, application of different values due to errors when recording samples after measurement, errors in radioactive waste generation information, errors in calculation formulas and data input, and nuclide analysis data It relates to an archive hub integrated management method for verifying the nuclide analysis results of nuclear power plant dismantling radioactive waste in order to reanalyze and verify the nuclide analysis results due to management system errors, etc.

For radiochemical analysis of samples collected at the site of nuclear power plant decommissioning, when the integrity of the sample is confirmed through the process of registration, reception, inspection, and acceptance approval, a second sample is collected for chemical analysis. Most are stored for short periods of time for analysis.

Nuclear dismantling radioactive waste samples are classified as radioactive materials, and their use is limited, while the number of samples for analysis is gradually increasing. Samples are accepted as the number of analyzes increases according to multi-step analysis procedures such as sample pretreatment, nuclide separation, and nuclide recovery measurement and measurement. The number of re-analyses due to misapplied calculations, errors, and analysis mistakes during the process of preparing various documents, from obtaining analysis results for these beta and gamma-emitting nuclides, is increasing.

If the analysis requester expresses an intention to refuse due to dissatisfaction with the analysis result, the sample must be re-analyzed. However, it is impossible to trace the history of the sample in the document, and even if the sample for re-analysis remains, the integrity is not maintained, so re-testing may not be performed. No, it may cause legal problems.

In addition, since it is difficult to collect the same sample again in the field for re-analysis, and the remaining sample after collection for analysis is routinely used as a sample for re-analysis, in most cases it is not stored safely and cannot be used again as a re-analysis sample. .

In order to prevent this problem, the archive hub system can confirm the location of the sample and maintain the integrity of the sample from the registration of the on-site sample to the time the requester confirms the test report after the nuclide analysis is completed, so that when the requestor requests retesting, the archive hub system The archive stored in the file must be retrieved and used.

Therefore, from the time of assigning a sample number for sample history tracking, a system capable of documenting the data related to the storage location and amount of analysis samples and archives should be established, and to safely store analysis samples and manufactured archives. An archive hub integrated management method capable of humidity control and radiation shielding is required.

Republic of Korea Patent Publication No. 10-2021-0083908

Therefore, the present invention was invented in view of the above circumstances, and when sample history tracking management and re-analysis are required from the time of sample reception of nuclear power plant dismantling radioactive waste to the completion of analysis, the same stored sample can be taken out and used. The purpose is to provide an archive hub integrated management method for verifying the results of nuclide analysis of waste.

In order to achieve the above object, the archive hub integrated management method for verifying results of radioactive waste nuclide analysis of nuclear power plant decommissioning according to the present invention includes the steps of collecting data generated in the sample handling and management process (110); Collecting data generated in the nuclide analysis process (120); Generating data generated in the archive production and management process (130); Building a data hub for storing the data generated in steps 110, 120 and 130 (140); manufacturing a high-quality archive for long-term preservation (150); Building an archive hub consisting of various types of archives (160); Building an archive hub operating system for archive ejection and handling (170); includes

In addition, the step of collecting data generated in the sample handling and management process includes transferring and collecting the generated data to the data hub.

In addition, the step of collecting data generated in the nuclide analysis process includes transferring and collecting the generated data to the data hub.

In addition, the step of manufacturing the high-quality archive for long-term preservation includes recording generated data in the data hub.

In addition, the step of manufacturing the high-quality archive for long-term preservation includes manufacturing the distributed archives in various forms in the form of a high-quality archive for long-term preservation.

Also, in the step of constructing the archive hub, the archive hub is constructed so that the various types of archives produced in the step of manufacturing the high-quality archive for long-term preservation can be easily handled and stored for a long period of time.

In addition, the step of constructing the archive hub operating system enables archive ejection and handling for analysis result verification and reanalysis.

According to the present invention, a systematic process for the entire process from the reception process of requesting chemical analysis after collecting samples from radioactive waste generated at the site of nuclear power plant dismantling, classification and storage according to the characteristics of the sample and radiation dose intensity, and completion of chemical analysis In addition to tracking the sample history, it is possible to provide an archive hub integrated management method for verifying the results of nuclear dismantling radioactive waste, which can quickly perform reanalysis by tracking the history of samples when there is a request for verification of the analysis results of the samples.

1 is a diagram for explaining an archive hub integrated management method for verifying a nuclide analysis result of nuclear power plant dismantling radioactive waste.
FIG. 2 is a diagram illustrating generated data for each step in the archive hub integrated management method of FIG. 1 from on-site sample registration, sample reception, sample inspection, and approval.
FIG. 3 is a diagram illustrating a sample analysis data hub and an archive hub operating system for managing archive hub data generated from the sample preparation and distribution steps after the acceptance approval step of FIG. 1 .

Hereinafter, the configuration and operation of a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are marked with the same numerals as much as possible, even if they are displayed on different drawings.

1 is a diagram for explaining an archive hub integrated management method for verifying a nuclide analysis result of nuclear power plant dismantling radioactive waste. FIG. 2 is a diagram illustrating generated data for each step in the archive hub integrated management method of FIG. 1 from on-site sample registration, sample reception, sample inspection, and approval. FIG. 3 is a diagram illustrating a sample analysis data hub and an archive hub operating system for managing archive hub data generated from the sample preparation and distribution steps after the acceptance approval step of FIG. 1 .

The present invention establishes a data hub related to the history of radioactive waste generated at the dismantling site of a nuclear power plant, the receipt, approval, analysis results of analysis samples, and the manufacture of high-quality long-term archive archives, and the establishment of an archive hub for long-term storage of archives, and these archive hub systems It is about operation and management methods.

The archive hub integrated management method for verifying the result of radioactive waste radionuclide analysis of nuclear power plant decommissioning includes collecting data generated in the process of sample handling and management (110); Collecting data generated in the nuclide analysis process (120); Generating data generated in the archive production and management process (130); Building a data hub for storing the data generated in steps 110, 120 and 130 (140); manufacturing a high-quality archive for long-term preservation (150); Building an archive hub consisting of various types of archives (160); Building an archive hub operating system for archive ejection and handling (170); includes

The step of collecting data (110) includes on-site sample registration (111), sample reception (112), and sample inspection (113).

If the sample is inspected and is suitable, the acceptance is approved (114), and if the sample is not suitable, the acceptance is determined as non-acceptable (115), so that the requester related to sample processing confirms.

In the field sample registration step 111, the field sample number is displayed, the type and number of samples are checked, field processing and preservation are performed, and analysis requirements are reviewed. In displaying these on-site sample numbers, confirming the type and number of samples, handling and preserving on-site, and reviewing analysis requirements, corresponding data is generated.

In the sample reception (112) step, it is necessary to check the authorized personnel, irradiate the package, review the exterior damage and contents, require a license to handle radiation, check the storage procedure of the goods, and check the integrity of the storage condition. In each step, corresponding data is generated. do.

In the sample inspection step (113), container label inspection, nuclide confirmation, tamper-proof seal inspection, document preservation verification, investigation limit confirmation, radionuclide type confirmation, sample type and number confirmation, and tracking document confirmation are required. data is generated.

After receiving the sample traceability document along with the sample collected on site, measuring the radioactive contamination on the surface of the sample container according to the procedure, inspecting the integrity of the sample container and storage condition, etc. Allocate.

The accepted samples go through sample preparation and distribution (200).

In the sample preparation and distribution step (200), sample classification and management information, sample-specific and type-specific characteristic information, sampling method, temperature and humidity information, management area information, nuclide analysis operating system information, analysis database information, and sample storage system information are generated. do.

Next, the sample is analyzed (210) and stored in an intermediate storage (220).

In the analyzed sample, data generated during the nuclide analysis process is collected (120). Next, a data hub for storing analysis data is built (140).

Samples approved for acceptance produce high-quality archives for long-term preservation (150). Next, an archive hub composed of various types of archives for managing archives is built (160).

Data generated in the process of manufacturing and managing archives for samples is generated (130), and these data are stored in the data hub. In addition, data related to sample registration (111), sample reception (112), and sample inspection (113) are also stored in the data hub.

Next, when re-analysis is required after the analysis of the sample is completed, an archive hub operating system is established to perform archive ejection and handling (170). The archive hub operating system is operated in connection with the data hub 140 and the archive hub 160 .

In particular, “analysis laboratory sample tracking” is computerized so that the storage state and location of the sample can be checked from logging in to the sample until the test report is issued to the analysis requester after the radiochemical analysis is completed and the sample is recalled for retesting in case of emergency. Using the system, it should be possible for the person in charge of each field to enter and sign.

Samples approved for acceptance are collected and stored in a storage container made of glass or quartz, attached with a sample tracking identification mark such as a QR code or barcode, and stored in an archive, recording the physical and chemical state of the sample, and meeting requirements related to analysis. The task of inputting and signing by the person in charge of each field must be performed using a computer system.

Preprocessing of radioactive waste samples, radionuclides The person in charge of each field inputs and signs by using a computer system to comprehensively manage the multi-step radiochemical analysis, such as separation of radionuclides, measurement and measurement of nuclide recovery rate, input and output of final nuclide radioactivity results, and signature of the person in charge. work must be done

Through the above work procedures, an integrated management system that can finally manage data and archive hubs in an integrated manner and be signed by the final manager must be established.

According to the archive hub integrated management method for verification of radioactive waste radionuclide analysis results as described above, samples are collected from radioactive waste generated at the site of nuclear power plant dismantling and then chemical analysis is requested. In addition to systematic sample history tracking for the entire process from classification and storage to completion of chemical analysis, it is possible to quickly perform reanalysis by tracking the history of the sample when there is a request for verification of the analysis result of the sample.

It is obvious to those skilled in the art that the present invention is not limited to the above embodiments and can be variously modified or transformed without departing from the technical gist of the present invention. will be.

100: archive hub integrated management system
110: sample registration, reception and inspection data
111: on-site sample registration
112: sample reception
113: sample inspection
114: acceptance approval
115: Unacceptable
120: analysis data
130: Data creation step occurred in the archive manufacturing and management process
140: data hub
150: archive
160: archive hub
170: archive hub operating system
200: sample preparation and distribution
210: sample analysis
220: intermediate storage

Claims (7)

In the archive hub integrated management method for verifying the results of radioactive waste nuclide analysis of nuclear power plant dismantling,
Collecting data generated during sample handling and management (110);
Collecting data generated in the nuclide analysis process (120);
Generating data generated in the archive production and management process (130);
Building a data hub for storing the data generated in steps 110, 120 and 130 (140);
manufacturing a high-quality archive for long-term preservation (150);
Building an archive hub consisting of various types of archives (160);
Building an archive hub operating system for archive ejection and handling (170);
Archive hub integrated management method for verifying results of radioactive waste radionuclide analysis including nuclear power plant decommissioning. According to claim 1,
The step of collecting data generated in the sample handling and management process includes transferring and collecting the generated data to the data hub. According to claim 1,
The step of collecting the data generated in the nuclide analysis process includes the step of transferring and collecting the generated data to the data hub. According to claim 1,
The step of manufacturing a high-quality archive for long-term preservation includes the step of recording the generated data in the data hub. According to claim 1,
The step of manufacturing the high-quality archive for long-term preservation includes the step of manufacturing the distributed various types of archives in the form of a high-quality archive for long-term preservation. According to claim 1,
The step of constructing the archive hub is an archive for verifying the result of nuclide analysis of dismantled nuclear power plants to build an archive hub so that various types of archives manufactured in the step of manufacturing high-quality archives for long-term preservation can be easily handled and stored for a long period of time. Hub integrated management method. According to claim 1,
The step of building the archive hub operating system is an archive hub integrated management method for verifying the result of nuclear dismantling radioactive waste analysis that enables archive ejection and handling for analysis result verification and reanalysis.

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