• 제목/요약/키워드: ISOCS

검색결과 7건 처리시간 0.025초

Assessment of Applicability of Portable HPGe Detector with In Situ Object Counting System based on Performance Evaluation of Thyroid Radiobioassays

  • Park, MinSeok;Kwon, Tae-Eun;Pak, Min Jung;Park, Se-Young;Ha, Wi-Ho;Jin, Young-Woo
    • Journal of Radiation Protection and Research
    • /
    • 제42권2호
    • /
    • pp.83-90
    • /
    • 2017
  • Background: Different cases exist in the measurement of thyroid radiobioassays owing to the individual characteristics of the subjects, especially the potential variation in the counting efficiency. An In situ Object Counting System (ISOCS) was developed to perform an efficiency calibration based on the Monte Carlo calculation, as an alternative to conventional calibration methods. The purpose of this study is to evaluate the applicability of ISOCS to thyroid radiobioassays by comparison with a conventional thyroid monitoring system. Materials and Methods: The efficiency calibration of a portable high-purity germanium (HPGe) detector was performed using ISOCS software. In contrast, the conventional efficiency calibration, which needed a radioactive material, was applied to a scintillator-based thyroid monitor. Four radioiodine samples that contained $^{125}I$ and $^{131}I$ in both aqueous solution and gel forms were measured to evaluate radioactivity in the thyroid. ANSI/HPS N13.30 performance criteria, which included the relative bias, relative precision, and root-mean-squared error, were applied to evaluate the performance of the measurement system. Results and Discussion: The portable HPGe detector could measure both radioiodines with ISOCS but the thyroid monitor could not measure $^{125}I$ because of the limited energy resolution of the NaI(Tl) scintillator. The $^{131}I$ results from both detectors agreed to within 5% with the certified results. Moreover, the $^{125}I$ results from the portable HPGe detector agreed to within 10% with the certified results. All measurement results complied with the ANSI/HPS N13.30 performance criteria. Conclusion: The results of the intercomparison program indicated the feasibility of applying ISOCS software to direct thyroid radiobioassays. The portable HPGe detector with ISOCS software can provide the convenience of efficiency calibration and higher energy resolution for identifying photopeaks, compared with a conventional thyroid monitor with a NaI(Tl) scintillator. The application of ISOCS software in a radiation emergency can improve the response in terms of internal contamination monitoring.

비정형 공정부산물 In-Situ 감마선 측정 정확도 향상을 위한 효율교정 모델 최적화 방법 개발 (Development of an Efficiency Calibration Model Optimization Method for Improving In-Situ Gamma-Ray Measurement for Non-Standard NORM Residues)

  • 최우철;전태훈;송정호;김광표
    • 방사선산업학회지
    • /
    • 제17권4호
    • /
    • pp.471-479
    • /
    • 2023
  • In In-situ radioactivity measurement techniques, efficiency calibration models use predefined models to simulate a sample's geometry and radioactivity distribution. However, simplified efficiency calibration models lead to uncertainties in the efficiency curves, which in turn affect the radioactivity concentration results. This study aims to develop an efficiency calibration optimization methodology to improve the accuracy of in-situ gamma radiation measurements for byproducts from industrial facilities. To accomplish the objective, a drive mechanism for rotational measurement of an byproduct simulator and a sample was constructed. Using ISOCS, an efficiency calibration model of the designed object was generated. Then, the sensitivity analysis of the efficiency calibration model was performed, and the efficiency curve of the efficiency calibration model was optimized using the sensitivity analysis results. Finally, the radiation concentration of the simulated subject was estimated, compared, and evaluated with the designed certification value. For the sensitivity assessment of the influencing factors of the efficiency calibration model, the ISOCS Uncertainty Estimator was used for the horizontal and vertical size and density of the measured object. The standard deviation of the measurement efficiency as a function of the longitudinal size and density of the efficiency calibration model decreased with increasing energy region. When using the optimized efficiency calibration model, the measurement efficiency using IUE was improved compared to the measurement efficiency using ISOCS at the energy of 228Ac (911 keV) for the nuclide under analysis. Using the ISOCS efficiency calibration method, the difference between the measured radiation concentration and the design value for each simulated subject measurement direction was 4.1% (1% to 10%) on average. The difference between the estimated radioactivity concentration and the design value was 3.6% (1~8%) on average when using the ISOCS IUE efficiency calibration method, which was closer to the design value than the efficiency calibration method using ISOCS. In other words, the estimated radioactivity concentration using the optimized efficiency curve was similar to the designed radioactivity concentration. The results of this study can be utilized as the main basis for the development of regulatory technologies for the treatment and disposal of waste generated during the operation, maintenance, and facility replacement of domestic byproduct generation facilities.

MonteCarlo 코드를 이용한 PWR 일차 계통 선원항 평가에 관한 연구 (A Study on the Assessment of Source-term for PWR Primary System Using MonteCarlo Code)

  • 송종순;이상헌;신승수
    • 방사성폐기물학회지
    • /
    • 제16권3호
    • /
    • pp.331-337
    • /
    • 2018
  • 원전 해체는 일반적으로 5단계로 준비, 제염, 절단 및 철거, 폐기물 처리, 환경 복원으로 진행된다. 효율적인 원전 해체를 위해서는 작업자의 안전, 비용 대비 효과, 폐기물 최소화, 재사용 가능성 등이 고려되어야 한다. 또한, 작업자의 안전 및 측정기술이 확보되어야 원전 해체 작업의 최적 효율을 낼 수 있으며 이를 위해서는 계통 및 기기의 정확한 측정 기술이 필요하다. 원전 해체 시 현장에서 사용할 수 있는 대표적인 In-Situ 방법으로는 CZT, Gamma Camera, ISOCS 등이 있다. 본 연구에서는 대표 시료 채취 없이 원전 해체 시 현장에서 적용될 수 있는 ISOCS를 이용하여 S/G Water Chamber 지점에 대하여 측정을 수행하였다. 측정 방법은 ISOCS의 HPGe 검출기를 증기 발생기 수실 하부 중앙을 향해 위치하였으며, 이때 검출기는 주변 방사선장 감소를 위해 납 차폐체를 장착하였다. 차폐체 두께는 5 cm인 원통형 납 차폐체를 장착하였으며, 검출기 전면에는 30도 콜리메이터를 장착하여 측정을 수행하였다. 측정값에 검증을 위해 실제 측정 방법과 동일하게 Microshield를 이용하여 측정한 값과 GEANT4 코드를 이용하여 모델링 하였다. 비교 결과 $1.0{\times}10^1{\sim}1.0{\times}10^2Bq$ 정도 차이를 보였으며, 이는 측정 시 주변 방사선의 영향, 모델링의 정밀도 등으로 오차를 줄일 수 있을 것으로 보인다. 본 논문의 연구 결과를 바탕으로 측정값의 정확도 및 신뢰도를 분석하고 향후 해체 작업 시 직접 측정 방법의 적용성에 대한 신뢰도를 높이고자 한다.

감마핵종 In-Situ 측정 연구 동향 분석 및 방사능 측정 효율 민감도 평가 (In-Situ Gamma Spectrometry Research Analysis and Radiation Efficiency Sensitivity Evaluation)

  • 라현준;김혁재;이성연;곽민우;김광표
    • 방사선산업학회지
    • /
    • 제17권1호
    • /
    • pp.1-9
    • /
    • 2023
  • Since a large amount of radioactive waste is expected to be generated due to permanent shutdown of many nuclear power plants, it is necessary to prepare efficient management methods for radioactive waste. Therefore, there is a need for a based study to apply the In-Situ gamma spectrometry, which can simplify the measurement procedure. The purpose of this study is to analyze research cases of In-Situ gamma spectrometry and to analyze the sensitivity of measurement according to influencing factors on In-Situ gamma spectrometry. Research cases of five institutions, including the CERN and the Imperial College Reactor Centre (ICRC), were selected as the institutions to be investigated. Research on the In-Situ gamma spectrometry was conducted on the satisfaction of the acceptance criteria for radioactive waste and the analysis of residual radioactivity in the site. In-Situ Objective Counting System (ISOCS) was used as a major measuring device. Sampling and computer code were used to verify the analysis results. For evaluation of measuring sensitivity according to influencing factors on In-Situ gamma spectrometry, the thickness of the measurement target, the distance between the detector and the target, the angle of the collimator, and the contamination location were performed using ISOCS's Geometry Composer. In every case, based on 122 keV, the efficiency decreased as the energy increased in the high energy region, and the efficiency decreased as the energy decreased in the low energy region. As the target thickness increased, the efficiency decreased, and as the distance between target and detector increased, the efficiency decreased. As the distance between contamination and detector increased, the efficiency decreased, and as the angle of the collimator increased, the measurement efficiency increased. However, when simulating the measurement situation using Geometry Composer, the background is not considered, and the probability of incident in the background increases as the angle increases, so further research needs to be conducted in consideration of these. This study can be utilized when applying the In-Situ gamma spectrometry of radioactive waste clearance in the future.

In Situ Gamma-ray Spectrometry Using an LaBr3(Ce) Scintillation Detector

  • Ji, Young-Yong;Lim, Taehyung;Lee, Wanno
    • Journal of Radiation Protection and Research
    • /
    • 제43권3호
    • /
    • pp.85-96
    • /
    • 2018
  • Background: A variety of inorganic scintillators have been developed and improved for use in radiation detection and measurement, and in situ gamma-ray spectrometry in the environment remains an important area in nuclear safety. In order to verify the feasibility of promising scintillators in an actual environment, a performance test is necessary to identify gamma-ray peaks and calculate the radioactivity from their net count rates in peaks. Materials and Methods: Among commercially available scintillators, $LaBr_3(Ce)$ scintillators have so far shown the highest energy resolution when detecting and identifying gamma-rays. However, the intrinsic background of this scintillator type affects efficient application to the environment with a relatively low count rate. An algorithm to subtract the intrinsic background was consequently developed, and the in situ calibration factor at 1 m above ground level was calculated from Monte Carlo simulation in order to determine the radioactivity from the measured net count rate. Results and Discussion: The radioactivity of six natural radionuclides in the environment was evaluated from in situ gamma-ray spectrometry using an $LaBr_3(Ce)$ detector. The results were then compared with those of a portable high purity Ge (HPGe) detector with in situ object counting system (ISOCS) software at the same sites. In addition, the radioactive cesium in the ground of Jeju Island, South Korea, was determined with the same assumption of the source distribution between measurements using two detectors. Conclusion: Good agreement between both detectors was achieved in the in situ gamma-ray spectrometry of natural as well as artificial radionuclides in the ground. This means that an $LaBr_3(Ce)$ detector can produce reliable and stable results of radioactivity in the ground from the measured energy spectrum of incident gamma-rays at 1 m above the ground.