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다국어 초록 (Multilingual Abstract)

Because existing reactant coolant system (RCS) leakage detection mechanisms are insensitive to small leaks, a real-time, direct detection system with a detection threshold below 0.5 gpm∙hr1 was studied. A beta-ray detection system using a silicon detector with good energy resolution for beta rays and a low gamma-ray response was proposed. The detection performance in the leakage condition was evaluated through experiments and simulations. The concentration of 16N in the coolant corresponding to a coolant leakage of 0.5 gpm was calculated using the analytic method and ORIGEN-ARP. Based on the concentration of 16N and the measurement of the silicon detector with 90Sr/90Y, the beta-ray count rate was estimated using MCNPX. To evaluate the effect of gamma rays inside the containment building, the signal-to-noise ratio (SNR) was calculated. To evaluate the count rate ratio, the radiation field inside the containment building was simulated using MCNPX, and response evaluation experiments were performed using beta and gamma rays on the silicon detector. The expected beta-ray count rate at 0.5 gpm leakage was 7.26 105 counts/sec, and the signal-to-background count rate ratio exceeded 88 for a transport time of 10 s, demonstrating its suitability for operation inside a reactor containment building.

참고문헌 (Reference)

1 Instrument Society of America, "Standard for light water reactor coolant pressure boundary leak detection"

2 Korea Hydro, "ShinKori Nuclear Unit 3,4 Final Safety Analysis Report" 2015

3 U.S., Nuclear Regulatory Commission, "Regulatory Guide 1.45 Guidance on Monitoring and Responding to Reactor Coolant System Leakage"

4 R. D. Ryan, "Precision measurements of the ionization energy and its temperature variation in high purity silicon radiation detectors" 20 (20): 473-480, 1973

5 Wu-Hung Peng, "Particulate activity accumulated on A moving filter and RCS leak detection" 103 (103): 174-178, 2012

6 "Operational Performance Information System for Nuclear Power Plant"

7 "ORTEC Radiation Detectors"

8 I.C. Gauld, "ORIGEN-ARP: Automatic Rapid Processing for Spent Fuel Depletion, Decay, and Source Term Analysis" 2004

9 C. Canali, "Measurements of the average energy per electron-hole pair generation in silicon between 5-320 K" 19 (19): 9-19, 1972

10 D.B. Pelowitz, "MCNPX User's Manual Version 2.7.0, LA-CP-11-00438" Los Alamos National Laboratory 2011

1 Instrument Society of America, "Standard for light water reactor coolant pressure boundary leak detection"

2 Korea Hydro, "ShinKori Nuclear Unit 3,4 Final Safety Analysis Report" 2015

3 U.S., Nuclear Regulatory Commission, "Regulatory Guide 1.45 Guidance on Monitoring and Responding to Reactor Coolant System Leakage"

4 R. D. Ryan, "Precision measurements of the ionization energy and its temperature variation in high purity silicon radiation detectors" 20 (20): 473-480, 1973

5 Wu-Hung Peng, "Particulate activity accumulated on A moving filter and RCS leak detection" 103 (103): 174-178, 2012

6 "Operational Performance Information System for Nuclear Power Plant"

7 "ORTEC Radiation Detectors"

8 I.C. Gauld, "ORIGEN-ARP: Automatic Rapid Processing for Spent Fuel Depletion, Decay, and Source Term Analysis" 2004

9 C. Canali, "Measurements of the average energy per electron-hole pair generation in silicon between 5-320 K" 19 (19): 9-19, 1972

10 D.B. Pelowitz, "MCNPX User's Manual Version 2.7.0, LA-CP-11-00438" Los Alamos National Laboratory 2011

11 U.S. Nuclear Regulatory Commission, "Information Notice 2005-24: Nonconservatism in Leakage Detection Sensitivity"

12 C. King, "In Materials Reliability Program : Survey of On-Line PWR Primary Coolant Leak Detection Technologies(MRP-187)" EPRI 2005

13 JaeYeong Jang ; Schaarschmidt Thomas ; 김용균, "Feasibility Study of Beta Detector for Small Leak Detection inside the Reactor Containment" 대한방사선방어학회 43 (43): 154-159, 2018

14 M.J. Berger, "ESTAR, PSTAR, and ASTAR: Computer Programs for Calculating Stopping-Power and Range Tables for Electrons, Protons, and Helium Ions"

15 R. H. Pehl, "Accurate determination of the ionization energy in semiconductor detectors" 59 : 55-45, 1968

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학술지 이력

학술지 이력
연월일	이력구분	이력상세
2023	평가예정	해외DB학술지평가 신청대상 (해외등재 학술지 평가)
2020-01-01	평가	등재학술지 유지 (해외등재 학술지 평가)
2014-01-01	평가	SCIE 등재 (등재유지)
2014-01-01	평가	SCOPUS 등재 (등재유지)
2011-01-01	평가	등재학술지 유지 (등재유지)
2009-01-01	평가	등재학술지 유지 (등재유지)
2007-01-01	평가	등재학술지 유지 (등재유지)
2006-07-31	학술지명변경	한글명 : Jorunal of the Korean Nuclear Society -> Nuclear Engineering and Technology 외국어명 : 미등록 -> Nuclear Engineering and Technology
2004-01-01	평가	등재후보학술지 선정 (신규평가)
2003-01-01	평가	등재후보 1차 PASS (등재후보1차)
2002-01-01	평가	등재후보학술지 유지 (등재후보1차)
1999-01-01	평가	등재후보학술지 선정 (신규평가)

학술지 인용정보

학술지 인용정보
기준연도	WOS-KCI 통합IF(2년)	KCIF(2년)	KCIF(3년)
2016	1.04	0.17	0.77
KCIF(4년)	KCIF(5년)	중심성지수(3년)	즉시성지수
0.63	0.56	0.343	0.11

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Feasibility study of β-ray detection system for small leakage from reactor coolant system

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