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KCIIf the continuous common decontamination system of radioactive spent resin designedby Huvis Water Co., Ltd is actually operated, the radioactive spent resin with the considerablyhighradioactivity level would be handled, so that the radiation shielding...
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RISS 인기검색어
방사성폐수지 처리를 위한 연속식 상용 제염시스템 차폐 설계 및 평가 = Design and Evaluation of Shielding for the Continuous Common Decontamination System for Radioactive Spent Resin Disposal
한글로보기https://www.riss.kr/link?id=A106287578
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2019
-
작성언어
Korean
- 주제어
-
등재정보
KCI등재
-
자료형태
학술저널
-
수록면
103-108(6쪽)
-
KCI 피인용횟수
0
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
If the continuous common decontamination system of radioactive spent resin designedby Huvis Water Co., Ltd is actually operated, the radioactive spent resin with the considerablyhighradioactivity level would be handled, so that the radiation shielding is essential to the treatmentfacilities, and its performance should be secured as well. When designing the shielding or calculatingthe thickness of shielding wall, the dose at the point of interest should be calculated by assuming thecase without the shielding material, and then the shielding material and the thickness of shieldingare decided. In the treatment facilities, the treatment system as a source term is divided into threeprocesses, and out of them, from the SKID 1 with 60Co and 137Cs as source term to the work zonewere set up as the point of interest. For the calculation of dose rate, the point kennel method wasused. In accordance with the shielding design standard, the shielding material and its thickness weredecided, so that the dose rate at the point of interest after shielding could be less than 1 mSv·week-1.
Regarding the shielding materials, the concrete, steel, and lead that would be generally used themost in reality, were decided. The thicknesses of shielding meeting the standard value at all thepoints of interest were like 30 cm for concrete, and 3 cm for lead. Considering the optimization ofradiation protection, it should be set up as the above values or up. The shielding material and itsthickness should be selected by considering the economic feasibility and many efficiencies.
Regarding the shielding materials, the concrete, steel, and lead that would be generally used themost in reality, were decided. The thicknesses of shielding meeting the standard value at all thepoints of interest were like 30 cm for concrete, and 3 cm for lead. Considering the optimization ofradiation protection, it should be set up as the above values or up. The shielding material and itsthickness should be selected by considering the economic feasibility and many efficiencies.
If the continuous common decontamination system of radioactive spent resin designedby Huvis Water Co., Ltd is actually operated, the radioactive spent resin with the considerablyhighradioactivity level would be handled, so that the radiation shielding is essential to the treatmentfacilities, and its performance should be secured as well. When designing the shielding or calculatingthe thickness of shielding wall, the dose at the point of interest should be calculated by assuming thecase without the shielding material, and then the shielding material and the thickness of shieldingare decided. In the treatment facilities, the treatment system as a source term is divided into threeprocesses, and out of them, from the SKID 1 with 60Co and 137Cs as source term to the work zonewere set up as the point of interest. For the calculation of dose rate, the point kennel method wasused. In accordance with the shielding design standard, the shielding material and its thickness weredecided, so that the dose rate at the point of interest after shielding could be less than 1 mSv·week-1.
Regarding the shielding materials, the concrete, steel, and lead that would be generally used themost in reality, were decided. The thicknesses of shielding meeting the standard value at all thepoints of interest were like 30 cm for concrete, and 3 cm for lead. Considering the optimization ofradiation protection, it should be set up as the above values or up. The shielding material and itsthickness should be selected by considering the economic feasibility and many efficiencies.
참고문헌 (Reference)
1 김경숙, "초임계수 산화공정에 의한 원전 폐수지 처리기술" 한국방사성폐기물학회 7 (7): 175-182, 2009
2 원자력안전위원회, "원자력안전법. 제55조 허가기준"
3 원자력안전위원회, "원자력안전법. 원자력안전위원회 규칙. 방사선안전관리에 대한 기술기준"
4 한국수력원자력, "울진 5, 6호기 최종안전성분석보고서(FSAR)" 2001
5 한국수력원자력, "영광 5, 6호기 최종안전성분석보고서(FSAR)" 2003
6 한국수력원자력, "신월성 1, 2호기 최종안전성분석보고서(FSAR)" 2011
7 한국수력원자력, "신고리 3, 4호기 최종안전성분석보고서(FSAR)" 2010
8 대한민국특허청, "등록특허공고 10-1172247호. 방사성폐수지제염 및 장치"
9 대한민국특허청, "공개특허공고 10-2011-0116428호. 중수로형 원자력발전소의 고준위 방사성 폐수지 발생감소를 위한 폐수지 처리시스템"
10 David S. Kessel, "U.S. Policy and Current Practices for Blending Low-Level Radioactive Waste for Disposal" 한국방사성폐기물학회 14 (14): 235-243, 2016
1 김경숙, "초임계수 산화공정에 의한 원전 폐수지 처리기술" 한국방사성폐기물학회 7 (7): 175-182, 2009
2 원자력안전위원회, "원자력안전법. 제55조 허가기준"
3 원자력안전위원회, "원자력안전법. 원자력안전위원회 규칙. 방사선안전관리에 대한 기술기준"
4 한국수력원자력, "울진 5, 6호기 최종안전성분석보고서(FSAR)" 2001
5 한국수력원자력, "영광 5, 6호기 최종안전성분석보고서(FSAR)" 2003
6 한국수력원자력, "신월성 1, 2호기 최종안전성분석보고서(FSAR)" 2011
7 한국수력원자력, "신고리 3, 4호기 최종안전성분석보고서(FSAR)" 2010
8 대한민국특허청, "등록특허공고 10-1172247호. 방사성폐수지제염 및 장치"
9 대한민국특허청, "공개특허공고 10-2011-0116428호. 중수로형 원자력발전소의 고준위 방사성 폐수지 발생감소를 위한 폐수지 처리시스템"
10 David S. Kessel, "U.S. Policy and Current Practices for Blending Low-Level Radioactive Waste for Disposal" 한국방사성폐기물학회 14 (14): 235-243, 2016
11 Hamodi N, "Thermal Analysis and Immobilisation of Spent Ion Exchange Resin in Borosilicate Glass" 2 (2): 111-120, 2012
12 Sung GH, "Research and Development for Decontamination System of Spent Resin in Hanbit Nuclear Plant" 9 (9): 217-221, 2015
13 Choi YK, "Removal Technology for Treat-ment of Spent Resin from Nuclear Power Plants: A Review" 2014
14 Nursaidatul Syafadillah Kamaruzaman, "Management of Spent Ion-Exchange Resins From Nuclear Power Plant by Blending Method" 한국방사성폐기물학회 16 (16): 65-82, 2018
15 양호연, "IRN-150 혼상수지의 이온 흡착특성 및 폐수지로부터 탈착용액을 이용한 14C 핵종의 제거 특성" 한국방사성폐기물학회 4 (4): 373-384, 2006
16 손영주, "Development of Chemical and Biological Decontamination Technology for Radioactive Liquid Wastes and Feasibility Study for Application to Liquid Waste Management System in APR1400" 한국방사성폐기물학회 17 (17): 59-73, 2019
17 Moir DL, "Determination of 14C in Spent Moderator Ion-Exchange Resin from Bruce Nuclear Generating Station A" 182 (182): 69-81, 1994
18 산업통상자원부, "C-14 함유 원전 폐수지 처리 및 안정화기술 20151520302100"
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