A Study on Destruction Potential of Sulfur Hexafluoride (SF6) Using High Ionization Energy
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Ryu, Jae-Yong
(Korea Atomic Energy Research Institute (KAERI))
Kim, Jong-Bum (Korea Atomic Energy Research Institute (KAERI)) Choi, Chang-Yong (Korea Atomic Energy Research Institute (KAERI)) Lee, Sang-Joon (Environment & Energy Convergence Technology R & D center Pyeongtaek University) Kwak, Hee-Sung (Korea Atomic Energy Research Institute (KAERI)) Yun, Young-Min (Korea Atomic Energy Research Institute (KAERI)) |
1 |
Lee, S.H., N.K. Park, S.H. Yoon, W.C. Chang, and T.J. Lee (2009) Catalytic decomposition of |
2 | Park, K.N., K.J. Kim, J.C. Kim, W.Y. Sun, and H.N. Song (2005) Removal efficiency of toluene by EBeamcatalyst coupling system, J. KOSAE, 21(6), 667-673. |
3 | Son, Y.S. (2011) A technique for removing odorous sulfur compounds using an electron beam hybrid system, Ph. D. dissertation, Konkuk university. |
4 |
Tsai, W.-T. (2007) The decomposition products of sulfur hexafluoride ( |
5 |
Yoo, H.J., J.S. Kim, J.S. Lee, D.M. Moon, J.B. Lee, J.H. Kim, S.H. Kim, and I.Y. Lee (2011) Measurement and characterization of atmospheric |
6 | Chang, M.B. and H.M. Lee (2004) Abatement of perfluorocarbons with combined plasma catalysis in atmospheric-pressure environment, Catal. Today, 89(1-2), 109-115. DOI ScienceOn |
7 | Clean Systems Korea (2011) Internal Technical Document. |
8 | Hirota, K., H. Matzing, H.R. Paur, and K. Woletz (1995) Analyses of products formed by electron beam treatment of VOC/air mixtures, Radiation Physics and Chemistry, 45(4), 649-655. DOI ScienceOn |
9 | IPCC (2001) The Scientific Basis, Cambridge, England, Cambridge University Press. Chapter 4, pp. 244. |
10 | Jang, J.H., J.S. Bae, B.N. Kim, W.S. Park, S.D. Kim, and Y.S. Won (2003) Decomposition of aromatic VOCs in flow reactor by electron beam irradiation, Applied Chemistry, 7(1), 353-356. |
11 | Kim, K.J. (2007) A study on the coupling effect of electron beam and catalyst for control of volatile organic compounds, Ph. D. dissertation, Konkuk university. |
12 | Kim, P.H. (2010) A Study on Trimethylamine Control Characteristics using Advanced Oxidizing Technique, Thesis of Master of Science, Konkuk university. |
13 |
Lee, H.J., H.K. Lee, H.S. Choi, and S.H. Lee (2011) Recovery of |
14 |
Lee, H.J., M.W. Lee, H.K. Lee, and S.H. Lee (2011) Separation and recovery of SF6 gas from |
15 | 손윤석, 김정환, 정진호, 김조천(2012) 전자빔 하이브리드 기술을 이용한 악취물질 제어연구, 한국대기환경학회, 2012 춘계학술대회 논문집, pp. 34. |
16 |
김정식, 유희정, 김상백, 문동민, 이진복, 김명수 (2007) 육불화황( |
17 |
박정주, 동종인, 박인희, 조연행 (2007) 전력기기에서의 |
18 | 손영식, 김조천, 박강남, 손윤석, 김기형, 김기준, 선우영 (2007) 전자빔을 이용한 Methane의 분해 특성 연구, 한국대기환경학회, 2007 추계학술대회 논문집, 479-480. |
19 | 유동헌(2004) 산업공정부문 온실가스 배출전망, 에너지경제연구원 기본연구보고서. |
20 | 이동근 (2011) 온실가스 배출 통계 개선을 위한 기초연구, 통계개발원 수시과제 연구보고서. |
21 | 이상준(2010) 화염-플라즈마를 이용하여 반도체 공정 발생 1,000 LPM 규모의 PFCs 처리기술 개발에 관한 연구, Clean Systems Korea 환경부 차세대 핵심환경기술개발 사업 최종보고서. |
22 | 최장승 (2011) 염색폐수처리시설 악취물질의 하이브리드형 라디칼 고도산화 처리기술 개발, 한국염색기술 연구소 환경부 차세대 핵심환경기술개발 사업 연구보고서. |
23 |
Bae, J.S., H.Y. Kim, B.N. Kim, Y.S. Won, and D.H. Han (2004) Continuous dry process for simultaneous removal of |
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