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http://dx.doi.org/10.12812/ksms.2014.16.4.159

Study on the Consequence Analysis about Leakage Scenarios for Hydrogen Gas  

Kim, Tae Hun (Hoseo University Department of Intelligent Automation System Engineering)
Oh, Young Dal (Hoseo University Department of Safety Engineering)
Lee, Man Soo (Hoseo University Department of Technical Business Administration)
Publication Information
Journal of the Korea Safety Management & Science / v.16, no.4, 2014 , pp. 159-165 More about this Journal
Abstract
For the hydrogen economy system being tried starting with the 21st century, the fields that was not dealt with so far, such as the safety measure for large leakage accidents, the safety problem at infrastructures like a hydrogen station, the safety problem in terms of automobiles depending on introduction of hydrogen cars, the safety problem in a supply for homes like fuel cells, etc., are being deeply reviewed. In order to establish a safety control system, an essential prerequisite in using and commercializing hydrogen gas as an efficient energy source, it is necessary to conduct an analysis, such as analysis of hydrogen accident examples, clarification of physical mechanisms, qualitative and quantitative evaluation of safety, development of accident interception technologies, etc. This study prepared scenarios of hydrogen gas leakage that can happen at hydrogen stations, and predicted damage when hydrogen leaks by using PHAST for this.
Keywords
Hydrogen; Consequence; Analysis; Explosion; Leak; Rupture;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 Boo, K.J.(2006), "A National Vision of the Hydrogen Economy and Action Plan". The Korea Socity for Energy Engineering 15(2):83-95.   과학기술학회마을
2 CPR 18E(2005), "Guideline for Quantitative Risk Assessment." TNO.
3 EN 1473(2007), "Installation and equipment for liquefied natural gas. Design of onshore installations." BS.
4 EN 13654(2002), "Installations and equipment for liquefied natural gas. Design of onshore installations with a storage capacity between 5 t and 200 t." BS.
5 NREL/TP-570-27079(1999), "Survey of the Economics of Hydrogen Technologies."
6 Yoon, W.R. and SEO, D.J.(2004), "Developmental Status and prospect of hydrogen reforming infrastructure." SAREK.
7 A. Szyszka(1998), "Int.J.Hydrogen Energy." 23(3) 849.860   DOI
8 A. Bahbout and D. Kluyskens and R. Wurster(1998), "in Proceedings of the 12th world hydrogen conference." Buenos Aires, Argentina.
9 B. Sorensen and F. Sorensen(2000), "in Proceedingd of the 13th World Hydrogen Energy Conference, Beijing." China.
10 T.N. Veriroglu(2000), "in Proceedingd of the 13th World Hydrogen Energy Conference, Beijing." China.
11 Rosen, M.A. and Scott, D.S.(1992), "Int.J.Hydrogen Energy." 17(3): 199-204   DOI
12 R.A. Hefner(1995), "Int.J.Hydrogen Energy." 20(2):945-948   DOI   ScienceOn
13 C. Mitsugi and A. Harumi and F. Kenzo(1998), "Int.J.Hydrogen Energy." 23(3):159-165   DOI
14 Kim, Y.T. and Rhie, K.W. and Back, J.J. and Oh, S.K. and Han, J.M. and Kim, W.K.(2000), "가스설비의 정량적 안전성 평가", KOSOS.
15 Rhie, K.W. and Kim T.H. Kim, J.K. Han, S.Y.(2005), "Safety Assessment for Hydrogen Gas Production Facilities (Steam Reforming)." KIGAS. 9(4):44-49