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DBpiaThis study aims to evaluate the structural integrity of protective walls at hydrogen refueling stations during an explosion and to test their resistance to actual blast pressure. These protective walls are defined by the Korea Gas Safety Corporation (...
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RISS 인기검색어
고압 수소 용기 폭발 압력이 방호벽 배면 지역에 미치는 영향 분석 = Analysis of the Impact of High-pressure Hydrogen Vessel Explosion Pressure on Protective Barriers and Rear Areas
한글로보기https://www.riss.kr/link?id=A109321563
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2024
-
작성언어
Korean
-
주제어
수소 ; 방호벽 ; 폭발 ; 폭발압 ; 피해 저감 ; Hydrogen ; Protective walls ; Explosion ; Blast pressure ; Minimizing damage
-
등재정보
KCI등재
-
자료형태
학술저널
- 발행기관 URL
-
수록면
563-571(9쪽)
- DOI식별코드
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
This study aims to evaluate the structural integrity of protective walls at hydrogen refueling stations during an explosion and to test their resistance to actual blast pressure. These protective walls are defined by the Korea Gas Safety Corporation (KGS) and play a crucial role in protecting surrounding areas and minimizing damage in the event of an explosion. The research involves constructing walls made of concrete blocks, steel plates, and reinforced concrete according to KGS specifications and validating their effectiveness through explosion tests. Through this, the study seeks to enhance the safety of hydrogen refueling stations and contribute to the expansion of infrastructure and the promotion of hydrogen vehicles, facilitating the transition to a hydrogen-based society.
This study aims to evaluate the structural integrity of protective walls at hydrogen refueling stations during an explosion and to test their resistance to actual blast pressure. These protective walls are defined by the Korea Gas Safety Corporation (KGS) and play a crucial role in protecting surrounding areas and minimizing damage in the event of an explosion. The research involves constructing walls made of concrete blocks, steel plates, and reinforced concrete according to KGS specifications and validating their effectiveness through explosion tests. Through this, the study seeks to enhance the safety of hydrogen refueling stations and contribute to the expansion of infrastructure and the promotion of hydrogen vehicles, facilitating the transition to a hydrogen-based society.
참고문헌 (Reference)
1 V. Molkov, "The blast wave decay correlation for hydrogen tank rupture in a tunnel fire" 45 (45): 31289-31302, 2020
2 양윤영 ; 조재근 ; 박우일 ; 나현빈, "TNT explosion demonstration and computational fluid dynamics for safety verification of protection wall in hydrogen refueling station" 27 (27): 102-109, 2023
3 A. Kumamoto, "Measurement of minimum ignition energy in hydrogen-oxygen-nitrogen premixed gas by spark discharge" 301 : 012039-, 2011
4 SNe Research, "In Q1 2024, global FCEV market with a 36.4% YoY degrowth"
5 H. Lee, "Experimental study on the open field explosion test method for TNT equivalent of hydrogen" 79-, 2024
6 신진원, "Damage evaluation of adjacent structures for detonation of hydrogen storage facilities" 16 (16): 61-70, 2023
7 안승효 ; 김은희 ; 이선희 ; 마병철, "Comparative analysis of IEC standard and simulation results for hydrogen hazardous distance" 28 (28): 19-26, 2024
8 강병우 ; 김태현 ; 이택홍, "Analysis of Costs for a Hydrogen Refueling Station in Korea" 27 (27): 256-263, 2016
9 전민재 ; 장대진 ; 이민철, "A study on the risk assessment and improvement methods based on hydrogen explosion accidents of a power plant and water electrolysis system" 35 (35): 66-74, 2024
1 V. Molkov, "The blast wave decay correlation for hydrogen tank rupture in a tunnel fire" 45 (45): 31289-31302, 2020
2 양윤영 ; 조재근 ; 박우일 ; 나현빈, "TNT explosion demonstration and computational fluid dynamics for safety verification of protection wall in hydrogen refueling station" 27 (27): 102-109, 2023
3 A. Kumamoto, "Measurement of minimum ignition energy in hydrogen-oxygen-nitrogen premixed gas by spark discharge" 301 : 012039-, 2011
4 SNe Research, "In Q1 2024, global FCEV market with a 36.4% YoY degrowth"
5 H. Lee, "Experimental study on the open field explosion test method for TNT equivalent of hydrogen" 79-, 2024
6 신진원, "Damage evaluation of adjacent structures for detonation of hydrogen storage facilities" 16 (16): 61-70, 2023
7 안승효 ; 김은희 ; 이선희 ; 마병철, "Comparative analysis of IEC standard and simulation results for hydrogen hazardous distance" 28 (28): 19-26, 2024
8 강병우 ; 김태현 ; 이택홍, "Analysis of Costs for a Hydrogen Refueling Station in Korea" 27 (27): 256-263, 2016
9 전민재 ; 장대진 ; 이민철, "A study on the risk assessment and improvement methods based on hydrogen explosion accidents of a power plant and water electrolysis system" 35 (35): 66-74, 2024
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