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Korea Society for Naval Science and Technology - Vol. 6 , No. 3
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Journal of the KNST - Vol. 6, No. 3, pp. 227-234
Abbreviation: KNST
ISSN: 2635-4926 (Print)
Print publication date 30 Sep 2023
Received 24 Jul 2023 Revised 08 Aug 2023 Accepted 04 Sep 2023
DOI: https://doi.org/10.31818/JKNST.2023.09.6.3.227

사고분석기법 STAMP를 이용한 반응기 폭발사고 원인 분석에 관한 연구
김상중1 ; 이준원2, * ; 김병직2 ; 박교식2 ; 박창용1 ; 강충상1
1숭실대학교대학원 안전보건융합공학과 박사과정
2숭실대학교대학원 안전보건융합공학과 교수

A Study on the Cause Analysis of Reactor Explosion Using STAMP, a Systematic Cause of Accident Analysis Technique
Sang Jung Kim1 ; Joon-Won Lee2, * ; Byungjick Kim2 ; Kyoshik Park2 ; Chang-Yong Park1 ; Chung Sang Kang1
1Ph.D. candidate, Dept. of Safety & Health Convergence Engineering, Soongsil University
2Professor, Dept. of Safety & Health Convergence Engineering, Soongsil University
Correspondence to : *Joon-Won Lee Tel: +82-2-828-7013 E-mail: joonwonlee@ssu.ac.kr


© 2023 Korea Society for Naval Science & Technology
초록

화학공장은 공정 간의 연관성이 높고 각종 기술이 집약된 장치산업이기 때문에 유사 사고를 방지하기 위해서는 사고 원인을 분석할 때 직접적인 원인을 찾아 제거하는 순차적인 접근방법과 기술, 문화, 조직, 사회 등과 관련된 통합적인 시스템적 관점의 접근 필요성이 커지고 있다. 본 연구에서는 반응기에서 용접작업 중 발생한 폭발사고사례를 시스템적 사고분석기법(STAMP)을 이용하여 사고의 일차적인 원인과 조직 및 운영상의 문제점을 분석해보고자 한다.

Abstract

Since chemical plants are highly related to processes and are a device industry where various technologies are concentrated, there is a growing need for a sequential approach to finding and removing direct causes when analyzing the cause of accidents and an integrated systematic perspective related to technology, culture, organization, and society. In this study, we would like to analyze the primary cause of the accident and organizational and operational problems using STAMP (Systematic Accident Analysis Technique) for explosion accidents that occurred during welding work in the reactor.

Keywords: Chemical Plants, Series Industrial Accident, Systematic Accident Analysis, Risk Assessment, Accident Prevention
키워드: 화학 공장, 중대산업사고, 시스템적 사고분석, 위험성평가, 사고 예방
References
1. C. C. Koo and J. W. Choi, “A Study for Fire and Explosion Prevention of Internal Floating Roof Tank,” Fire Science and Engineering, Vol. 33, No. 1, pp. 1-5, (2019).
2. N. Leveson, “A New Accident Model for Engineering Safe Systems,” Safety Science, Vol. 42, No. 4, pp. 237-270, (2004).
3. D. H. Ka, “The Application of Functional Resonance Analysis Method for Analysis of Complex System Accidents,” Master’s degree thesis, Korea Advanced Institute of Science and Technology, pp. 1-16, (2017).
4. S. J. Lee, H. G. Lee, D. I. Shin, “ Analysis of the Effectiveness and Feasibility of Accident Analysis Police for Construction Safety from the Perspective of System Safety,” Journal of the Society of Disaster Information, Vol. 19, No. 1, pp. 146-160, (2023).
5. J. Y. Yang, “A Review of Resilience Engineering,” Safety and Health Report (KOSHA), Vol. 13, No. 1, pp. 14-23, (2019).
6. J. Y. Yang, J. C. Ko, S. J. Lee, J. S. Im and Y. N. Kim, “A Study for the Transition of the Industria Safety Paradigm,” Korea Occupational Safety and Health Agency, Occupational Safety and Health Research Institute (2019).
7. N. G. Leveson, “CAST HANDBOOK: How to Learn from Incidents and Accidents,” Massachusetts of Technology (2019).
8. C. C. Koo, D. H. Seo and P.h. Lee, “Analysis of Explosion Accidents in a Chemical Plant Using STAMP, a Systematic Cause-and-effect Analysis Technique,” Fire Science and Engineering, Vol. 35, No. 5, pp. 17-23, (2021).
9. EUROCONTROL, “A White Paper Resilience Engineering for ATM,” (2009).
10. Wienen et al. “Accident Anaysis Methods and Models – a Systematic Literature Review,” (2017).
 
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