DOI QR코드

DOI QR Code

옥외저장소 화재 시 인접 저장소 화재 영향에 대한 연구

A Study on the Fire Impact of Adjacent Storage at Outdoor Storage Fire

  • 김은지 (제주대학교 에너지응용시스템공학부 기계공학 전공) ;
  • 박성식 (탄소중립기술원) ;
  • 전용한 (상지대학교 소방공학과)
  • Eun-Ji Kim (Department of Faculty of Applied Energy System Mechanical Engineering, Jeju National University) ;
  • Sung-Seek Park (Carbon Zero Technology Institute) ;
  • Yong-Han Jeon (Department of Fire Protection Engineering, Sangi University)
  • 투고 : 2024.08.29
  • 심사 : 2024.09.22
  • 발행 : 2024.09.30

초록

Outdoor storage fires have a significant impact on the surrounding environment, including adjacent storage facilities and buildings. Therefore, it is essential to review and manage the fire impact to minimize damage to human life and property on the outdoor storage fires. In this study, the heat release rate and radiant heat flux were simulated according to the fire time, wind veolcity, and presence or absence of water spray equipment in an outdoor storage facility fire, and the fire impact was analyzed. The outdoor storage was designed to simulate two scenarios on the outdoor storage fires containing gasoline, and FDS was used for fire simulation. As a results, when the water spray facility was not operating and the wind velocity was 5 m/s, the maximum radiant heat flux was 24.80 kW/m2, which exceeded the limit radiant heat flux of 20 kW/m2. When the water spray facility was operating and the wind veolcity was 10 m/s, the maximum radiant heat flux was 18.77 kW/m2, which did not exceed the limit radiant heat flux, indicating that the fire impact on adjacent storage facilities was relatively small.

키워드

참고문헌

  1. M. W. Hwang, et al.(2016), "Impact Assessment of the Damage by a Pool Fire in Yard Storage Facilities." Korean Society of Disaster & Security, 9(2):33-42. doi:10.21729/ksds.2016.9.2.33
  2. S. H. Min, et al.(2018), "A Study on Performance Improvement of Fire Prediction Program through Fire Influencing Factor." The Korean Society of Disaster Information, pp.37-38.
  3. S. N. Espinosa, et al.(2019), "Thermal effects of fire on a nearby fuel storage tank." Journal of Loss Prevention in the Process Industries, 62:103990. doi:10.1016/j.jlp.2019.103990
  4. J. D. Lee, et al.(2020), "Study on the Evaluation of Radiant Heat Effects of Oil Storage Tank Fires Due to Environmental Conditions." Fire Science and Engineering, 34(1):72-78. doi:10.7731/KIFSE.2020.34.1.072
  5. M. Ghodrat, et al.(2021), "Existing Improvements in Simulation of Fire-Wind Interaction and Its Effects on Structures." Fire, 4:27. doi:10.3390/fire4020027
  6. M. H. Safi'i, et al.(2023), "Fire Impact Modelling on Human Due to Leakage of Storage Tank at LNG Terminal Using Fire Dynamics Simulator." Earth and Environmental Science, doi:10.1088/1755-1315/1198/1/012015
  7. W. S. Han, et al.(2017), A Study on Fire Explosion Impact and Accident Analysis Model. Occupational Safety and Health Research Institute Korea Occupational Safety and Health Agency.
  8. Korean Fire Protection Association(2007), "Burnsfield oil storage." A Collection of Fire Cases, 11:94-105.
  9. J. D. Lee(2020), A Case Analysis and Experimental Study for Optimization of Flame Spread Prevention Design in Oil Storage Facilities.
  10. The Third Largest Refinery Fire in the United States...an Evacuation Order for Nearby Residents. https://www.yna.co.kr/view/AKR20230826005000071
  11. Explosion of Gas Tank in Rayong, Southeastern Thailand...At Least One Person Was Killed and Three Injured. https://www.yna.co.kr/view/AKR20240509170700076
  12. Ulsan Petrochemical Company's Outdoor Tank Fire...No casualties. https://www.newsis.com/view/NISX20220802_0001964359
  13. Oil tank fire at Yeosu Industrial Complex oil storage facility...Two people burn. https://news.kbs.co.kr/news/pc/view/view.do?ncd=7621585
  14. NFPA(2015), NFPA 92 Standard for Smoke Control Systems.
  15. SFPE(2016), SFPE Handbook of Fire Protection Engineering.
  16. NRC(2007), Verification and Validation of Selected FireModels for Nuclear Power Plant Applications: NUREG-1824).