대한안전경영과학회지 (Journal of the Korea Safety Management & Science)

  • 제25권4호
  • /
  • Pages.67-72
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  • 2023
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  • 1229-6783(pISSN)
  • /
  • 2288-1484(eISSN)
대한안전경영과학회 (Korea Safety Management & Science)
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공동주택 및 오피스텔 지하층에 대한 피난 안전성 평가

Evacuation Safety Evaluation for Apartment Complexes and Officetel under Floors

  • 강현권 (상지대학교 스마트시티공학) ;
  • 전용한 (상지대학교 소방공학과)
  • Hyeon-gwon Kang (Department of Fire Protection Engineering, Sangji University) ;
  • Yong-Han Jeon (Department of Fire Protection Engineering, Sangji University)
  • 투고 : 2023.11.10
  • 심사 : 2023.12.12
  • 발행 : 2023.12.30
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초록

Human and material damage can be reduced if the risk is evaluated by engineering analysis of fire combustion products, smoke concentration, and smoke movement speed in the event of a fire in apartment houses and officetels. In this study, a lot of research on related safety evaluation in the basement needs to be studied and reflected in design, so experimental research was conducted to analyze the flow of smoke through computer simulation and provide analysis data through evacuation safety evaluation. First of all, the five-story underground parking lot subject to simulation has a large floor area, which is advantageous for improving evacuation safety performance, but it uses temperature detectors to increase detection time and fire spread speed. Second, it was analyzed that the evacuation time at all evacuation ports did not exceed the evacuation time, and as the time from the start of evacuation to the evacuation time was 216.9% compared to the travel time, it was evaluated that the safety performance of the evacuation was secured. Third, the above simulation results are a comprehensive safety evaluation based on the non-operation of fire extinguishing facilities in the fire room to increase safety, which means that smoother evacuation safety performance can be secured by linking fire extinguishing facilities.

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참고문헌

  1. P. J. DiNenno(2008), The SFPE handbook of fire protection engineering (4th ed). National Fire Protection Association, USA.
  2. K. B. McGrattan(2010), Fire dynamics simulator version 5 user's guide. National Institute of Standards and Technology, USA.
  3. J. O. Yoo(2015), "A study on evacuation characteristic by cross-sectional areas and smoke control velocity at railway tunnel fire." Journal of Korean Tunnel Underground Space Association, 17(3):215-226.
  4. S. L. Poon(2014), "A dynamic approach to ASET/RSET assessment in performance based design." Procedia Engineering, 71(1):173-181.
  5. P. Abolghasemzadeh(2013), "A comprehensive method for environmentally sensitive and behavioral microscopic egress analysis in case of fire in buildings." Safety Science, 59(1):1-9.
  6. J. S. Roh, H. S. Ryou(2009), "CFD simulation and assessment of life safety in a subway train fire." Tunnelling and Underground Space Technology, 24(4):447-453.
  7. E. Ronchi, P. Colonna(2012), "The evaluation of different evacuation models for assessing road tunnel safety analysis." Tunnelling and Underground Space Technology, 30(1):74-84.
  8. L. Qu, W. K. Chow(2013), "Common practices in fire hazard assessment for underground transport stations." Tunnelling and Underground Space Technology, 38(1):377-384.
  9. S. C. Lee(2011), "Numerical study and model experiment on the fire safety assessment of a high-rise building." Crisisonomy, 7(4):177-186.
  10. H. K. Kim, et al.(2022), "A numerical analysis study on the influence of the fire protection system on evacuation safety in apartment houses." Journal of the Society of Disaster Information, 18(1):38-50.
  11. S. H. Min, et al.(2011), "A study on the analysis of fire risk by fire and the improvement of evacuation equipment for apartment (About existing 16 or fewer storey apartment)." Fire Science and Engineering, 25(6):127-135.