한국화재소방학회논문지 (Fire Science and Engineering)

  • 제28권4호
  • /
  • Pages.50-56
  • /
  • 2014
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  • 2765-060X(pISSN)
  • /
  • 2765-088X(eISSN)
한국화재소방학회 (Korean Institute of Fire Science and Engineering)
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국내 성능설계에서 선정된 설계화재의 적정성 연구

A Study on the Appropriateness of Design Fire Size Determining for Performance Based Design in Korea

  • 투고 : 2014.06.30
  • 심사 : 2014.08.14
  • 발행 : 2014.08.31
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초록

성능설계 시험 안을 작성하기 위해서는 건축물에 발생할 수 있는 화재의 크기를 정량화하는 단계가 선행되어야 한다. 이러한 설계화재의 크기가 적합하게 선정되었을 때 화재로부터 안전하면서도 경제적인 설계가 가능하다. 우리나라는 성능설계의 역사가 짧고 공학적 자료가 축적되어 있지 않아 화재의 크기를 선정하는 데에 많은 문제점을 드러내고 있다. 이에, 해외의 설계화재 가이드라인과 국내의 실 화재 실험 자료를 조사하였다. 그리고 국내의 설계화재 선정 사례를 조사하여 그 적정성을 분석하고 건축물의 용도별로 설계화재의 가이드라인을 제안하였다.

The quantification of fire size in buildings must be preceded in order to design the trial of performance based design (PBD). When design fire size is determined appropriately, the trial design will become economical and safe design against fire risk. There are many problems in determining design fire size because of lacks of fire engineering data and short history of PBD in korea. Therefore, this paper has surveyed the guideline of design fire in other countries, real experimental data for a few occupancies and the cases of design fire size determining for PBD in Korea. Also, it has proposed the guideline of design fire size for various occupancies in korea after analyzing the appropriateness of design fire size.

키워드

참고문헌

  1. D. E. Kim, D. G. Seo and Y. J. Kwon, "A Study on PBD case of Evacuation in Japan for PBD Approach of Korea", Proceedings of 2008 Spring Annual Conference, Korean Institute of Fire Science & Engineering, pp. 322-327 (2008).
  2. NFPA 72, "National Fire Alarm and Signaling Code", 2010 Edition, National Fire Protection Association, Quincy, MA, p. 267, 273 (2010).
  3. ISO TR 13387-2. "Fire Safety engineering. Part 2. Design fire scenarios and design fires", ISO/TR 13387-2:1999, p. 12 (1999).
  4. ICC, "International Building Code. Sec. 909.9", Falls Church, VA: International Code Council (2003).
  5. ICBO, "Uniform Building Code. Sec. 905.6.1", Whittier, CA: International Conference of Building Officials, (1997).
  6. NFPA 92B, "Standard for Smoke Management Systems in Malls, Atria, and Large Spaces", 2005 Edition, National Fire Protection Association, Quincy, MA, p. 20 (2005).
  7. Leif Staffansson, "Selecting design fires", Department of Fire Safety Engineering and Systems Safety Lund University (Sweden), p. 34, 39 (2010).
  8. Y. H. Yoo, "Development of Fire Spread Prevention and Escape Safety Design Technique According to Standard Fire Model", Korea Institute of Civil Engineering and Building Technology, pp. 12-64, p. 309 (2009).
  9. S. C. Kim, "Validation and Reliability Analysis of Guideline of Performance Based Fire Protection Design of a Super Tall Building", National Emergency Management Agency, pp. 303-310 (2014).
  10. British Standards Institution, PD 7974-1:2003, "Application of fire safety engineering principles to the design of buildings - Part 1: Initiation and development of fire within the enclosure of origin", London: British Standards Institution, p. 26 (2003).
  11. European Standard, "Eurocode 1: Actions on structures - Part 1-2: General actions - Actions on structures exposed to fires", EN 1991-1-2, p. 51 (2002).
  12. Hadjisophocleous, George V, and Noureddine Benichou, "Fire Safety Design Guidelines for Federal Buildings", pp. 96-97 (1997).
  13. The Building Center of Japan, "The Total Design Method of Fire Protection in Building v3. The Design Method of Safety Escape", pp. 55-56 (1989).
  14. J. Klote and J. Milke, "Principles of Smoke Management", The American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE), Inc., pp. 11-26 (2002).
  15. Society of Fire Protection Engineers, "SFPE handbook of fire protection engineering", 3th edition, National Fire Protection Association, Quincy, MA, pp. 3-10-3-33 (2010).
  16. Seoul national university and Samsung C&T Corporation, "Performance-Based Design for Fire Safety", Hammurabi Publishing Group, pp. 115-139 (2006).
  17. D. Madrzykowski, "Office Work Station Heat Release Rate Study: Full Scale vs Bench Scale", Interflam 96, Proceedings of 7th International Interflam Conference, 26-28 March 1996, Cambridge, England, pp. 47-55 (1996).