Fire Science and Engineering (한국화재소방학회논문지)

Korean Institute of Fire Science and Engineering (한국화재소방학회)
권호 표지
DOI QR코드

DOI QR Code

A Study on Improvement of Discharge Pressure Measurement of Indoor Fire Hydrant System

옥내소화전설비의 방수압 측정 개선에 관한 연구

  • Min, Se-Hong (Dept. of Fire & Disaster Protection Engineering, Gachon Univ.) ;
  • Jeong, Sang-Ho (Dept. of Fire & Disaster Protection Engineering, Graduate School Environment & Design, Gachon Univ.)
  • 민세홍 (가천대학교 공과대학 소방방재공학과) ;
  • 정상호 (가천대학교 환경.디자인대학원 소방방재공학과)
  • Received : 2012.03.26
  • Accepted : 2012.06.08
  • Published : 2012.06.30
Download PDF
⟨ Previous Next ⟩

Abstract

Indoor fire hydrant facilities and sprinkler system applied to the initial fire suppression for buildings' interior fire are pivotal roles in extinguishing the fire in the early stage. The roof shapes of recent buildings combined with distinctive local culture and design are being constructed. Distinctive roof forms, i.e. gable roof buildings are planned and built, View point planning with the roof gardens also restricts measurement of the discharge pressure on the indoor fire hydrant, It is too narrow to gauge the water discharge pressure with deploying up to 5 water hoses. To resolve these problems improvement for the efficient management of indoor fire hydrant system and the effective early stage flame extinguishment is suggested.

건축물 실내에서의 화재발생 시 초기 소화설비로 적용하고 있는 옥내소화전설비와 스프링클러설비는 초기화재 진압용으로 큰 역할을 담당하고 있다. 최근 건축물의 지붕형태는 차별화된 지역문화와 디자인이 접목된 다양한 형태의 건축물이 건립되고 있다. 차별화된 지붕형태, 즉 일부 건축물의 지붕형태가 경사(박공)형태로 계획 건립되고, 또한 공중정원을 활용한 조망계획을 하다 보니 옥내소화전설비의 방수압력을 측정하는데 있어 옥상공간은 제한적이고, 너무 협소하여 옥내소화전 소방호스를 전개(최대 5개)하여 방수압력 측정하는데 있어 문제점이 도출되고 있다. 이러한 문제점을 보완하여 옥내소화전설비의 효율적인 관리와 화재 시 초동조치가 가능하도록 개선방안을 연구하고자 한다.

Keywords

References

  1. National Emergency Management Agency, "National Fire Date System e-fire Statistics", http://nfds.go.kr/index.jsf.
  2. S. H. Min, "NFSC Fire Design Engineering", Munundang (2008).
  3. S. H. Min, C. H. Lee, Y. S. Kim, Y. R. Kim, J. O. Moon, S. C. Woo, M. H. Baek, S. H. Yoon, et al., "Fire Protection Theory", DongHwa Technology (2008).
  4. S. H. Min, M. S. Huh, T. H. Noh, K. T. Kim, S. W. Shin, E. S. Bae, H. Jung, Y. H. Park, et al., "New Fire Protection Theory", DongHwa Technology (2012).
  5. Y. R. Kim, D. M. Kim, S. J. Kim, Y. J. Kang, Y. H. Park and S. C. Lee, "Fire Machine Facilities", Donghwa Technology (2011).
  6. K. C. Choi and S. Jeong, "A Study on the Status of Waterpro of Pressure of Indoor Hydrant Proportioner by a Survey", Proceedings of 2008 Spring Annual Conference, Korean Institute of Fire Science & Engineering, pp. 104-107 (2008).
  7. National Emergency Management Agency, "National Fire Safety Code (NFSC 102)" (2012).

Cited by

  1. An Empirical Study on the Relay Pumping Method for the High Pressure of Fire Engine Pump vol.27, pp.1, 2013, https://doi.org/10.7731/KIFSE.2013.27.1.052
  2. A Study on the Friction Loss Reduction in Fire Hoses Used at a Fire Scene vol.27, pp.3, 2013, https://doi.org/10.7731/KIFSE.2013.27.3.052
  3. A Study on the Evaluation of Simulation and Performance Test for the Development of High Pressure Hose vol.18, pp.4, 2018, https://doi.org/10.9798/KOSHAM.2018.18.4.195