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Fire Sci. Eng. > Volume 27(3); 2013 > Article
Journal of Korean Institute of Fire Science and Engineering 2013;27(3):52-59.
DOI: https://doi.org/10.7731/KIFSE.2013.27.3.052    Published online June 30, 2013.
화재현장에서 사용하는 소방호스의 마찰손실 감소 방안에 관한 연구
민세홍, 권용준
1가천대학교 공과대학 소방방재공학과
2가천대학교 산업환경대학원 소방방재공학과
A Study on the Friction Loss Reduction in Fire Hoses Used at a Fire Scene
Min Se-Hong, Kwon Yong-Joon
1Dept. of Fire & Disaster Protection Engineering, Gachon Univ.
2Dept. of Fire & Disaster Protection Engineering, Graduate School Industry & Environment, Gachon Univ.
요약
본 연구에서는 화재현장에서 사용하는 소방호스에 대하여 사용압력과 방수량 변화에 따른 마찰손실을 실측하였다. 소방호스의 종류, 수량, 사용압력 등 소방호스의 사용 실태를 분석하여 그 결과를 토대로 실측한 결과 화재현장에서 소방공무원이 사용하는 조건에서 소방호스의 마찰손실은 무려 56.8%까지 측정되었다. 옥내 외 소화전설비에서 펌프양정 계산시 사용하는 소방호스의 등가 길이와도 많은 차이가 난다. 관련규정조차 마찰손실에 대한 제한 규정이 없고, 소방호스를 생산하는 업체에서도 마찰손실을 측정한 자료가 없으며, 화재현장에서는 마찰손실을 고려하지 않고 소방호스를 전개함으로써 호스의 사용량이 많아지고 소방펌프차에서 고압으로 방수하게 되는 원인이 되므로 본 연구를 통하여 소방호스 마찰손실에 대한 등가길이 기준을 정립하고 화재현장에서 소방호스의 마찰손실을 고려한 전개 방법을 제안하고자 한다.
Abstract
It was described the measured friction loss depending on pressure used and changes in water flow rates for a fire hose used at a fire scene on this study. As a result of actual measurement based on the result obtained by analyzing the use situation of a fire hose such as the kind, quantity, pressure used, etc. of a fire hose, the friction loss in a fire hose under the condition of using by a fire officer at a fire scene was measured as up to 56.8 %. This is much different from the equivalent length of a fire hose used to calculate the pump head in an indoor and outdoor fire-fighting facility. There is no related restrictive regulation on friction loss, there are even no data on friction loss measured by fire hose makers, and spreading a fire hose without considering friction loss at a fire scene can result in an increased length of hose used and a high-pressure water discharge from a fire engine, so this study aims to establish a standard for an equivalent length to friction loss in a fire hose and to propose a spreading method considering friction loss in a fire hose at a fire scene.
Key Words: Fire engine pump, Fire hose, Friction loss, Fire fighting, Y-coupling
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