摘要
高原环境下高灵敏度吸气式火灾探测器采样管道内部流动特征直接决定了该火灾探测器的有效探测面积。分析了高灵敏度吸气式火灾探测器采样管道在单采样孔条件下内部流动特征;从理论上推导出在高原环境下和常压下这种采样管道在单采样孔条件下管道内部流动速度和采样孔流动速度的关系式,给出了管道内部流动速度相同的情况下高原环境下采样管道折损长度,为设计在高原环境下高灵敏度吸气式火灾探测器以及采样管道提供了依据。
Researching flow in aspirating lines in altiplano environment can offer gist of designing air aspirating lines of HSASD (High Sensitivity Aspirating Smoke Detector) at tableland. Velocity equation of air aspirating line and velocity equation of aspirating aperture could be derived from continuity equation and dynamics equation. Average velocity of air aspirating line and average velocity of aspirating aperture could be concluded when air aspirating line had only single aspirating aperture. Contrasting average velocity of air aspirating line and aspirating aperture at high altitude and normal atmosphere pressure concluded difference of them and main factors that affected flow of air aspirating lines at high altitude. Flow velocity of air aspirating lines and aspirating aperture is mainly affected by viscosity coefficient, negative pressure at aspirating pump inlet. Equal flow velocity of air aspirating lines and aspirating aperture can be got through shortening aspirating lines length. Equation 4.14 gives a compute method of shortening aspirating lines length in altiplano environment.
出处
《中国工程科学》
2007年第4期89-93,共5页
Strategic Study of CAE
基金
国家科技支撑计划资助项目
关键词
高原环境
吸气式
管道流动
火灾探测
altiplano environment
air aspirating
pipe flow
fire detection
作者简介
刘勇(1979-),男,陕西子洲县人,中国科学技术大学火灾科学国家重点实验室研究生
