摘要
火气系统是防控气体泄漏灾害的重要安全屏障。可燃气体泄漏后与空气混合形成可燃气云,其爆炸属于体积爆炸,具有复杂性和多变性,因此将其折算为等价气云并提出阈值尺寸计算方法,是实现火气系统探测器网络量化布设的关键输入指标。选取控制室为受体,以载荷作为爆炸冲击波超压的临界值,运用多能法倒序计算,逆推得到对应的等价气云尺寸作为探测阈值,进而利用等价气云方法与高斯扩散模型得到火气系统探测临界时间。通过某LNG罐区案例分析,定量确定了该罐区可承载的气云尺寸最大值及扩散临界时间。数值计算表明,等价气云尺寸阈值不仅可以作为火气系统探测设计的量化输入指标依据,并可对探测时间设置以及气体泄漏及爆炸的防控措施提供理论支持。
Fire alarm and gas detector system(FGS) is the important safety barrier to prevent gas leakage. Combustible gas leaks and forms combustible gas cloud mixing with air, and its explosion belongs to volume explosion. The gas cloud has complexity and variability subject to a variety of factors, so it is converted into equivalent gas cloud and the threshold size calculation method is proposed. The threshold is key input index to realize the quantitative layout of detector network of FGS. The control room is selected as a receptor for analysis. Based on the critical value of shock wave overpressure which takes load of control room, the corresponding equivalent gas cloud size is calculated as the detecting threshold of combustible gas cloud by using multi-energy method in reverse order. Then the critical detecting time of the FGS is calculated by using equivalent air cloud computing method and Gaussian diffusion model. Through one LNG tank industry case analysis, the maximum cloud size which can be carried by the industry and the critical time of diffusion can be quantitatively determined. The numerical calculation shows that the equivalent gas cloud size threshold can not only be used as the quantitative input indicators for detector design of FGS, but also provide theoretical support for the detection time setting and the prevention and control measures of gas leakage and explosion.
出处
《化工学报》
EI
CAS
CSCD
北大核心
2017年第12期4857-4864,共8页
CIESC Journal
基金
国家重大科技专项子课题项目(D719-ZGSY-555)
中央高校基本科研业务费专项资金项目(17CX06004)~~
关键词
气云
爆炸
火气系统
爆炸载荷
等价气云尺寸
阈值
安全
模拟
gas cloud
explosion
fire alarm and gas detector system
explosive load
equivalent gas cloud size
threshold size
safety
simulation
