Fire hazard analysis is the basis and the key point of the quality analysis of the performance-based fire protection design.
危险源辨识是性能化防火设计中所有量化分析的基础,也是性能化防火设计的重要环节。
Accident tree analysis is applied to risk analysis and a mathematical model is established, including fire model, effective release rate model, heat intensity threshold and hazard area equation.
采用事件树分析法进行风险分析并建立了数学模型,包括火灾模型、有效释放率模型、热强度极限值、危险区域等式四部分。
Through analysis of the hazard of ammonia, the fire precautions of stock and transport of ammonia and the treatment countermeasures of the leak are brought forward.
通过分析氨的危险特性,提出了在储存运输过程中的防火措施,以及泄漏的处置对策。
Toxic hazards evaluation is conducted to evaluate the possibility of toxic hazard for human body, according to data acquired from toxicological analysis, fire testing analysis and chemical analysis.
中毒危险评估是以毒物学、燃烧试验、化学分析等方法所获得的数据资料为依据,评估电工电子产品燃烧时使人体产生中毒危险的可能性。
Toxic hazards evaluation is conducted to evaluate the possibility of toxic hazard for human body, according to data acquired from toxicological analysis, fire testing analysis and chemical analysis.
中毒危险评估是以毒物学、燃烧试验、化学分析等方法所获得的数据资料为依据,评估电工电子产品燃烧时使人体产生中毒危险的可能性。
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