Experimental and numerical studies on smoke movement and control in subway stations are presented.
介绍了地铁站内烟气流动和控制的试验和数值研究。
Studies on smoke movement and control in underground commercial construction have become a hot topic in the field of fire research.
地下商业建筑烟气控制研究是当今消防领域的热门课题。
The method, which the CFD numerical results of solid particles in mine fire were utilized to control the movement of flame and smoke in Virtual Environment, was put forward.
通过将离散相模型引入到矿井火灾数值模拟过程,提出了利用火烟中固体粒子的CFD数值模拟结果控制虚拟世界中火烟运动的方法。
Therefore, it is very important to study smoke movement and its control in the stairwell and elevator shaft. Smoke movement is very complex in the stairwell and elevator shaft.
因此,研究楼梯间及电梯井中烟气运动规律及其控制具有重要的实际意义。
Therefore, it is very important to study smoke movement and its control in the stairwell and elevator shaft.
因此,研究楼梯间及电梯井中烟气运动规律及其控制具有重要的实际意义。
To effectively control the fire-induced smoke. it is necessary to get acquainted with the smoke movement and entrainment characteristics along the subway station.
要有效地控制火灾产生的烟气,就必须了解烟气在地铁站内的蔓延规律和沿程质量卷吸特性。
The fire movement, smoke spread and control, method of fire compartmentation, usage of finishing materials as well as safe evacuation of people have been discussed and analyzed.
针对相连接部位开口处的防火分隔失效时人员能否安全疏散进行评估,研讨人员安全疏散评估过程中所采用的定性分析和定量分析方法。
The fire movement, smoke spread and control, method of fire compartmentation, usage of finishing materials as well as safe evacuation of people have been discussed and analyzed.
针对相连接部位开口处的防火分隔失效时人员能否安全疏散进行评估,研讨人员安全疏散评估过程中所采用的定性分析和定量分析方法。
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