基于计算机建模与仿真的公共建筑人员疏散过程研究

Yuanchun Ding, Lizhong Yang
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引用次数: 9

摘要

本文研究了紧急情况下公共建筑中人员疏散过程的建模与仿真问题。首先,Pathfinder分别构建了六层楼的两种楼梯的建筑模型。在此模型的基础上,每层分别取2人、10人、20人、30人、50人和100人进行模拟。结果表明:当每层楼的人员数量大于一定限制时,疏散时间与人员数量几乎是单调递增的线性函数,分岔式楼梯比双层楼梯更能有效地疏散人员。其次,考虑楼梯上存在障碍物的另一种情况,结果也表明,当楼梯上存在障碍物时,疏散时间是乘员人数的单调递增函数,双层楼梯的抗障碍物性能优于分岔式楼梯。
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Occupant evacuation process study of public buildings based on computer modeling and simulation
This article is concerned with the problem of modeling and simulation of occupant evacuation process in public buildings under emergent conditions. First, the six floors' building models with two types of staircases respectively are constructed by Pathfinder. Based on this obtained model, 2, 10, 20, 30, 50, and 100 occupants respectively on each floor are adopted to do the simulation. RESULTS show evacuation time almost is a monotonically increasing linear function to the number of occupants when the number of occupants on each floor is more than a limitation, and staircase of bifurcated type can evacuate the occupants more effectively than double-flight staircase. Second, another situation, which includes some obstacle on the stair, is considered, and the results also show evacuation time is a monotonically increasing function to the number of occupants when there is an obstacle on the stair, and the anti-obstacle performance of the double-flight staircase is better than that of the staircase of bifurcated type.
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