Simulation of Fire Smoke Diffusion and Personnel Evacuation in Large-Scale Complex Medical Buildings

被引:0
作者
Wang, Jian [1 ]
Chen, Geng [1 ]
Chen, Yuyan [1 ]
Zhu, Mingzhan [1 ]
Zheng, Jingyuan [1 ]
Luo, Na [1 ]
机构
[1] Wuhan Univ Sci & Technol, Sch Urban Construct, Wuhan 430065, Peoples R China
关键词
complex medical buildings; fire risk assessment; multi-path collaborative strategy; three-dimensional rescue facilities; evacuation simulation; ALGORITHMS;
D O I
10.3390/buildings15081329
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
To address the significant problems of high fire risk and low evacuation efficiency in large and complex medical buildings, this study uses Ezhou Hospital as the empirical object to construct a multi-dimensional threat and risk assessment and fire evacuation dynamic coupling model and proposes a systematic optimization scheme to improve personnel evacuation safety. This study proposes an innovative full-chain analysis framework of "threat and risk assessment-dynamic coupling-multi-strategy optimization". The specific methods employed include the following: (1) Using the probabilistic threat and risk assessment (PRA) method and the risk index (RII) method to identify the most unfavorable scenarios where the fire source is located in the outpatient hall (risk value C2 = 9.86). (2) Combining PyroSim and Pathfinder to construct a dynamic coupling model of fire smoke diffusion and personnel evacuation. Multiple groups, such as patients with mobility problems and rescue personnel, are added to address the limitations of traditional single-factor simulations. (3) Considering the failure of fire shutters, a two-stage optimization strategy is proposed for when the number of personnel is at its peak: the evacuation time is shortened by 23% by using internal intelligent guidance to shunt the congestion node crowd, and the addition of external fire ladders forms a multi-channel coordinated evacuation that further reduces the total evacuation time from 1780 s to 1266 s and improves the efficiency by 29%. The results show that the coupled multi-path coordination strategy and three-dimensional rescue facilities can significantly reduce the bottleneck associated with a single channel. This study provides a multi-dimensional dynamic evaluation framework and comprehensive optimization paradigm for the design of the evacuation of high-rise medical buildings and has important theoretical and technical reference values for improving the fire safety performance of public buildings and the intelligence of emergency management.
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页数:26
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