上海市公共建筑和基础设施数字化运维重点实验室,上海 200240
收稿日期:
2020-08-07出版日期:
2021-11-28发布日期:
2021-12-03通讯作者:
赵金城E-mail:jczhao@sjtu.edu.cn作者简介:
华 莹(1994-),女,江苏省扬州市人,博士生,从事土木工程结构安全研究.基金资助:
国家重点研发计划(2017YFC0805500)Risk-Based Evacuation Model for Steel Platform Formwork in Skyscraper Construction and Its Application
HUA Ying, HE Jun, ZHAO Jincheng(), ZOU Jiexin, ZHANG Jingjing, RUAN ShipengShanghai Key Laboratory for Digital Maintenance of Buildings and Infrastructure, Shanghai Jiao Tong University, Shanghai 200240, China
Received:
2020-08-07Online:
2021-11-28Published:
2021-12-03Contact:
ZHAO Jincheng E-mail:jczhao@sjtu.edu.cn摘要/Abstract
摘要: 整体钢平台模架体系在超高层建筑施工过程中应用广泛,复杂的施工环境为施工人员带来了高度的风险,有必要建立基于风险随机性的超高层建筑施工钢平台人员疏散模型.首先,考虑危险源在钢平台的空间分布划分危险区域,通过风险调研问卷收集专家数据从而建立风险联合概率评估模型;然后,基于元胞自动机地面场模型将风险评估与人员疏散结合,对钢平台施工人员的疏散过程进行仿真;最后,将该模型应用于某实际超高层建筑施工项目中.结果表明:钢平台顶层及下层危险区域对施工人员疏散的影响程度受出口大小的影响显著.模型为经验导向的施工现场安全预警和人员管控提供了新范式,对整体钢平台模架体系的安全运维具有重要的理论和应用价值.
关键词: 超高层建筑施工, 整体钢平台体系, 危险区域, 风险随机概率, 人员疏散
Abstract: Integral steel platform formwork is widely used in the construction of super high-rise buildings, which brings a high degree of risk uncertainty to construction personnel. Therefore, it is crucial and necessary to establish a risk-based evacuation model for steel platform formwork in skyscraper construction. First, the spatial distribution of hazards sources on the steel platform is considered, hazardous areas are defined, and expert data are collected through survey questionnaires to assess the joint risk probability. Next, the joint risk probability of hazardous areas is coupled into the evacuation process based on the cellular automaton floor field model, and the evacuation process of construction personnel on the steel platform is simulated. Finally, the proposed risk-based evacuation simulation model is applied to an actual construction project. The results show that the influence of the top and lower hazardous areas on the evacuation process is significantly affected by the size of the exit. The model provides a new paradigm for experience-oriented construction safety management, with a theoretical and application value for the maintenance of the integral steel platform formwork system.
Key words: super high-rise building construction, integral steel platform formwork, hazardous area, risk probability, evacuation
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