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- Title
Probability-Based City-Scale Risk Assessment of Passengers Trapped in Elevators under Earthquakes.
- Authors
Gu, Donglian; Wang, Yixing; Lu, Xinzheng; Xu, Zhen
- Abstract
An accurate prediction of the number of passengers trapped in elevators under earthquakes in urban areas is essential for promoting earthquake emergencies. A probability-based city-scale method for assessing the earthquake-induced risk of passenger entrapment in elevators was proposed, in which city-scale time history analysis was performed to simulate the seismic response of building clusters, and the Monte Carlo simulation was conducted to consider the uncertainty of multiple factors, including the mechanical properties of buildings and elevators, the elevator story position, and the spatiotemporal nature of elevator traffics. A case study of the Tsinghua University campus was performed to demonstrate the practicability of the method. The results show that the number of trapped passengers when an earthquake occurs during the off-peak hours of elevator traffic is approximately a quarter of that when the earthquake occurs at 8:00. The maximum number of trapped passengers under the maximum considered earthquake reaches 195, approximately five times that under the design basis earthquake. This study fills a gap in the research on city-scale earthquake-induced passenger entrapment risk. The proposed method can be used to perform both scenario- and intensity-based assessments, thereby having the potential to facilitate virtual rescuer drills and earthquake emergency plans.
- Subjects
TSINGHUA University (Beijing, China); EFFECT of earthquakes on buildings; EARTHQUAKE hazard analysis; ELEVATORS; EARTHQUAKES; EMERGENCY drills; MONTE Carlo method; SEISMIC response
- Publication
Sustainability (2071-1050), 2023, Vol 15, Issue 6, p4829
- ISSN
2071-1050
- Publication type
Article
- DOI
10.3390/su15064829