Relationships Between Evacuation Population Size, Earthquake Emergency Shelter Capacity, and Evacuation Time

• Main Authors: Xiujuan Zhao, Wei Xu, Yunjia Ma, Lianije Qin, Junlin Zhang, Ying Wang
• Format: Article
• Language: English
• Published: SpringerOpen 2017-12-01
• Series: International Journal of Disaster Risk Science
• Subjects: China, earthquake shelter location; Evacuation population allocation; Total shelter area; Total weighted evacuation time
• Online Access: http://link.springer.com/article/10.1007/s13753-017-0157-2

Abstract Determining the location of earthquake emergency shelters and the allocation of affected population to them are key issues that face shelter planning and emergency management. To solve this emergency shelter location–allocation problem, evacuation time and the construction cost of shelters—both influenced by the evacuation population size and its spatial distribution—are two important considerations. In this article, a mathematical model with two objectives—to minimize total weighted evacuation time (TWET) and total shelter area (TSA)—is allied with a modified particle swarm optimization algorithm to address the problem. The relationships between evacuation population size, evacuation time, and total shelter area are examined using Jinzhan Town in Chaoyang District of Beijing, China, as a case study. The results show that TWET has a power function relationship with TSA under different population size scenarios, and a linear function applies between evacuation population and TWET under different TSAs. The joint relationships of TSA, TWET, and population size show that TWET increases with population increase and TSA decrease, and compared with TSA, population influences TWET more strongly. Given a reliable projection of population change and spatial planning of a study area, this method can be useful for government decision making on the location of earthquake emergency shelters and on the allocation of evacuees to those shelters.