基于隧道淹没事件的城市洪涝灾害链风险演化及响应解析
作者:
作者单位:

(1.中国水利水电科学研究院流域水循环与水安全全国重点实验室;2.水利部数字孪生流域重点实验室;3.北京工业大学建设与城市规划学院;4.吉林大学新能源与环境学院 )

作者简介:

王佳(1986—),女,高级工程师,博士,主要从事城市水文学研究。E-mail:wangjia@iwhr.com

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基金项目:

国家自然科学基金项目(52409048);国家重点研发计划项目(2022YFC3090600);中国水利水电科学研究院基本科研业务费专项资金项目(WR110145B0042025)


Risk evolution and response analysis of urban flood disaster chains based on tunnel inundation event
Author:
Affiliation:

(1.State Key Laboratory of Water Cycle and Water Security, China Institute of Water Resources and Hydropower Research;2.Key Laboratory of River Basin Digital Twinning, Ministry of Water Resources;3.Faculty of Architecture, Civil and Transportation Engineering, Beijing University of Technology;4.College of New Energy and Environment, Jilin University)

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    摘要:

    针对城市洪涝灾害链传递机制及阻断措施研究不足的问题,通过系统识别城市洪涝灾害的致灾因子、孕灾环境、承灾体、响应措施等要素,探究了洪涝灾害链构成关键要素及其相互作用关系,解析了灾害链发生发展过程,构建了灾害链关键要素贝叶斯网络模型,并结合郑州“7.20”暴雨中京广快速路北隧道被淹事件进行了案例研究。边际概率分析结果表明,郑州“7.20”暴雨下京广快速路北隧道严重积水概率为0.482,导致严重人员伤亡和车辆损失的概率分别为0.434和0.558。响应措施联合概率分析结果表明,若应急预案、交通调度及专业救援均未及时实施,出现严重损失的概率最高,为0.494;及时采取响应措施可显著降低严重损失发生概率,其中预案实施程度、救援效率和交通调度快慢的综合减灾能力依次递减;及时实施3种救灾措施使最严重的人员伤亡和车辆损失概率降至0.152。

    Abstract:

    Aiming at the problem of insufficient research on the transmission mechanism and blocking measures of urban flood disaster chain, this paper systematically identifies the disaster causing factors, disaster pregnant environment, disaster bearing body, response measures and other elements of urban flood disaster, explores the key elements of the flood disaster chain and their interactions, analyzes the occurrence and development process of the disaster chain, constructs a Bayesian network model of the key elements of the disaster chain, and conducts a case study in combination with the inundation event of the Beijing Guangzhou Expressway North Tunnel in the “7·20” rainstorm in Zhengzhou. The marginal probability analysis results show that the probability of serious ponding in the north tunnel of Beijing Guangzhou Expressway under the “7·20” rainstorm in Zhengzhou is 0.482, and the probability of causing serious casualties and vehicle losses is 0.434 and 0.558 respectively. The joint probability analysis of response measures shows that if the emergency plan, traffic dispatch, and professional rescue are not implemented in a timely manner, the probability of serious losses is the highest, which is 0.494. Timely response measures can significantly reduce the probability of serious losses, among which the comprehensive disaster reduction capabilities of the implementation level of contingency plans, rescue efficiency, and traffic dispatch speed decrease in sequence. Timely implementation of three disaster relief measures reduces the probability of the most serious casualties and vehicle losses to 0.152.

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王佳,刘家宏,梅超,等.基于隧道淹没事件的城市洪涝灾害链风险演化及响应解析[J].水资源保护,2026,42(3):65-71, 100.(Wang Jia, Liu Jiahong, Mei Chao, et al. Risk evolution and response analysis of urban flood disaster chains based on tunnel inundation event[J]. Water Resources Protection,2026,42(3):65-71, 100.(in Chinese))

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  • 在线发布日期: 2026-06-16
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