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作 者:宋天旭 刘家宏[1,2] 梅超 王佳[1,2] 张克寒 石虹远[1] SONG Tianxu;LIU Jiahong;MEI Chao;WANG Jia;ZHANG Kehan;SHI Hongyuan(State Key Laboratory of Simulation and Regulation of Water Cycle in River Basin,China Institute of Water Resources and Hydropower Research,Beijing 100038,China;Key Laboratory of River Basin Digital Twinning of Ministry of Water Resources,Beiijing 100038,China)
机构地区:[1]中国水利水电科学研究院流域水循环模拟与调控国家重点实验室,北京100038 [2]水利部数字孪生流域重点实验室,北京100038
出 处:《应用基础与工程科学学报》2024年第2期349-364,共16页Journal of Basic Science and Engineering
基 金:国家重点研发计划项目(2022YFC3090600);国家自然科学基金项目(52192671);中国水科院基本科研业务费项目(WR110145B0022022);水利部数字孪生流域重点实验室开放研究基金项目。
摘 要:极端降雨会引起城市内涝,造成地面严重积水,从而威胁城市地表及地下空间的生命财产安全.当前水动力模型涉及地下空间的模拟较少,地下空间设防高度对城市内涝时空分布特征的影响分析还存在不足.针对以上问题,以郑州市二七区主城区在“7·20”特大暴雨事件中的内涝过程为例,构建了考虑地下空间淹水的城市内涝模型.模拟了在地下空间不同设防高度下,城市内涝时空分布特征.研究结果显示:(1)构建的地下空间淹水模型具有一定物理机制,参数可量化,且计算简便,适用于大范围考虑地下空间淹水的城市内涝模拟;(2)不考虑地下空间淹水会使地表内涝风险被高估,高风险与超高风险面积之和将会增大10.7%;(3)当设防高度增加10cm时,城市地表的积水最大深度提高10.0%,流速增加2.3%,高风险与超高风险面积增加3.4%.这一结果表征了地下空间设防高度对城市内涝过程的影响机制与规律,为科学设置设防高度,有效防控城市地表-地下整体内涝风险提供了参考和依据.Extreme rainfall could induce urban waterlogging,threatening the life and property on the urban surface and underground space.However,the current hydrodynamic models involve less about underground spaces,and there remain limited studies on the response of urban waterlogging spatial-temporal features to underground defense height.This study reconducted the flooding in the main urban area of Erqi District of Zhengzhou City during the"7.20"extreme rainstorm event,proposing a model considering the flooding of underground space.Under different protective heights of underground spaces,the flood spread on the urban surface is simulated.The results show that:(1)The model,proposed in this study,has a physical mechanism,quantifiable parameters,simple calculation,and is suitable for large-scale simulation.(2)The risk level of the urban surface will be overestimated without considering the flooding of underground spaces.The sum of high-risk and super senior-risk areas will increase by 10.7%.(3)When the defense height of underground space increases by 10cm,the maximum water depth on the urban surface increases by 10.0%,the velocity increases by 2.3%,and the sum of high-risk and super senior-risk areas increases by 3.4%.This result explores the mechanism of the impact of underground space defense height on urban waterlogging providing novel perspectives on setting fortification heights and preventing the overall risk of urban surface underground waterlogging.
关 键 词:极端降雨 “7·20”暴雨 城市内涝 地下空间 地表-地下联合模拟 风险评估 设防高度
分 类 号:TV122[水利工程—水文学及水资源]
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