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在气候变化与快速城市化影响下,城市洪涝问题日益严峻,韧性城市建设成为应对这一挑战的重要途径。梳理了城市洪涝多过程耦合模拟、社会响应机制和韧性评估的研究进展,以山西省晋城市西河排水片区为研究区,将场次暴雨洪涝水文水动力过程与系统涌现特征纳入基于系统动力学的韧性演化框架,实现融合自然-社会属性的洪涝韧性动态评估,结果表明:随着降雨重现期延长,排水系统负荷显著增大,人口和建筑物风险持续上升,城市洪涝韧性增量呈现不断下降的演化特征。
Abstract:Under the influence of climate change and rapid urbanization, the issues of urban flooding and waterlogging have become increasingly severe, and the construction of resilient cities has become an important way to address these challenges. The research progress on urban flood multi-process coupled simulation, social response mechanisms and resilience assessment were reviewed in this study. In order to enhance urban flood disaster prevention and reduction capabilities, the Xihe drainage area in Jincheng City, Shanxi Province, was selected as a case study. It incorporated hydrological and hydrodynamic processes and system emergence characteristics during stormwater flooding events into a resilience evolution framework based on system dynamics, achieving dynamic assessment of flood resilience with the integration of both “natural and social” attributes. The results show that with the extension of the recurrence period of rainfall, the load on the drainage system has significantly increased, the risks to the population and buildings have continued to rise, and the increment of urban flood resilience has shown an evolutionary feature of continuous decline.
[1] 张建云,王银堂,贺瑞敏,等.中国城市洪涝问题及成因分析[J].水科学进展,2016,27(4):485-491.
[2] 王浩,王佳,刘家宏,等.城市水循环演变及对策分析[J].水利学报,2021,52(1):3-11.
[3] 左其亭,王子尧,马军霞.我国现代治水研究热点与发展展望[J].水利发展研究,2024,24(6):13-19.
[4] 张金良,罗秋实,王冰洁,等.城市极端暴雨洪涝灾害成因及对策研究进展[J].水资源保护,2024,40(1):6-15.
[5] 徐宗学,叶陈雷.从“城市看海”到“城市看江”:极端暴雨情景下福州市洪涝过程模拟与风险分析[J].中国防汛抗旱,2021,31(9):12-20.
[6] 冯平,崔广涛,钟昀.城市洪涝灾害直接经济损失的评估与预测[J].水利学报,2001,32(8):64-68.
[7] 刘洪波,菅浩然.气候和下垫面要素对泾河流域径流变化的影响[J].人民黄河,2021,43(1):22-28.
[8] 李国英.进一步全面深化水利改革为推动水利高质量发展、保障我国水安全作出新的贡献:在2025年全国水利工作会议上的讲话[J].水利发展研究,2025,25(1):1-12.
[9] 陈文龙,杨芳,宋利祥,等.高密度城市暴雨洪涝防御对策:郑州“7·20”特大暴雨启示[J].中国水利,2021(15):18-20,23.
[10] 李肇桀,张旺,刘璐.大力发展新质生产力助推水利高质量发展:关于水利行业发展新质生产力的认识和思考[J].水利发展研究,2024,24(6):1-6.
[11] 张建云,宋晓猛,王国庆,等.变化环境下城市水文学的发展与挑战:Ⅰ.城市水文效应[J].水科学进展,2014,25(4):594-605.
[12] 徐宗学,叶陈雷.城市暴雨洪涝模拟:原理、模型与展望[J].水利学报,2021,52(4):381-392.
[13] 夏军,张印,梁昌梅,等.城市雨洪模型研究综述[J].武汉大学学报(工学版),2018,51(2):95-105.
[14] 黄楚雯,管永乐,王洪发.基于RF-LSTM模型的城市洪涝积水模拟研究[J].人民黄河,2025,47(6):50-56.
[15] 宋晓猛,张建云,王国庆,等.变化环境下城市水文学的发展与挑战:Ⅱ.城市雨洪模拟与管理[J].水科学进展,2014,25(5):752-764.
[16] 郑军,张辛,刘清兰,等.基于正交曲线网格的河道地形插值方法及应用[J].人民黄河,2023,45(7):62-67.
[17] 李尤,潘兴瑶,邸苏闯,等.海绵措施防洪排涝影响定量分析研究[J].人民黄河,2021,43(1):53-60.
[18] 李欣怡,侯精明,潘占鹏,等.局部土地利用类型变化对城市水文过程的影响研究[J].人民黄河,2024,46(6):26-33.
[19] 魏翼飞,崔彦萍,周昂,等.城市小流域暴雨洪水响应本构关系[J].水科学进展,2025,36(1):155-165.
[20] CHEN Zhiwei,HUANG Guoru.Numerical Simulation Study on the Effect of Underground Drainage Pipe Network in Typical Urban Flood[J].Journal of Hydrology,2024,638:131481.
[21] 叶陈雷,徐宗学,李小雁.城市洪涝智慧控制与社会系统响应思考及探讨[J].中国水利,2025(5):37-43.
[22] 乔明叶,周进.平原河网区“洪涝统筹”体系构建关键技术探讨[J].水利发展研究,2024,24(10):54-59.
[23] 徐宗学,叶陈雷,廖如婷.城市洪涝灾害协同治理:研究进展与应用案例[J].地球科学进展,2023,38(11):1107-1120.
[24] 舒心怡,徐宗学,叶陈雷,等.考虑空间异质性特征的城市洪涝动态风险分析[J].北京师范大学学报(自然科学版),2024,60(3):375-385.
[25] 卜良河,侯精明,薛树红,等.区域排水能力对雨箅子堵塞程度响应规律模拟研究[J].人民黄河,2024,46(12):56-61.
[26] 刘勇,张韶月,柳林,等.智慧城市视角下城市洪涝模拟研究综述[J].地理科学进展,2015,34(4):494-504.
[27] 吴京戎,陈鑫.基于文献计量的城市洪涝灾害研究热点与趋势分析[J].人民黄河,2023,45(4):52-57.
[28] 黄国如,陈志威,曾博威.城市洪涝模型及CPU-GPU异构并行计算技术研究进展[J].水利学报,2023,54(6):654-665.
[29] 舒心怡,徐宗学,叶陈雷,等.晋城市洪涝驱动下微观与宏观耦合建模的社会系统响应及韧性分析[J].水资源保护,2025,41(3):65-74,118.
[30] HE Haiqi,LI Rui,PEI Jianzhong,et al.Current Overview of Impact Analysis and Risk Assessment of Urban Pluvial Flood on Road Traffic[J].Sustainable Cities and Society,2023,99:104993.
[31] KUMAR Akshay,BISWAS Sripali,RALLAPALLI Srinivas,et al.Micro-Macro-Scale Flood Modeling in Ungauged Channels:Rain-on-Grid Approach for Improving Prediction Accuracy with Varied Resolution Datasets[J].Journal of Hydrology,2025,654:132862.
[32] 曹雪健,许金玉,戚友存.“三道防线”建设赋能城市洪水预报:内在机理和技术路径[J].水利发展研究,2024,24(8):27-30.
[33] PENG Jiaqi,ZHANG Jianmin.Spatiotemporal Assessment of Urban Flooding Hazard Using Social Media:A Case Study of Zhengzhou“7·20”[J].Environmental Modelling & Software,2024,176:106021.
[34] CUTTER S L,BURTON C G,EMRICH C T.Disaster Resilience Indicators for Benchmarking Baseline Conditions[J].Journal of Homeland Security and Emergency Management,2010,7(1):1-22.
[35] BRUNEAU M,CHANG S E,EGUCHI R T,et al.A Framework to Quantitatively Assess and Enhance the Seismic Resilience of Communities[J].Earthquake Spectra,2003,19(4):733-752.
[36] ULRICHS M,SLATER R,COSTELLA C.Building Resilience to Climate Risks Through Social Protection:From Individualised Models to Systemic Transformation[J].Disasters,2019(S3):S368-S387.
[37] 舒心怡,徐宗学,叶陈雷,等.海绵措施空间布局优化下的晋城市洪涝水深-流速联合分布特征[J].水资源保护,2025,41(1):76-84.
基本信息:
DOI:
中图分类号:TU998.4
引用信息:
[1]徐宗学,舒心怡,叶陈雷.融合自然-社会属性的城市洪涝韧性评估[J].人民黄河,2025,47(09):55-61+69.
基金信息:
国家自然科学基金重点项目(52239003)