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【目的】在气候变化和城市化等多种因素共同影响下,全球范围内城市内涝灾害频发,城市蓝绿基础设施源头减排、超标应急的作用进一步凸显,加强蓝绿灰基础设施协同的城市内涝调控十分必要。【方法】基于理念剖析和水量平衡,系统阐述了蓝绿灰基础设施协同的城市内涝调控理念的基本内涵,梳理了蓝绿灰基础设施协同的城市内涝调控典型模式,解析了蓝绿灰基础设施协同的城市内涝调控关键技术,分析了当前蓝绿灰基础设施协同的城市内涝调控面临的挑战并展望了其发展趋势。【结果】系统阐述了蓝绿灰基础设施协同的城市内涝调控理念内涵与典型模式,重点分析了蓝绿灰基础设施协同的城市内涝调控典型模式的基本特点、主要适用区域和概念图示,梳理了城市蓝绿灰基础设施协同的优化设计和智能管控两项关键技术的现状及发展趋势。【结论】加强蓝绿灰基础设施协同是当前城市内涝调控的重要发展方向,未来需进一步加强蓝绿灰基础设施统筹规划、设施优化和智能管控,推动城市雨水系统向协同、韧性、低碳、智慧的方向拓展。
Abstract:[Objective]Under the joint influence of various factors such as climate change and urbanization, urban waterlogging disasters occur frequently worldwide, the role of urban blue-green infrastructure in source emission reduction and emergency response to excessive runoff regulation is further highlighted. It is necessary to strengthen the synergy of blue-green-gray infrastructure for urban waterlogging regulation.[Methods]Based on conceptual analysis and water balance, the basic synergy of urban waterlogging control concept of the synergy of blue-green-gray infrastructure was systematically elaborated, typical modes of urban rainwater system construction were sorted out, the key technologies of urban waterlogging control of the synergy of blue-green-gray infrastructure were analyzed, the challenges faced by current urban waterlogging control of the synergy of blue-green-gray infrastructure were analyzed, and the development trend was outlooked.[Results]The concept and typical modes of urban waterlogging control based on blue-green-gray infrastructure synergy were systematically expounded, the typical modes of urban waterlogging control based on blue-green-gray infrastructure synergy were emphatically analyzed, and the basic characteristics, main application areas and conceptual diagrams of the typical model of urban waterlogging control with blue-green-gray infrastructure synergy were analyzed.[Conclusion]Strengthening the synergy of blue-green-gray infrastructure is an important development direction of the urban waterlogging control. In the future, it is necessary to further strengthen the overall planning of blue-green-gray infrastructure, facility optimization and intelligent management and control, and promote the urban rainwater system to expand in the direction of synergy, resilience, low carbon and wisdom.
[1] 宋晓猛,徐楠涛,张建云,等.中国城市洪涝问题:现状、成因与挑战[J].水科学进展,2024,35 (3):357-373.SONG Xiaomeng,XU Nantao,ZHANG Jianyun,et al.Urban flooding in China:current status,causes and challenges[J].Advances in Water Science,2024,35(3):357-373.
[2] 周紫蕊,廖卫红,雷晓辉,等.基于 InfoWorks ICM 的城市河网调控与分析:以福州市仓山区龙津阳岐片区为例[J].南水北调与水利科技(中英文),2023,21(4):770-779.ZHOU Z R,LIAO W H,LEI X H,et al.InfoWorks ICM-based urban river network regulation and analysis:A case study of Longjin Yangqi area in Cangshan District,Fuzhou City[J].South-to-North Water Transfers and Water Science & Technology,2023,21(4):770-779.
[3] ARYA S,KUMAR A.Evaluation of stormwater management approaches and challenges in urban flood control[J].Urban Climate,2023,51:101643.
[4] 国务院办公厅.关于加强城市内涝治理的实施意见[Z].北京:国务院办公厅,2021.General Office of the State Council of the People’s Republic of China.Implementation opinions on strengthening urban waterlogging control[Z].Beijing:General Office of the State Council of the People’s Republic of China,2021.
[5] 李学峰,赵敏华,林发永.上海市排水防涝“蓝绿灰”海绵空间融合探索[J].中国防汛抗旱,2023,33 (5):14-18.LI Xuefeng,ZHAO Minhua,LIN Fayong.Exploration of the integration of “Blue-Green-Grey” sponge space for drainage and flood management in Shanghai[J].China Flood & Drought Management,2023,33(5):14-18.
[6] 魏书仪,刘非,袁绍春,等.基于 SWMM 和 FVCOM 模型的城市多级排水系统改造模拟研究[J].水利水电技术(中英文),2024,55(12):29-39.WEI Shuyi,LIU Fei,YUAN Shaochun,et al.Simulation study of urban multistage drainage system modification based on SWMM and FVCOM model[J].Water Resources and Hydropower Engineering,2024,55(12):29-39.
[7] POUR S H,WAHAB A K A,SHAHID S,et al.Low impact development techniques to mitigate the impacts of climate-change-induced urban floods:Current trends,issues and challenges[J].Sustainable Cities and Society,2020,62:102373.
[8] IFTEKHAR M S,PANNELL D J.Developing an integrated investment decision-support framework for water-sensitive urban design projects[J].Journal of Hydrology,2022,607:127532.
[9] GARCíA-HABA E,HERNáNDEZ-CRESPO C,MARTíN M,et al.The role of different sustainable urban drainage systems in removing microplastics from urban runoff:A review[J].Journal of Cleaner Production,2023,411:137197.
[10] AGHALOO K,SHARIFI A,HABIBZADEH N,et al.How nature-based solutions can enhance urban resilience to flooding and climate change and provide other co-benefits:A systematic review and taxonomy[J].Urban Forestry & Urban Greening,2024,95:128320.
[11] ZHAO Q K,GAO L,MENG Q Y,et al.Nonlinear causal relationships between urbanization and extreme climate events in China[J].Journal of Cleaner Production,2024,434:139889.
[12] YIN D K,ZHANG X Y,CHENG Y H,et al.Can flood resilience of green-grey-blue system cope with future uncertainty?[J].Water Research,2023,242:120315.
[13] AMBILY P,CHITHRA N R,FIROZ C M.A framework for urban pluvial flood resilient spatial planning through blue-green infrastructure[J].International Journal of Disaster Risk Reduction,2024,103:104342.
[14] FU X R,LIU J H,WANG Z G,et al.Quantifying and assessing the infiltration potential of green infrastructure in urban areas using a layered hydrological model[J].Journal of Hydrology,2023,618:128626.
[15] DOS SANTOS M F N,BARBASSA A P,VASCONCELOS A F,et al.Stormwater management for highly urbanized areas in the tropics:Life cycle assessment of low impact development practices[J].Journal of Hydrology,2021,598:126409.
[16] 周延,佘敦先,夏军,等.基于水文水动力模型的LID措施对城市内涝风险的影响研究[J].武汉大学学报(工学版),2022,55 (11):1090-1101.ZHOU Yan,SHE Dunxian,XIA Jun,et al.Study on the impact of LID practices on urban waterlogging risk based on hydrodynamic coupling model[J].Engineering Journal of Wuhan University,2022,55 (11):1090-1101.
[17] 刘玥,张翔,刘洁,等.极端暴雨下绿-灰-蓝基础设施防洪排涝效果评估:以东沙湖流域为例[J].应用基础与工程科学学报,2024,32 (3):740-753.LIU Yue,ZHANG Xiang,LIU Jie,et al.Assessment of flood control effectiveness of green-grey-blue infrastructure during extreme rainstorms:A case study of East-sha Lake Watershed[J].Journal of Basic Science and Engineering,2024,32(3):740-753.
[18] LU P J,SUN Y M,STEFFEN N.Scenario-based performance assessment of green-grey-blue infrastructure for flood-resilient spatial solution:A case study of Pazhou,Guangzhou,greater Bay area[J].Landscape and Urban Planning,2023,238:104804.
[19] LI J Y,ZENG J J,HUANG G R,er al.Urban flood mitigation strategies with coupled gray-green measures:A case study in Guangzhou City,China[J].International Journal of Disaster Risk Science,2024,15(3):467-479.
[20] ALVES A,GERSONIUS B,KAPELAN Z,et al.Assessing the co-benefits of green-blue-grey infrastructure for sustainable urban flood risk management[J].Journal of Environmental Management,2019,239:244-254.
[21] CHEN J X,WANG S S,WU R B.Optimization of the integrated green-gray-blue system to deal with urban flood under multi-objective decision-making[J].Water Science and Technology,2024,89(2):434-453.
[22] CHEN W J,WANG W Q,HUANG G R,et al.The capacity of grey infrastructure in urban flood management:A comprehensive analysis of grey infrastructure and the green-grey approach[J].International Journal of Disaster Risk Reduction,2021,54:102045.
[23] 黄国如,杨格,曾博威,等.基于绿灰蓝基础设施融合的城市洪涝灾害调控[J].郑州大学学报(工学版),2023,44 (2):14-21.HUANG Guoru,YANG Ge,ZENG Bowei,et al.Urban flood disaster control based on green-gray-blue infrastructure integration[J].Journal of Zhengzhou University (Engineering Science),2023,44 (2):14-21.
[24] 阳烨,何俊超,朱江,等.基于雨洪适应性的蓝绿灰融合技术路径研究[J].给水排水,2023,59 (S1):134-142.YANG Ye,HE Junchao,ZHU Jiang,et al.Study on blue green grey fusion technology system based on rain flood adaptability[J].Water&Wastewater Engineering,2023,59 (S1):134-142.
[25] 陈秋伶,林凯荣,陈文龙,等.多尺度海绵城市系统雨洪控制研究[J].水利学报,2022,53 (7):862-875.CHEN Qiuling,LIN Kairong,CHEN Wenlong,et al.Study on storm flood control in multi-scale sponge city system[J].Journal of Hydraulic Engineering,2022,53 (7):862-875.
[26] 黄若琳,王锣洋,潘骁骏,等.低影响开发设施组合下的城市雨洪调控情景模拟研究[J].水利水电技术(中英文),2024,55 (4):22-35.HUANG Ruolin,WANG Luoyang,PAN Xiaojun,et al.Scenario simulation study on urban rain flood control under the combination of low impact development facilities[J].Water Resources and hydropower engineering,2024,55 (4):22-35.
[27] 李亚,汤钟,黄垚洇,等.滨水低洼地区水安全韧性提升的策略与实践[J].水利发展研究,2025,25(2):41-47,84.LI Ya,TANG Zhong,HUANGYaoyin,et al.Strategies and practices for enhancing water security resilience in waterfront low-lying areas[J].Water Resources Development Research,2025,25(2):41-47,84.
[28] 陈诗扬,程小文.提升防涝韧性的城市调蓄空间量化方法研究[J].中国给水排水,2022,38 (12):132-138.CHEN Shiyang,CHENG Xiaowen.Study on quantifying urban storage capacity from the perspective of enhancing resilient pluvial flood protection[J].China Water & Wastewater,2022,38 (12):132-138.
[29] 夏军,石卫,王强,等.海绵城市建设中若干水文学问题的研讨[J].水资源保护,2017,33 (1):1-8.XIA Jun,SHI Wei,WANG Qiang,et al.Discussion of several hydrological issues regarding sponge city construction[J].Water Resources Protection,2017,33 (1):1-8.
[30] 徐千惠,熊林,朱天琳,等.适应我国不同自然条件类型城市的内涝治理模式研究[J].水利水电技术(中英文),2024,55 (1):11-27.XU Qianhui,XIONG Lin,ZHU Tianlin,et al.Study on urban waterlogging control modes adapted to cities of different nature condition types in China[J].Water Resources and hydropower engineering,2024,55 (1):11-27.
[31] 王萌茜,侯东瑞,武静,等.蓝绿协同视角下武汉南湖汇水分区绿地削减雨水径流效应特征与情景模拟[J].华中农业大学学报,2024,43(6):171-181.WANG Mengxi,HOU Dongrui,WU Jing,et al.Characteristics and scenario simulation of rainwater runoff effect reduction in urban catchment zoning green space from the perspective of blue-green synergy:in case of South Lake of Wuhan[J].Journal of Huazhong Agricultural University,2024,43(6):171-181.
[32] SHARMIN R,MARTIN W D,KAYE N B.Hydrologic performance of distributed LID stormwater infrastructure on land developments under a changing climate:Site-scale performance improvements[J].Journal of Irrigation and Drainage Engineering,2022,148(7):05022001.
[33] 刘曦,孔露霆,丁兆晖,等.英国蓝绿系统方法剖析及对我国海绵城市建设的启示[J].中国给水排水,2020,36 (4):24-29.LIU Xi,KONG Luting,DING Zhaohui,et al.Analysis of the British blue green solutions and its enlightenment to China sponge city construction[J].China Water & Wastewater,2020,36 (4):24-29.
[34] 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.XU Zongxue,YE Chenlei.Simulation of urban flooding/waterlogging processes:Principle,models and prospects[J].Journal of Hydraulic Engineering,2021,52 (4):381-392.
[35] 张红萍,李敏,贺瑞敏,等.城市洪涝模拟应用场景及相应技术策略[J].水科学进展,2022,33 (3):452-461.ZHANG Hongping,LI Min,HE Ruimin,et al.Application scenarios and corresponding technical strategies of urban flood modeling[J].Advances in Water Science,2022,33(3):452-461.
[36] 刘波,戎贵文,陈情情,等.基于SWMM的LID设施分区布局及减排效益[J].南水北调与水利科技(中英文),2023,21(5):930-939.LIU B,RONG G W,CHEN Q Q,et al.Regional distribution and mitigation benefit of LID facility based on SWMM[J].South-to-North Water Transfers and Water Science & Technology,2023,21(5):930-939.
[37] CHEN W J,WANG W Q,MEI C,et al.Multi-objective decision-making for green infrastructure planning:Impacts of rainfall characteristics and infrastructure configuration[J].Journal of Hydrology,2024,628:130572.
[38] ZHENG J X,LI J Y,ZENG J J,et al.Application of a time-dependent performance-based resilience metric to establish the potential of coupled green-grey infrastructure in urban flood management[J].Sustainable Cities and Society,2024,112:105608.
[39] KUMAR S,VISHWAKARMA R K,TYAGI V K,et al.Stormwater runoff characterization and adaptation of best management practices under urbanization and climate change scenarios[J].Journal of Hydrology,2024,635:131231.
[40] 王建龙,张长鹤,席广朋.基于多目标遗传算法的城市内涝调蓄池规模优化方法研究[J].环境工程,2023,41 (6):166-173.WANG Jianglong,ZHANG Changhe,XI Guangpeng.A novel volume optimization method for detention tanks for flooding immigration based on multi-objective genetic algorithm[J].Environmental Engineering,2023,41 (6):166-173.
[41] 赵莹,刘家宏,梅超,等.大兴机场海绵设施雨洪控制效果模拟[J].南水北调与水利科技(中英文),2023,21(3):512-521.ZHAO Y,LIU J H,MEI C,et al.Simulation of stormwater control effect of sponge facilities in Daxing Airport[J].South-to-North Water Transfers and Water Science & Technology,2023,21(3):512-521.
[42] 李万能,赵敏,林权满,等.基于遥感技术的广州市水域占用监测分析[J].广东水利水电,2023,(11):79-84.LI Wanneng,ZHAO Min,LIN Quanman,et al.Monitoring and analysis of water area occupation in Guangzhou based on remote sensing technology[J].Guangdong Water Resources and Hydropower,2023,(11):79-84.
[43] UCIECHOWSKA-GRAKOWICZ A,HERRERA-GRANADOS O,BIERNAT S,et al.Usage of airborne LiDAR data and high-resolution remote sensing images in implementing the smart city concept[J].Remote Sensing,2023,15(24):5776.
[44] 胡翔云,张觅,张祖勋,等.遥感影像智能解译系统EasyFeature的关键技术及应用[J/OL].武汉大学学报(信息科学版),1-11[2024-09-24].https://doi.org/10.13203/j.whugis2024 0159.HU Xiangyun,ZHANG Mi,ZHANG Zuxun,et al.Key technologies and applications of EasyFeature,an intelligent interpretation system for remote sensing images[J].Geomatics and Information Science of Wuhan University,1-11[2024-09-24].https://doi.org/10.13203/j.whugis20240159.
[45] 王磊,陈明恩,孟凯凯,等.基于深度学习算法的水位识别方法研究[J].水利信息化,2020,(3):39-43.WANG Lei,CHEN Mingen,MENG Kaikai,et al.Research on water level recognition method based on deep learning algorithms[J].Water Resources Informatization,2020,(3):39-43.
[46] 夏平,王峰,雷帮军,等.基于超像素和图割算法的智能视觉水位识别[J].计算机仿真,2021,38 (3):430-436.XIA Ping,WANG Feng,LEI Bangjun,et al.Intelligent visual water level recognition algorithm based on super-pixel and graph cut segmentation[J].Computer Simulation,2021,38 (3):430-436.
[47] 李小宁,俞悦,王船海,等.南方平原河网区城市内涝的全过程监测与特征分析[J].水利学报,2022,53 (7):845-853.LI Xiaoning,YU Yue,WANG Chuanhai,et al.Monitoring and characterization of the entire urban flooding process in the typical southern plain river network area[J].Journal of Hydraulic Engineering,2022,53 (7):845-853.
[48] 栾清华,秦志宇,王东,等.城市暴雨道路积水监测技术及其应用进展[J].水资源保护,2022,38 (1):106-116.LUAN Qinghua,QIN Zhiyu,WANG Dong,et al.Review on monitoring technology of urban road waterlogging after rainstorm and its application[J].Water Resources Protection,2022,38 (1):106-116.
[49] WANG Z L,CHEN Y H,ZENG Z Y,et al.A tight coupling model for urban flood simulation based on SWMM and TELEMAC-2D and the uncertainty analysis[J].Sustainable Cities and Society,2024,114:105794.
[50] QI W C,MA C,XU H S,et al.A review on applications of urban flood models in flood mitigation strategies[J].Natural Hazards,2021,108(1):31-62.
[51] LOU Y H,WANG P,LI Y,et al.Management of the designed risk level of urban drainage system in the future:Evidence from haining city,China[J].Journal of Environmental Management,2024,351:119846.
[52] 刘媛媛,刘业森,郑敬伟,等.BP神经网络和数值模型相结合的城市内涝预测方法研究[J].水利学报,2022,53 (3):284-295.LIU Yuanyuan,LIU Yesen,ZHENG Jingwei,et al.Intelligent rapid prediction method of urban flooding based on BP neural network and numerical simulation model[J].Journal of Hydraulic Engineering,2022,53 (3):284-295.
[53] 赖成光,廖耀星,王兆礼,等.基于多目标机器学习模型的城市内涝快速模拟研究[J].中国水科学前沿,2023,1(1):1-16.LAI Chengguang,LIAO Yaoxing,WANG Zhaoli,et al.Fast simulation of urban waterlogging based on multi-objective machine learning models[J].Frontiers of Chinese Water Sciences,2023,1(1):1-16.
[54] 叶陈雷,徐宗学.城市洪涝数字孪生系统构建与应用:以福州市为例[J].中国防汛抗旱,2022,32 (7):5-11.YE Chenlei,XU Zongxue.Development and application of digital twin system for urban flood and waterlogging:Case study of Fuzhou City[J].China Flood & Drought Management,2022,32 (7):5-11.
[55] 叶陈雷,徐宗学.水工程调度与低影响开发协同作用下典型城市片区洪涝过程模拟:以福州市为例[J].水利学报,2022,53 (7):833-844.YE Chenlei,XU Zongxue.Simulation of fluvial/pluvial flooding processes in a typical urban area considering role of low impact development (LID) measures and joint operation for hydraulic structures:Case study in Fuzhou City[J].Journal of Hydraulic Engineering,2022,53 (7):833-844.
[56] 乌景秀,刘国庆,范子武,等.复杂工程群调度下平原河网城市洪涝智能调度预案集研究与应用[J].中国防汛抗旱,2022,32 (S1):187-191.WU Jingxiu,LIU Guoqing,FAN Ziwu,et al.Study and application of urban intelligent flood scheduling plan set in plain river network under complex project group scheduling[J].China Flood & Drought Management,2022,32 (S1):187-191.
[57] 任梅芳,宋利祥,庞博,等.基于物理机制的城市汇水单元降雨径流特性研究[J].水利水电技术(中英文),2023,54 (9):37-47.REN Meifang,SONG Lixiang,PANG Bo,et al.Physical mechanism-based study on rainfall and runoff characteristics of urban catchment unit[J].Water Resources and hydropower engineering,2023,54 (9):37-47.
[58] EMMANOUIL S,LANGOUSIS A,NIKOLOPOULOS E I,et al.Exploring the future of rainfall extremes over CONUS:The effects of high emission climate change trajectories on the intensity and frequency of rare precipitation events[J].Earths Future,2023,11(4):e2022EF003039.
[59] UR REHMAN A,GLENIS V,LEWIS E,et al.Multi-objective optimisation framework for Blue-Green Infrastructure placement using detailed flood model[J].Journal of Hydrology,2024,638:131571.
[60] LI Q Y,YANG Y C,LIAO H X,et al.The simulation,regulation capacity assessment and coping strategy of rainstorm runoff waterlogging in Zhu pai-chong Basin of Nanning,China[J].Journal of Environmental Management,2023,332:117395.
[61] 徐宗学,李鹏.城市化水文效应研究进展:机理、方法与应对措施[J].水资源保护,2022,38 (1):7-17.XU Zongxue,LI Peng.Progress on hydrological response to urbanization:Mechanisms,methods and solutions[J].Water Resources Protection,2022,38 (1):7-17.
[62] 陈文龙,徐宗学,张印,等.高密度城市暴雨洪涝治理理论框架及其应用研究[J].水利学报,2022,53 (7):769-778.CHEN Wenlong,XU Zongxue,ZHANG Yin,et al.Theoretical framework and application of urban rainstorm flood control in high-density cities[J].Journal of Hydraulic Engineering,2022,53 (7):769-778.
[63] 马越,杨正,姬国强,等.关于海绵城市绿色雨水设施运维管理的关键问题探讨[J].净水技术,2023,42 (12):1-7.MA Yue,YANG Zheng,JI Guoqiang,et al.Discussion on key issues in green stormwater infrastructure operation and maintenance management in terms of sponge city[J].Water Purification Technology,2023,42 (12):1-7.
[64] 高学珑,陈奕,许乃星,等.基于BIM的海绵城市规划建设运维管控关键技术研究[J].给水排水,2019,55 (10):51-56.GAO Xuelong,CHEN Yi,XU Naixing,et al.Research on key technology of sponge city life cycle management and control based on BIM[J].Water & Wastewater Engineering,2019,55 (10):51-56.
[65] 周晋军,庞亚莉,王昊,等.我国城市雨水资源化发展研究综述[J].水利水电技术(中英文),2023,54(5):61-74.ZHOU Jinjun,PANG Yali,WANG Hao,et al.Review of urban rainwater harvesting development in China [J].Water Resources and Hydropower Engineering,2023,54(5):61-74.
[66] 许申来,周影烈,李王锋,等.海绵城市理念下流域协同治理策略思考与探索[J].中国给水排水,2021,37 (2):1-6.XU Shenlai,ZHOU Yinglie,LI Wangfeng,et al.Exploration and thought on the strategy of basin coordinated management under the concept of sponge city[J].China Water & Wastewater,2021,37 (2):1-6.
[67] CALDERóN-ARGELICH A,ANGUELOVSKI I,CONNOLLY J J T,et al.Greening plans as (re)presentation of the city:Toward an inclusive and gender-sensitive approach to urban greenspaces[J].Urban Forestry & Urban Greening,2023,86:127984.
基本信息:
DOI:10.13928/j.cnki.wrahe.2025.06.003
中图分类号:TU992
引用信息:
[1]张克寒,梅超,刘家宏,等.蓝绿灰基础设施协同的城市内涝调控及关键技术解析[J].水利水电技术(中英文),2025,56(06):26-37.DOI:10.13928/j.cnki.wrahe.2025.06.003.
基金信息:
国家重点研发计划(2021YFC3001404); 鄂尔多斯市科技重大专项项目(ZD20232323)