A comprehensive solution to waterlogging in old and high density urban areas of coastal regions—Taking the Hedong Area of Qinhuangdao City as an example
SHE Nian1, HUANGFU Sujing2, XIE Zhentao3, CAI Yezhao1, XU Dake2, QIAO Jingwen2, YU Xuejing2
1. Tsinghua Innovation Center in Zhuhai, Zhuhai 519080; 2. China Urban Construction Research Institute Co., Ltd., Beijing 100120; 3. Zhuhai Gaoxin Construction Engineering Co., Ltd., Zhuhai 519000
Abstract:Under the background of systematically promoting the construction of Sponge Cities, the comprehensive management of urban waterlogging has become the top priority of urban renewal and construction in China. Taking Hedong drainage basin of Qinhuangdao City as an example, this paper proposes to use the nature-based solution (NBS)to solve the urban flooding problem and to improve water quality in old and high-density urban areas at the same time. The main contents include the flooding cause analysis, the design principles of distributed green rainwater infrastructure and the construction of sponge backbone infrastructure network.
佘年, 皇甫苏婧, 谢振涛, 蔡业钊, 徐大可, 乔婧雯, 于雪晶. 滨海高密度老旧城区基于自然的内涝综合解决方案——以秦皇岛河东片区为例[J]. 中国防汛抗旱, 2023, 33(5): 8-13,18.
SHE Nian, HUANGFU Sujing, XIE Zhentao, CAI Yezhao, XU Dake, QIAO Jingwen, YU Xuejing. A comprehensive solution to waterlogging in old and high density urban areas of coastal regions—Taking the Hedong Area of Qinhuangdao City as an example. journal1, 2023, 33(5): 8-13,18.
[1] Ingram W. Extreme precipitation:increases all round[J].Nature Climate Change,2020,6(5):443-444. [2] Donat M G,Lowry A L,Alexander L V,et al.More extreme precipitation in the world's dry and wet regions[J].Nature Climate Change, 2016(6):508-513. [3] Myhre G. Frequency of extreme precipitation increases extensively with event rareness under global warming[J].Scientific Reports 2019,9(1):1-10. [4] US Environmental Protection Agency. Manage Flood Risk[EB/OL]. https://www.epa.gov/green-infrastructure/manage-flood-risk https://cfpub.epa.gov/roe/indicator.cfm?i=12. [5] 黄铁兰,陈君浩,黄枫杰,等. 基于GIS的珠江三角洲地区城市内涝特征研究[J]. 广东工业大学学报,2017,34(1):24-30. [6] Venkataramana V.Knowledge,attitudes,intentions and behavior related to green infrastructure for flood management:A systematic literature review[J]. Science of the Total Environment,2020,720(6):137606. [7] Ahiablame L,Shakya R. Modeling flood reduction effects of low impact development at a watershed scale[J].Journal of Environmental Management,2016,171:81-91. [8] Thorsby J,Miller C,Treemore-Spears L.The role of green stormwater infrastructure in flood mitigation (Detroit,MI USA)-case study[J]. Urban Water Journal,2020,17:1-9. [9] Hvilsh j S,Lund A A,Goring N H M,et al.Copenhagen cloudburst concretization plan,Danmark[J].Landscape Architecture Frontiers, 2016,4(5):54-67. [10]Chen H,Chang X Y,She N. An overview of methods of calculating storage volume for low impact development and other stormwater facilities[C]//IOP Conference Series:Earth and Environmental Science,The 5th International Conference on Water Resource and Environment(WRE 2019),Macao,China,IOP Publishing,2019,344(1):012145. [11]McPhillips L E,Matsler M,Rosenzweig B R,et al. What is the role of green stormwater infrastructure in managing extreme precipitation events?[J].Sustainable and resilient infrastructure,2021,6(3-4):133-142. [12]Green D,O'Donnell E,Johnson M,et al. Green infrastructure:The future of urban flood risk management?[J].Wiley Interdisciplinary Reviews:Water,2021,8(6):e1560. [13]Rosenzweig B,Ruddell B L,McPhillips L,et al. Developing knowledge systems for urban resilience to cloudburst rain events[J].Environmental Science & Policy,2019,99:150-159. [14]Foster J,Lowe A,Winkelman S.The value of green infrastructure for urban climate adaptation[J].Center for Clean Air Policy,2011,750(1):1-52. [15]Kim D,Song S K. The multifunctional benefits of green infrastructure in community development:An analytical review based on 447 cases[J].Sustainability,2019,11(14):3917. [16]Choi C,Berry P,Smith A. The climate benefits,co-benefits,and trade-offs of green infrastructure:a systematic literature review[J].Journal of Environmental Management,2021,291:112583. [17] Utomo A B,Hidayatiningrum L F,Dhanardono B. Application of porous concrete to resolve flood on the roads[C]//IOP Conference Series:Earth and Environmental Science. 2nd International Conference on Disaster and Management,Indonesia:IOP Publishing, 2021,708(1):012037. [18]Jamshidi A,Kurumisawa K,White G,et al. State-of-the-art of interlocking concrete block pavement technology in Japan as a post-modern pavement[J].Construction and Building Materials, 2019,200:713-755. [19]金建荣,李田,王圣思,等. 高地下水位地区透水停车场的水文控制效果[J].环境科学,2017,38(9):3689-3695. [20]Pitt R,Field R,Lalor M,et al. Urban stormwater toxic pollutants:assessment,sources,and treatability[J].Water environment research,1995,67(3):260-275. [21]Grant S B,Rekhi N V,Pise N R,et al. A review of the contaminants and toxicity associated with particles in stormwater runoff[J]. Terminology,2003,2(2):1-173. [22]Popick H,Brinkmann M,McPhedran K. Assessment of stormwater discharge contamination and toxicity for a cold-climate urban landscape[J].Environmental Sciences Europe,2022,34(1):43. [23]陈慧,佘年,叶向強,等. 采用绿色雨水基础设施将高密度老旧社区改造成为适应气候变化的弹性社区-镇江市江滨新村二区老小区海绵改造案例[J].土木水利,2018,45(6):33-40.