STUDY ON SYSTEM AND TECHNOLOGIES FOR SYSTEMATIC AND FULL-FIELD PROMOTION OF SPONGE CITY CONSTRUCTION IN SHANGHAI

ZHANG Chen; LV Yong-peng; DENG Jing; CHEN Tao

doi:10.13205/j.hjgc.202004002

Volume 38 Issue 4

Apr. 2020

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ZHANG Chen, LV Yong-peng, DENG Jing, CHEN Tao. STUDY ON SYSTEM AND TECHNOLOGIES FOR SYSTEMATIC AND FULL-FIELD PROMOTION OF SPONGE CITY CONSTRUCTION IN SHANGHAI[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(4): 5-9,107. doi: 10.13205/j.hjgc.202004002

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ZHANG Chen, LV Yong-peng, DENG Jing, CHEN Tao. STUDY ON SYSTEM AND TECHNOLOGIES FOR SYSTEMATIC AND FULL-FIELD PROMOTION OF SPONGE CITY CONSTRUCTION IN SHANGHAI[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(4): 5-9,107. doi: 10.13205/j.hjgc.202004002

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STUDY ON SYSTEM AND TECHNOLOGIES FOR SYSTEMATIC AND FULL-FIELD PROMOTION OF SPONGE CITY CONSTRUCTION IN SHANGHAI

doi: 10.13205/j.hjgc.202004002

Shanghai Municipal Engineering Design Institute(Group) Co., Ltd, Shanghai 200092, China

Received Date: 2020-02-11

Abstract

Abstract

After more than four years of innovative practice in 30 sponge city pilot areas across China, the urban ecological environment had been improved significantly, and the pilot results had been remarkable. On the basis of summarizing the pilot experiences, in order to further implement the goals and requirements of the Guiding Opinions on Promoting the Construction of Sponge City issued by the General Office of the State Council, the Ministry of Housing and Urban-Rural Development clearly puts forward the need for "systematic and full-field promotion of sponge city construction" at the 2020 annual National Work Meeting. Based on the research and practice of systematic and full-field promotion of sponge city construction in Shanghai, especially the experience of Lin-gang pilot area, this paper studied from the aspects of system construction, full-field promotion, and promotion of Lin-gang after the pilot, so as to provide reference for the systematic and full-field promotion of sponge city construction in other cities.
- sponge city,
- systematization,
- full-field promotion,
- Shanghai,
- Lin-gang Special Area

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References

章林伟,牛璋彬,张全,等,浅析海绵城市建设的顶层设计[J].给水排水,2017,53(9):1-5.

张辰,陈涛,吕永鹏,等.海绵城市建设的规划管控体系研究[J].城乡规划,2019(2):4-17,48.

王璐,于冰沁,陈嫣,等.上海滨海盐碱地区雨水花园适应性结构设计:以临港海绵城市建设示范区为例[J].上海交通大学学报(农业科学版),2019,37(4):29-36.

胡绍颖,于冰沁,陈嫣,等.滨海盐碱地区的雨水花园介质土对水文特征的影响:以上海临港新城为例[J].上海交通大学学报(农业科学版),2019,37(3):61-67.

张辰,邹伟国,吕永鹏,等.上海市海绵城市试点规划及适用技术研究[J].城市道桥与防洪,2016(9):1-3,10.

吕永鹏,莫祖澜,张辰,等.流域尺度海绵城市专项规划的方法研究:以上海临港国家试点区为例[J].城乡规划,2019(2):18-24.

吕永鹏, 张格, 莫祖澜,等. 再谈平原河网地区汇水分区划分[J]. 给水排水, 2019,55(9):55-59.

莫祖澜,马玉,张格,等.基于模型优化的流域监测方案研究[J].给水排水,2019,55(9):60-64.

张辰, 吕永鹏, 莫祖澜,等. 以总磷控制为主导的滴水湖水质保障系统方案探讨[J]. 给水排水, 2019,55(9):46-49.

邓婧,张辰,莫祖澜,等. 感潮河网地区水安全保障系统方案[J]. 给水排水, 2019,55(9):50-54.

李雨霏,吕永鹏,尹冠霖,等.子汇水区划分精度对于水力模型应用于海绵小区流量估算影响的研究[J].绿色建筑,2019,11(2):20-22.

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