ANALYSIS OF CHARACTERISTICS OF SEPARATED DRAINAGE NETWORKS AND WATER ENVIRONMENT IN NEARSHORE URBAN AREAS: A CASE STUDY OF SHANTOU EAST COAST NEW CITY

KANG Ruipeng; LU Wei; BI Donghe; ZHU Min; HUANG Xinni; CHEN Zepeng; CHEN Jiale; ZHANG Shangzhong; YU Yang

doi:10.13205/j.hjgc.202411003

Volume 42 Issue 11

Nov. 2024

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KANG Ruipeng, LU Wei, BI Donghe, ZHU Min, HUANG Xinni, CHEN Zepeng, CHEN Jiale, ZHANG Shangzhong, YU Yang. ANALYSIS OF CHARACTERISTICS OF SEPARATED DRAINAGE NETWORKS AND WATER ENVIRONMENT IN NEARSHORE URBAN AREAS: A CASE STUDY OF SHANTOU EAST COAST NEW CITY[J]. ENVIRONMENTAL ENGINEERING , 2024, 42(11): 22-28. doi: 10.13205/j.hjgc.202411003

Citation:

KANG Ruipeng, LU Wei, BI Donghe, ZHU Min, HUANG Xinni, CHEN Zepeng, CHEN Jiale, ZHANG Shangzhong, YU Yang. ANALYSIS OF CHARACTERISTICS OF SEPARATED DRAINAGE NETWORKS AND WATER ENVIRONMENT IN NEARSHORE URBAN AREAS: A CASE STUDY OF SHANTOU EAST COAST NEW CITY[J]. ENVIRONMENTAL ENGINEERING , 2024, 42(11): 22-28. doi: 10.13205/j.hjgc.202411003

Citation:

KANG Ruipeng, LU Wei, BI Donghe, ZHU Min, HUANG Xinni, CHEN Zepeng, CHEN Jiale, ZHANG Shangzhong, YU Yang. ANALYSIS OF CHARACTERISTICS OF SEPARATED DRAINAGE NETWORKS AND WATER ENVIRONMENT IN NEARSHORE URBAN AREAS: A CASE STUDY OF SHANTOU EAST COAST NEW CITY[J]. ENVIRONMENTAL ENGINEERING , 2024, 42(11): 22-28. doi: 10.13205/j.hjgc.202411003

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ANALYSIS OF CHARACTERISTICS OF SEPARATED DRAINAGE NETWORKS AND WATER ENVIRONMENT IN NEARSHORE URBAN AREAS: A CASE STUDY OF SHANTOU EAST COAST NEW CITY

doi: 10.13205/j.hjgc.202411003

1. China Municipal Engineering Southwest Design & Research Institute Co., Ltd., Chengdu 610081, China;
2. Shenzhen Liyuan Water Design Consulting Co., Ltd., Shenzhen 518031, China;
3. Dongqing Hechuang (Shenzhen) Environmental Technology Co., Ltd., Shenzhen 518004, China;
4. Shenzhen International Graduate School, Tsinghua University, Shenzhen 518071, China

Received Date: 2024-01-25
Available Online: 2025-01-16

Abstract

Abstract

This study was carried out on the case of the East Coast New City of Shantou, to analyze and explore the drainage system and water environment characteristics of coastal urban areas. By long-term observation records, continuous hydraulic and water quality online monitoring, as well as regular on-site water quality sampling and analysis, the study revealed that within the research area, the water levels in the rainwater pipes were influenced by the reverse flow of tidal water levels, displaying a consistent pattern with the tidal cycle. It was found that anti-reflux facilities were unable to completely prevent tidal water from permeating the drainage pipe network through shallow underground infiltration. Consequently, high-salinity external water brought in by tides easily entered the sewage pipe system due to backflow caused by the mixing of rainwater and sewage, or pipe leakage. Furthermore, rainfall-induced non-point source pollution was channeled into the receiving water body, which demonstrated a certain capacity for assimilation. The number of days with excellent water environment accounted for 86.6% of the whole year. However, inferior water environment day primarily occurred during periods with lower rainfall, accounting 3.8% of the whole year. In spring, autumn, and winter, diatom species, such as Skeletonema and Navicula formed algal blooms in the inner river channels, directly impacting the appearance condition of the water environment. The findings of this study can serve as a reference for the design and optimization of drainage systems in coastal urban areas, as well as the development of strategies related to urban flooding, pollution control, pipeline maintenance and operation, and water environment management.
- separated drainage system,
- coastal city,
- tides,
- diatoms,
- public environmental scrutiny

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References(25)

References

[1]	陆文林,钱铎怀,黄浩辉,等. 东莞市水乡片区污水管网外水入侵排查及整治对策研究[J]. 给水排水, 2023, 59(增刊1): 433-438.
[2]	孙龙. 暴雨天气下城市内涝风险评估及处理方案研究[J]. 工程技术研究, 2023, 8 (9): 223-225.
[3]	陈露. 极端气候条件下沿海平原建成区管网容量评估分析[J]. 中国新技术新产品, 2022(4): 59-61.
[4]	曾照洋. 变化环境下"台风-暴雨-风暴潮"复合型洪涝数值模拟研究[D]. 广州:华南理工大学,2023.
[5]	许瀚卿. 沿海城市复合洪涝灾害评估与适应对策研究[D]. 上海:华东师范大学, 2022.
[6]	曹湛,曾坚. 基于防灾安全理念的填海造城规划研究[J]. 现代城市研究, 2014(7): 31-38.
[7]	段丽瑶,解以扬,陈靖,等. 基于城市内涝仿真模型的天津风暴潮灾害评估[J]. 应用气象学报, 2014, 25 (3): 354-359.
[8]	姚蕊,杨群涛,张书亮.城市暴雨内涝灾害脆弱性研究综述[J]. 水资源保护, 2023, 39(1): 93-100.
[9]	YU Y, KOJIMA K, AN K, et al. Cluster analysis for characterization of rainfalls and CSO behaviours in an urban drainage area of Tokyo[J] Water Science and Technology, 2013, 68(3): 544-551.
[10]	唐清竹,徐宗学,王京晶,等. 深圳河流域城市洪涝风险分析[J]. 水力发电学报, 2023, 42 (6): 13-22.
[11]	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.
[12]	胡和平,王绍彪,廖瑜. 污水管网高水位运行原因及对策措施研究[J]. 给水排水, 2021, 47(2): 128-132.
[13]	石顺权,唐雨语,陈德业,等. 联合调度策略用于河网区污水系统倒灌口排查[J]. 中国给水排水,2023,39(24): 115-121.
[14]	陈玮,程彩霞,徐慧纬,等. 合流制管网截流雨水对城镇污水处理厂处理效能影响分析[J]. 给水排水, 2017, 43(10): 36-40.
[15]	吕佳豪,侯精明,李东来,等. 城市排水管网排口水位变化对城市洪涝过程的影响[J]. 给水排水, 2023, 59(5): 140-149.
[16]	王琳芳,李慧娴,梁森,等. 徐州市城市降雨地表径流污染特征分析[J]. 江苏建筑职业技术学院学报, 2023, 23 (3): 32-36.
[17]	柳健. 城市道路雨水径流污染特征及源头控制技术研究[D]. 上海:华中科技大学,2018.
[18]	汉京超. 城市雨水径流污染特征及排水系统模拟优化研究[D]. 上海:复旦大学, 2015.
[19]	易升泽,汤维明,俞静雯. 深圳市福永污水处理系统提质增效案例分析[J]. 水资源开发与管理, 2023,9(10): 31-38.
[20]	崔诺,鲁梅,胡馨月,等. 提质增效背景下排水管网检测技术的应用与总结[J]. 中国给水排水, 2023, 39 (6): 33-40.
[21]	段畅,王强,赵武军. 市政雨污水管道分流改造工程的重要性及应用[J]. 云南水力发电, 2021, 37 (12): 263-265.
[22]	王文倩,任心欣,赵福祥. 南方城市分流制排水系统中调蓄池对污水处理提质增效的影响[J]. 净水技术, 2023, 42(增刊2): 111-116,121.
[23]	孙永利. 城镇污水处理提质增效的内涵与思路[J]. 中国给水排水, 2020, 36(2): 1-6.
[24]	YU Y, ZHANG S Z, AN K J, et al. Simple method for calculating hydraulic behavior of combined sewer overflow from rainfall event data[J]. Water Resources Planning and Management, 2018, 144(10): 04018061.
[25]	国家环境保护总局《水和废水监测分析方法》编委会. 水和废水监测分析方法[M]. 4版. 北京:中国环境科学出版社, 2002.