环境科学
过程线
污染物
合流下水道
水文学(农业)
沉积物
生活污水管
排水
环境工程
雨水
地质学
地表径流
岩土工程
地貌学
生态学
化学
有机化学
生物
作者
Dawei Yu,Dian Liu,Yonglong Hai,Mark Randall,Li Liu,Jibao Liu,Junya Zhang,Xiang Zheng,Yuansong Wei
标识
DOI:10.1016/j.jenvman.2021.114268
摘要
Significant management needs raised in urban sewer system to facilitate urban resilience to rainstorm. The work investigated the effects of temporal evolution of rainfall on hydrograph and pollutant discharge of CSO over an intensive observation period of 12 months, with special attention to differences in temporal scale for supporting management decision making. The characteristics of rainfall in different temporal scales helped overflow-risk identification and assessment. Prolonged dry seasons over 112 days in the CSO monitored year 2018 increased the sediment buildup in the pipes. The built sediment was mostly flushed out to overflow (and the treatment facility) by initial rainfall during 47 h. Following CSO hydraulics and pollutant discharge follows initial peak patterns which responded to rainfall patterns. Results of Redundancy analysis and network analysis showed that the combined effects of rainfall, urbanization, and sediments as "CSO troika" are the driving forces for CSO pollutants in the long-term. The improved characterization of CSO events and the associated pollutants has refined our understanding of how overflow hydrograph and pollutant discharge responds to rainfall temporally, which methodology supported decision making in the combining source/process control with terminal management for facilizing urban resilience.
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