REVIEW ON EFFECT OF URBAN WASTEWATER TREATMENT PLANT EFFLUENT ON RECEIVING WATER

SHEN Jie; JIN Wei

doi:10.13205/j.hjgc.202003016

Volume 38 Issue 3

Jun. 2020

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SHEN Jie, JIN Wei. REVIEW ON EFFECT OF URBAN WASTEWATER TREATMENT PLANT EFFLUENT ON RECEIVING WATER[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(3): 92-98,115. doi: 10.13205/j.hjgc.202003016

Citation:

SHEN Jie, JIN Wei. REVIEW ON EFFECT OF URBAN WASTEWATER TREATMENT PLANT EFFLUENT ON RECEIVING WATER[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(3): 92-98,115. doi: 10.13205/j.hjgc.202003016

SHEN Jie, JIN Wei. REVIEW ON EFFECT OF URBAN WASTEWATER TREATMENT PLANT EFFLUENT ON RECEIVING WATER[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(3): 92-98,115. doi: 10.13205/j.hjgc.202003016

Citation:

SHEN Jie, JIN Wei. REVIEW ON EFFECT OF URBAN WASTEWATER TREATMENT PLANT EFFLUENT ON RECEIVING WATER[J]. ENVIRONMENTAL ENGINEERING , 2020, 38(3): 92-98,115. doi: 10.13205/j.hjgc.202003016

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REVIEW ON EFFECT OF URBAN WASTEWATER TREATMENT PLANT EFFLUENT ON RECEIVING WATER

doi: 10.13205/j.hjgc.202003016

SHEN Jie¹,
JIN Wei^1,2,3,4

1. College of Environmental Science and Engineering, Tongji University, Shanghai 200092, China;
2. State Key Laboratory of Pollution Control and Resources Reuse, Tongji University, Shanghai 200092, China;
3. Key Laboratory of Yangtze River Water Environment, Ministry of Education, Tongji University, Shanghai 200092, China;
4. Shanghai Institute of Pollution Control and Ecological Security, Shanghai 200092, China

Received Date: 2019-07-04

Abstract

Abstract

As a potential pollution source of urban receiving water, the impact of effluent from wastewater treatment plant (WWTP) on aquatic environment should not be ignored. The overall research on the influence of WWTP tail water on urban rivers is of great significance to the protection of urban water environment. The paper presented the current situation of WWTP effluent and urban water environment in China, and elaborated the research on the influence of effluent on the water home and abroad, mainly concerning nutrient loads and hydrodynamic model as well as benthic microbial community, especially functional bacteria. Several recommendations for future research were also proposed according to the actual situation in China.
- wastewater treatment plant,
- effluent/discharge,
- reclaimed water,
- receiving water,
- nutrients,
- microbial community

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References(53)

References

CAREY R O, MIGLIACCIO K W. Contribution of wastewater treatment plant effluents to nutrient dynamics in aquatic systems:a review[J]. Environmental management, 2009,44(2):205-217.

XU Z X, XU J, YIN H L, et al. Urban river pollution control in developing countries[J]. Nature Sustainability, 2019,2(3):158-160.

关伟, 郭会平, 赵学洋, 等. 我国城市污水处理现状及城市污水处理厂提标改造路径分析[J]. 辽宁大学学报(自然科学版), 2015,42(4):378-384.

RAHM B G, HILL N B, SHAW S B, et al. Nitrate dynamics in two streams impacted by wastewater treatment plant discharge:point sources or sinks?[J]. Journal of the American Water Resources Association, 2016,52(3):592-604.

PRICE J R, LEDFORD S H, RYAN M O, et al. Wastewater treatment plant effluent introduces recoverable shifts in microbial community composition in receiving streams[J]. Science of the Total Environment, 2018,613/614:1104-1116.

HUR J, SCHLAUTMAN M A, KARANFIL T, et al. Influence of drought and municipal sewage effluents on the baseflow water chemistry of an upper piedmont river[J]. Environmental Monitoring and Assessment, 2007,132(1/2/3):171-187.

MULHOLLAND P J, HELTON A M, POOLE G C, et al. Stream denitrification across biomes and its response to anthropogenic nitrate loading[J]. Nature, 2008,452(7184):202-205.

BRION N, BILLEN G. Wastewater as a source of nitrifying bacteria in river systems:the case of the river Seine downstream from paris[J]. Water Research, 2000,34(12):3213-3221.

MONTUELLE B, VOLAT B, TORIO-FERNANDEZ M M, et al. Changes in nitrobacter serotypes biodiversity in a river:impact of a wastewater treatment plant discharge[J]. Water Research, 1996,30(5):1057-1064.

MARGOT J, ROSSI L, BARRY D A, et al. A review of the fate of micropollutants in wastewater treatment plants[J]. Wiley Interdisciplinary Reviews:Water, 2015,2(5):457-487.

TRAN N H, REINHARD M, GIN K Y. Occurrence and fate of emerging contaminants in municipal wastewater treatment plants from different geographical regions-a review[J]. Water Research, 2018,133:182-207.

LUO Y L, GUO W S, NGO H H, et al. A review on the occurrence of micropollutants in the aquatic environment and their fate and removal during wastewater treatment[J]. Science of The Total Environment, 2014,473/474:619-641.

徐祖信, 张辰, 李怀正. 我国城市河流黑臭问题分类与系统化治理实践[J]. 给水排水, 2018,44(10):1-5

,39.

赵越, 姚瑞华, 徐敏, 等. 我国城市黑臭水体治理实践及思路探讨[J]. 环境保护, 2015,43(13):27-29.

HAGGARD B E, STANLEY E H, STORM D E. Nutrient retention in a point-source-enriched stream[J]. Journal of the North American Benthological Society, 2005,24(1):29-47.

MERSEBURGER G, MARTI E, SABATER F. Net changes in nutrient concentrations below a point source input in two streams draining catchments with contrasting land uses[J]. Science of The Total Environment, 2005,347(1/2/3):217-229.

CARPENTER S R, CARACO N F, CORRELL D L, et al. Nonpoint pollution of surface waters with phosphorus and nitrogen[J]. Ecological Applications, 1998,8(3):559-568.

CARBALLA M, OMIL F, LEMA J M. Removal of cosmetic ingredients and pharmaceuticals in sewage primary treatment[J]. Water Research, 2005, 39(19):4790-4796.

GÓMEZ M J, HERRERA S, SOLÉ D, et al. Spatio-temporal evaluation of organic contaminants and their transformation products along a river basin affected by urban, agricultural and industrial pollution[J]. Science of The Total Environment, 2012, 420:134-145.

姜磊, 涂月, 李向敏, 等. 污水回收再利用现状及发展趋势[J]. 净水技术, 2018,37(9):60-66

,72.

刘晓静. 城市污水处理厂尾水回用于景观水体的试验研究[D]. 青岛:青岛理工大学, 2014.

冯萃敏, 李莹, 张雅君, 等. 以再生水为水源的封闭景观水体营养状态分析[J]. 天津大学学报, 2010,43(8):727-732.

魏东斌, 胡洪营. 污水再生回用的水质安全指标体系[J]. 中国给水排水, 2004,20(1):36-39.

EKKA S A, HAGGARD B E, MATLOCK M D, et al. Dissolved phosphorus concentrations and sediment interactions in effluent-dominated Ozark streams[J]. Ecological Engineering, 2006,26(4):375-391.

MIGLLACCIO K W. Linking watershed subbasin characteristics to water quality parameters in war Eagle Creek Watershed[J]. Transactions of the ASABE, 2007,50(6):2007-2016.

SMITH V H. Eutrophication of freshwater and coastal marine ecosystems:a global problem[J]. Environmental Science and Pollution Research, 2003,10(2):126-139.

ENSIGN S H, DOYLE M W. Nutrient spiraling in streams and river networks[J]. Journal of Geophysical Research:Biogeosciences, 2006,111(G4).

MERRSEBURGER G, MARTI E, SABATER F, et al. Point-source effects on N and P uptake in a forested and an agricultural Mediterranean streams[J]. Science of the Total Environment, 2011,409(5):957-967.

ANDERSEN C B, LEWIS G P, HART M, et al. The impact of wastewater treatment effluent on the biogeochemistry of the Enoree River, South Carolina, during drought conditions[J]. Water, Air, and Soil Pollution, 2014,225(5):1955.1-1955.21.

Sabater S, Barceló D. Water Scarcity in the Mediterranean Perspectives Under Global Change Series:The Handbook of Environmental Chemistry, Vol. 8[M].Heidelberg:Springer,2010.

LOFTON D D, HERSHEY A E, WHALEN S C. Evaluation of denitrification in an urban stream receiving wastewater effluent[J]. Biogeochemistry, 2007,86(1):77-90.

GIBSON C A, MEYER J L. Nutrient uptake in a large urban river1[J]. Journal of the American Water Resources Association, 2007,43(3):576-587.

LEWIS D B, GRIMM N B. Hierarchical regulation of nitrogen export from urban catchments:interactions of storms and landscapes[J]. Ecol Appl, 2007,17(8):2347-2364.

OELSNER G P, BROOKS P D, HOGAN J F. Nitrogen sources and sinks within the middle Rio Grande, New Mexico1[J]. Journal of the American Water Resources Association, 2007,43(4):850-863.

GIBSON C A, O'REILLY C M, CONINE A L, et al. Nutrient uptake dynamics across a gradient of nutrient concentrations and ratios at the landscape scale[J]. Journal of Geophysical Research:Biogeosciences, 2015,120(2):326-340.

Davis J C, Minshall G W. Nitrogen and phosphorus uptake in two idaho (USA) Headwater Wilderness streams[J]. Oecologia, 1999,119(2):247-255.

FINKLER N R, TROMBONI F, BOECHAT I, et al. Nitrogen and phosphorus uptake dynamics in tropical Cerrado Woodland streams[J]. Water, 2018,10(8):1080.

汪锋,钱庄,张周,等. 污水处理厂尾水对排放河道水质的影响[J]. 安徽农业科学,2016,44(14):65-68.

BACKHAUS T, KARLSSON M. Screening level mixture risk assessment of pharmaceuticals in STP effluents[J]. Water Research, 2014,49(1):157-165.

BOEHLER M, ZWICKENPFLUG B, HOLLENDER J, et al. Removal of micropollutants in municipal wastewater treatment plants by powder-activated carbon[J]. Water Science and Technology, 2012,66(10):2115-2121.

EGGEN R I L, HOLLENDER J, JOSS A, et al. Reducing the discharge of micropollutants in the aquatic environment:the benefits of upgrading wastewater treatment plants[J]. Environmental Science & Technology, 2014,48(14):7683-7689.

BUNZEL K, KATTWINKEL M, LIESS M. Effects of organic pollutants from wastewater treatment plants on aquatic invertebrate communities[J]. Water Research, 2013,47(2):597-606.

HEEB F, SINGER H, PERNET-COUNDRIER B, et al. Organic micropollutants in rivers downstream of the megacity Beijing: sources and mass fluxes in a large-scale wastewater irrigation system[J]. Environmental Science & Technology, 2012,46(16):8680-8688.

PALMER M A, BERNHARDT E S, ALLAN J D, et al. Standards for ecologically successful river restoration[J]. Journal of Applied Ecology, 2005,42(2):208-217.

DRURY B, ROSI-MARSHALL E, KELLY J J. Wastewater treatment effluent reduces the abundance and diversity of benthic bacterial communities in urban and suburban rivers[J]. Applied and Environmental Microbiology, 2013,79(6):1897-1905.

GARCÍA-ARMISEN T, INCEOGLU Ö, OUATTARA N K, et al. Seasonal variations and resilience of bacterial communities in a sewage polluted urban river[J]. PLoS One, 2014,9(3):e92579.

WAKELIN S A, COLLOFF M J, KOOKANA R S. Effect of wastewater treatment plant effluent on microbial function and community structure in the sediment of a freshwater stream with variable seasonal flow[J]. Appl Environ Microbiol, 2008,74(9):2659-2668.

ROMERO F, SABATER S, FONT C, et al. Desiccation events change the microbial response to gradients of wastewater effluent pollution[J]. Water Research, 2019,151:371-380.

WANG J, LI Y, WANG P, et al. Response of bacterial community compositions to different sources of pollutants in sediments of a tributary of Taihu Lake, China[J]. Environmental Science and Pollution Research, 2016,23(14):13886-13894.

黄忠廉, 黄静水, 谢如意, 等. 基于水质模型的城市河流代谢特征受外源输入的影响[J]. 净水技术, 2019,38(1):98-108.

雷一帆, 姜彬彬, 陈豪. 感潮河段污水处理厂尾水对受纳水体的水质影响研究[J]. 环境科学与管理, 2018,43(1):58-62.

樊乔铭, 丁志斌. 基于EFDC的港口污水处理厂排放标准及排污口选划研究[J]. 环境工程, 2016,34(12):147-152.

杜娟娟, 李兰, 陈攀. 古龙港污水处理厂尾水排放对长江水质影响预测[J]. 人民长江, 2013,44(增刊1):139-143.

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