The management of urban surface water flood risks: SUDS performance in flood reduction from extreme events
The need to improve the urban drainage network to meet recent urban growth and the redevelopment of old industrial and commercial areas provides an opportunity for managing urban surface water infrastructure in a more sustainable way. The use of sustainable urban drainage systems (SUDS) can reduce u...
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description | The need to improve the urban drainage network to meet recent urban growth and the redevelopment of old industrial and commercial areas provides an opportunity for managing urban surface water infrastructure in a more sustainable way. The use of sustainable urban drainage systems (SUDS) can reduce urban surface water flooding as well as the pollution impact of urban discharges on receiving waters. However, these techniques are not yet well known by many stakeholders involved in the decision-making process, or at least the evidence of their performance effectiveness may be doubted compared with more traditional engineering solutions often promoted by existing 1D/2D drainage models. The use of geographic information systems (GIS) in facilitating the inter-related risk analysis of sewer surface water overflows and urban flooding as well as in better communication with stakeholders is demonstrated in this paper. An innovative coupled 1D/2D urban sewer/overland flow model has been developed and tested in conjunction with a SUDS selection and location tool (SUDSLOC) to enable a robust management approach to surface water flood risks and to improve the resilience of the urban drainage infrastructure. The paper demonstrates the numerical and modelling basis of the integrated 1D/2D and SUDSLOC approach and the working assumptions and flexibility of the application together with some limitations and uncertainties. The role of the SUDSLOC modelling component in quantifying flow, and surcharge reduction benefits arising from the strategic selection and location of differing SUDS controls are also demonstrated for an extreme storm event scenario. |
doi_str_mv | 10.2166/wst.2012.537 |
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The use of geographic information systems (GIS) in facilitating the inter-related risk analysis of sewer surface water overflows and urban flooding as well as in better communication with stakeholders is demonstrated in this paper. An innovative coupled 1D/2D urban sewer/overland flow model has been developed and tested in conjunction with a SUDS selection and location tool (SUDSLOC) to enable a robust management approach to surface water flood risks and to improve the resilience of the urban drainage infrastructure. The paper demonstrates the numerical and modelling basis of the integrated 1D/2D and SUDSLOC approach and the working assumptions and flexibility of the application together with some limitations and uncertainties. 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B</creatorcontrib><title>The management of urban surface water flood risks: SUDS performance in flood reduction from extreme events</title><title>Water science and technology</title><addtitle>Water Sci Technol</addtitle><description>The need to improve the urban drainage network to meet recent urban growth and the redevelopment of old industrial and commercial areas provides an opportunity for managing urban surface water infrastructure in a more sustainable way. The use of sustainable urban drainage systems (SUDS) can reduce urban surface water flooding as well as the pollution impact of urban discharges on receiving waters. However, these techniques are not yet well known by many stakeholders involved in the decision-making process, or at least the evidence of their performance effectiveness may be doubted compared with more traditional engineering solutions often promoted by existing 1D/2D drainage models. 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B</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The management of urban surface water flood risks: SUDS performance in flood reduction from extreme events</atitle><jtitle>Water science and technology</jtitle><addtitle>Water Sci Technol</addtitle><date>2013-01-01</date><risdate>2013</risdate><volume>67</volume><issue>1</issue><spage>99</spage><epage>108</epage><pages>99-108</pages><issn>0273-1223</issn><eissn>1996-9732</eissn><coden>WSTED4</coden><abstract>The need to improve the urban drainage network to meet recent urban growth and the redevelopment of old industrial and commercial areas provides an opportunity for managing urban surface water infrastructure in a more sustainable way. The use of sustainable urban drainage systems (SUDS) can reduce urban surface water flooding as well as the pollution impact of urban discharges on receiving waters. However, these techniques are not yet well known by many stakeholders involved in the decision-making process, or at least the evidence of their performance effectiveness may be doubted compared with more traditional engineering solutions often promoted by existing 1D/2D drainage models. The use of geographic information systems (GIS) in facilitating the inter-related risk analysis of sewer surface water overflows and urban flooding as well as in better communication with stakeholders is demonstrated in this paper. An innovative coupled 1D/2D urban sewer/overland flow model has been developed and tested in conjunction with a SUDS selection and location tool (SUDSLOC) to enable a robust management approach to surface water flood risks and to improve the resilience of the urban drainage infrastructure. The paper demonstrates the numerical and modelling basis of the integrated 1D/2D and SUDSLOC approach and the working assumptions and flexibility of the application together with some limitations and uncertainties. The role of the SUDSLOC modelling component in quantifying flow, and surcharge reduction benefits arising from the strategic selection and location of differing SUDS controls are also demonstrated for an extreme storm event scenario.</abstract><cop>London</cop><pub>International Water Association</pub><pmid>23128626</pmid><doi>10.2166/wst.2012.537</doi><tpages>10</tpages></addata></record> |
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subjects | Applied sciences Communication Computer Simulation Conservation of Natural Resources Continental surface waters Decision making Drainage patterns Drainage systems Environmental impact Environmental Monitoring Environmental risk Exact sciences and technology Extreme weather Flood control Flood management Flooding Floods Geographic Information Systems Geographical information systems Information systems Infrastructure Mathematical models Modelling Models, Theoretical Natural water pollution Overland flow Pollution Receiving waters Redevelopment Remote sensing Risk Risk analysis Robustness (mathematics) Sanitary Engineering - methods Satellite navigation systems Solutions Storms Stormwater Surface water Sustainability Sustainable use Two dimensional flow Two dimensional models Urban areas Urban development Urban drainage Urban Renewal Urban sprawl Water engineering Water pollution Water supply systems Water treatment and pollution |
title | The management of urban surface water flood risks: SUDS performance in flood reduction from extreme events |
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