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Decision-Making and Sustainable Drainage: Design and Scale

Author

Listed:
  • Susanne Charlesworth

    (Centre for Agroecology, Water and Resilience, Sustainable Drainage Research, Coventry University, Priory Street, Coventry CV1 5LW, UK)

  • Frank Warwick

    (Faculty of Engineering, Environment and Computing, Coventry University, Priory Street, Coventry CV1 5LW, UK)

  • Craig Lashford

    (Faculty of Engineering, Environment and Computing, Coventry University, Priory Street, Coventry CV1 5LW, UK)

Abstract

Sustainable Drainage (SuDS) improves water quality, reduces runoff water quantity, increases amenity and biodiversity benefits, and can also mitigate and adapt to climate change. However, an optimal solution has to be designed to be fit for purpose. Most research concentrates on individual devices, but the focus of this paper is on a full management train, showing the scale-related decision-making process in its design with reference to the city of Coventry, a local government authority in central England. It illustrates this with a large scale site-specific model which identifies the SuDS devices suitable for the area and also at the smaller scale, in order to achieve greenfield runoff rates. A method to create a series of maps using geographical information is shown, to indicate feasible locations for SuDS devices across the local government authority area. Applying the larger scale maps, a management train was designed for a smaller-scale regeneration site using MicroDrainage ® software to control runoff at greenfield rates. The generated maps were constructed to provide initial guidance to local government on suitable SuDS at individual sites in a planning area. At all scales, the decision about which device to select was complex and influenced by a range of factors, with slightly different problems encountered. There was overall agreement between large and small scale models.

Suggested Citation

  • Susanne Charlesworth & Frank Warwick & Craig Lashford, 2016. "Decision-Making and Sustainable Drainage: Design and Scale," Sustainability, MDPI, vol. 8(8), pages 1-11, August.
  • Handle: RePEc:gam:jsusta:v:8:y:2016:i:8:p:782-:d:75723
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    References listed on IDEAS

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    4. Carsten Dierkes & Terry Lucke & Brigitte Helmreich, 2015. "General Technical Approvals for Decentralised Sustainable Urban Drainage Systems (SUDS)—The Current Situation in Germany," Sustainability, MDPI, vol. 7(3), pages 1-21, March.
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    Cited by:

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    2. Sara Lucía Jiménez Ariza & José Alejandro Martínez & Andrés Felipe Muñoz & Juan Pablo Quijano & Juan Pablo Rodríguez & Luis Alejandro Camacho & Mario Díaz-Granados, 2019. "A Multicriteria Planning Framework to Locate and Select Sustainable Urban Drainage Systems (SUDS) in Consolidated Urban Areas," Sustainability, MDPI, vol. 11(8), pages 1-33, April.
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    4. Giulio Senes & Paolo Stefano Ferrario & Gianpaolo Cirone & Natalia Fumagalli & Paolo Frattini & Giovanna Sacchi & Giorgio Valè, 2021. "Nature-Based Solutions for Storm Water Management—Creation of a Green Infrastructure Suitability Map as a Tool for Land-Use Planning at the Municipal Level in the Province of Monza-Brianza (Italy)," Sustainability, MDPI, vol. 13(11), pages 1-18, May.
    5. Elisabeth A. Shrimpton & Dexter Hunt & Chris D.F. Rogers, 2021. "Justice in (English) Water Infrastructure: A Systematic Review," Sustainability, MDPI, vol. 13(6), pages 1-18, March.
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    7. Andrea Nóblega Carriquiry & David Sauri & Hug March, 2020. "Community Involvement in the Implementation of Sustainable Urban Drainage Systems (SUDSs): The Case of Bon Pastor, Barcelona," Sustainability, MDPI, vol. 12(2), pages 1-19, January.

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