Effect of different water management strategies on water and contaminant fluxes in Doncaster, United Kingdom

In Europe, large volumes of public water supply come from urban aquifers and so efficient urban water management and decision tools are essential to maintain quality of life both in terms of health, personal freedom and environment. In the United Kingdom, this issue gained increased importance with...

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Bibliographic Details
Published in:Water science and technology 2005-01, Vol.52 (9), p.115-123
Main Authors: Rueedi, J, Cronin, A A, Moon, B, Wolf, L, Hoetzl, H
Format: Article
Language:English
Subjects:
Acceptance tests
Aquifers
Contaminants
England
Environmental Monitoring
Fluxes
Freshwater
Greywater
Groundwater
Groundwater recharge
Heavy metals
Humans
Infiltration
Infiltration rate
Laundry
Metal concentrations
Metals
Metals, Heavy - analysis
Permeability
Public waters
Quality Control
Quality of life
Replenishment
Sewage
Sewerage
Social Conditions
Soil Pollutants - analysis
Solutes
Storms
Stormwater
Urban areas
Volume transport
Waste Disposal, Fluid
Water consumption
Water conveyance
Water management
Water Pollutants - analysis
Water pollution
Water quality
Water resources
Water shortages
Water Supply
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Summary:In Europe, large volumes of public water supply come from urban aquifers and so efficient urban water management and decision tools are essential to maintain quality of life both in terms of health, personal freedom and environment. In the United Kingdom, this issue gained increased importance with the last year's low volumes of groundwater replenishment that resulted in increased water shortages all over the country. An urban water volume and quality model (UVQ) was applied to a suburb of Doncaster (United Kingdom) to assess the current water supply system and to compare it with new potential scenarios of water management. The initial results show considerable changes in both water and solute fluxes for some scenarios and rather limited changes for others. Changing impermeable roads and paved areas to permeable areas, for example, would lead to higher infiltration rates that may be welcome from a water resources viewpoint but less so from a water quality point of view due to high concentrations of heavy metals. The biggest impact on water quality and quantity leaving the system through sewer, storm water and infiltration system was clearly obtained by re-using grey water from kitchen, bathroom and laundry for irrigation and toilet flush. The testing of this strategy led to lower volumes and higher concentrations of sewerage, a considerable decrease in water consumption and an increase in groundwater recharge. The scenarios were tested neither in terms of costs nor social acceptance for either water supplier or user.
ISSN:0273-1223
1996-9732
DOI:10.2166/wst.2005.0300