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Abstract
Household rainwater tanks form part of an integrated urban water cycle management system, which is a key aspect of the water sensitive urban design philosophy. They provide scope for harvesting rainwater for domestic uses, as well as mitigating the impacts of urbanisation on catchment runoff. This paper describes the development and application of a computer simulation model for the operation of a household rainwater tank. The model uses daily rainfall and consumption data to simulate the operation of the rainwater tank. The simulation model has been applied to a hypothetical household and rainwater tank system using daily rainfall data for 12 cities throughout Australia. The study indicates that the unit cost of supplying rainwater to a household from a rainwater tank increases as the consumption rate decreases. An economic optimum size rainwater tank, based on the minimum unit cost of rainwater supplied can be determined for any water consumption scenario. The climate characteristics of the site are shown to have a significant influence on the hydrologic effectiveness of the rainwater tank system. The study has shown that the yield of rainwater from the tank is a function of the monthly variation in rainfall, defined by the seasonality index, the median annual rainfall and the tank volume. This may have significant consequences on the suitability of rainwater tanks in terms of potential effects of climate change.
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G A Jenkins
Graham Jenkins is an engineer with over 10 years of para-professional and professional experience in the water engineering industry and 20 years of academic experience. Graham graduated from the University of Newcastle NSW with a BE (Hons 1) in Civil Engineering in 1983 and from Monash University with a PhD in 1990. His research background is in the modelling of natural and urban water systems, including the hydrology of urban catchments, and the hydraulics and pollutant treatment processes of natural and artificial drainage systems. While at Griffith University, Graham was a researcher in the Cooperative Research Centre for Catchment Hydrology, and was one of the development team of the MUSIC (Model for Urban Stormwater Improvement and Conceptualisation) software, which simulates the generation, transport and treatment of pollutants in urban catchments. Graham is currently a senior lecturer in the Faculty of Engineering and Industrial Sciences at Swinburne University of Technology.