Abstract
Urban water management will face various challenges in the future. Growing population in cities, changing climatic conditions and uncertain availability of water resources necessitate forward-looking water policy strategies. In this paper, we introduce a new water balance model to evaluate urban water strategies at a city scale. The aim is to evaluate decentralised water management measures within a large-scale investigation and to reduce external potable water demand. The upscaling process of local information (water demand, areal data) to a conceptual model approach is described. The modelling approach requires simplification of detailed processes to enable the execution with limited computing capacity. The model was applied to Greater Metropolitan Melbourne, Australia, a highly sprawled city with nearly four million inhabitants. Scenario analysis demonstrated the impact of using different water resources of different quality classes, the extensive implementation of water saving appliances and decentralised water storage strategies on the city’s water balance. Results indicate a potential reduction of potable water demand of up to 25% with a conservative rainwater reuse and, even 60% with widespread implementation of rain- and greywater recycling. Furthermore, we demonstrate that even small systems implemented at a local level can have noticeable effects when operated as clustered schemes.
Highlights
Population growth, changing climatic conditions and water supply security challenge water supply systems today and in the future [1,2,3]
Besides the approaches focusing on water cycle, conceptual frameworks discussing a wider spectrum of the urban water management towards water sensitive urban design [17] are available
This paper presents a novel water balance model (WBM), which is based on a conceptual approach and aims to provide an overview of an entire city’s temporal and spatially variable water balance
Summary
Population growth, changing climatic conditions and water supply security challenge water supply systems today and in the future [1,2,3]. Previous work was focussed on a very detailed and dedicated representation of the processes within the urban water cycle [16] This includes decentralised rainwater management measures, water demand estimations at household level (appliances) and approaches to simulate local water balances at a high resolution. Besides the approaches focusing on water cycle, conceptual frameworks discussing a wider spectrum of the urban water management towards water sensitive urban design [17] are available. These integrated frameworks and models deal with energetic, social and socio-economic issues (e.g., Urban Metabolism [18], DAnCE4Water [19], and WaterMet2 [20])
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