An evaluation of the benefits of source control measures at the regional scale

Peter J. Coombes , George Kuczera , Jetse D. Kalma , John R. Argue
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引用次数: 130

Abstract

Source control measures include rainwater tanks, infiltration trenches, grassed swales, detention basins and constructed wetlands that can be used in housing allotments and subdivisions. A methodology for evaluating the regional economic benefits due to implementation of source control measures is presented and illustrated for two case studies in the Lower Hunter and Central Coast regions of New South Wales, Australia. It is demonstrated that use of rainwater tanks to supplement mains water supply for toilet, hot water and outdoor uses can very significantly reduce demand on mains water supply. Reductions in regional water demand will enable deferment of water supply headworks augmentation, while reductions in peak mains water demand will extend the life of water supply distribution infrastructure. In addition, substantial reduction of stormwater discharge from allotments can be realised. For the Lower Hunter region with an urban population of about 450,000 it is shown that construction of new water supply headworks infrastructure can be delayed by up to 34 years. Compared with the traditional provision of mains water and stormwater disposal, the use of rainwater tanks along with other source control measures can produce present worth savings to the Lower Hunter region conservatively estimated to be up to $67 million. Similar results were found for the Central Coast region.

在区域尺度上对污染源控制措施的效益进行评价
源头控制措施包括雨水罐、渗透沟、草沟、蓄水池和人工湿地,可用于住房分配和细分。在澳大利亚新南威尔士州的下亨特和中央海岸地区的两个案例研究中,提出并说明了一种评估由于实施源控制措施而产生的区域经济效益的方法。研究结果显示,利用雨水池补充厕所、热水及户外用水的主供水,可大大减少对主供水的需求。减少区域用水需求,可推迟增加供水水头工程,而减少最高总用水需求,则可延长供水配水基础设施的使用寿命。此外,可大幅减少分配的雨水排放量。对于城市人口约为45万的下亨特地区,研究表明,新的供水水头基础设施的建设可能会推迟长达34年。与传统的供应总水管及排放雨水相比,采用雨水池及其他源头管制措施,保守估计可为下亨特地区节省高达六千七百万元的现价。在中部海岸地区也发现了类似的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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