An Integrated Framework for Assessment of Hybrid Water Supply Systems
Views
0% 0
Downloads
0 0%
Open access
Citation
Mukta Sapkota, Meenakshi Arora, Hector Malano, Magnus Moglia, Ashok Sharma, Biju Alummoottil George, Francis Pamminger. (21/12/2016). An Integrated Framework for Assessment of Hybrid Water Supply Systems. WATER, 8 (1), pp. 1-19.
Abstract
Urban water managers around the world are adopting decentralized water supply
systems, often in combination with centralized systems. While increasing demand for water
arising from population growth is one of the primary reasons for this increased adoption of
alternative technologies, factors such as climate change, increased frequency of extreme weather
events and rapid urbanization also contribute to an increased rate of adoption of these technologies.
This combination of centralized-decentralized water systems approach is referred to as “hybrid
water supply systems” and is based on the premise that the provision of alternative water sources
at local scales can both extend the capacity of existing centralized water supply infrastructures,
and improve resilience to variable climatic conditions. It is important to understand, however,
that decentralized water production and reuse may change the flow and composition of wastewater
and stormwater, thereby potentially also having negative impacts on its effectiveness and
performance. This paper describes a framework to assess the interactions between decentralized
water supply systems and existing centralized water servicing approaches using several analytical
tools, including water balance modelling, contaminant balance modelling and multi-criteria
decision analysis. The framework enables the evaluation of impacts due to change in quantity
and quality of wastewater and stormwater on the existing centralized system arising from the
implementation of hybrid water supply systems. The framework consists of two parts: (1) Physical
system analysis for various potential scenarios and (2) Ranking of Scenarios. This paper includes the
demonstration of the first part of the framework for an area of Melbourne, Australia by comparing
centralized water supply scenario with a combination of centralized water supply and reuse of
treated waste water supply scenario.
Permanent link
Other URI
AGROVOC Keyword(s)
Author(s) ORCID(s)
George, Biju Alummoottil https://orcid.org/0000-0002-8427-3350