Optimal Implementation of Wastewater Reuse in Existing Sewerage Systems to Improve Resilience and Sustainability in Water Supply Systems

A transition from conventional centralized to hybrid decentralized systems has been increasingly advised recently due to their capability to enhance the resilience and sustainability of urban water supply systems. Reusing treated wastewater for non-potable purposes is a promising opportunity toward...

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Published in:Water (Basel) 2021-08, Vol.13 (15), p.2004
Main Authors: Dev, Aakash, Dilly, Timo C., Bakhshipour, Amin E., Dittmer, Ulrich, Bhallamudi, S. Murty
Format: Article
Language:English
Subjects:
Capital costs
Cost control
Demand
Desalination
Failure
Flow velocity
Greywater
Irrigation
Onsite
Optimization
Per capita
Population
Resilience
Sewage
Sewer systems
Sustainability
Toilet facilities
Wastewater reuse
Wastewater treatment
Water conveyance
Water reuse
Water supply
Water supply systems
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cited_by cdi_FETCH-LOGICAL-c292t-6a32ebd015f02a305501a2f3e7940664f52668bcf4ee8aa9c7d4461ad8746e903
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container_end_page
container_issue 15
container_start_page 2004
container_title Water (Basel)
container_volume 13
creator Dev, Aakash
Dilly, Timo C.
Bakhshipour, Amin E.
Dittmer, Ulrich
Bhallamudi, S. Murty
description A transition from conventional centralized to hybrid decentralized systems has been increasingly advised recently due to their capability to enhance the resilience and sustainability of urban water supply systems. Reusing treated wastewater for non-potable purposes is a promising opportunity toward the aforementioned resolutions. In this study, we present two optimization models for integrating reusing systems into existing sewerage systems to bridge the supply–demand gap in an existing water supply system. In Model-1, the supply–demand gap is bridged by introducing on-site graywater treatment and reuse, and in Model-2, the gap is bridged by decentralized wastewater treatment and reuse. The applicability of the proposed models is evaluated using two test cases: one a proof-of-concept hypothetical network and the other a near realistic network based on the sewerage network in Chennai, India. The results show that the proposed models outperform the existing approaches by achieving more than a 20% reduction in the cost of procuring water and more than a 36% reduction in the demand for freshwater through the implementation of local on-site graywater reuse for both test cases. These numbers are about 12% and 34% respectively for the implementation of decentralized wastewater treatment and reuse.
doi_str_mv 10.3390/w13152004
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subjects Capital costs
Cost control
Demand
Desalination
Failure
Flow velocity
Greywater
Irrigation
Onsite
Optimization
Per capita
Population
Resilience
Sewage
Sewer systems
Sustainability
Toilet facilities
Wastewater reuse
Wastewater treatment
Water conveyance
Water reuse
Water supply
Water supply systems
title Optimal Implementation of Wastewater Reuse in Existing Sewerage Systems to Improve Resilience and Sustainability in Water Supply Systems
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