2015
DOI: 10.1016/j.watres.2015.03.006
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Life cycle assessment of urban wastewater systems: Quantifying the relative contribution of sewer systems

Abstract: This study aims to propose a holistic, life cycle assessment (LCA) of urban wastewater systems (UWS) based on a comprehensive inventory including detailed construction and operation of sewer systems and wastewater treatment plants (WWTPs). For the first time, the inventory of sewers infrastructure construction includes piping materials and aggregates, manholes, connections, civil works and road rehabilitation. The operation stage comprises energy consumption in pumping stations together with air emissions of m… Show more

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Cited by 105 publications
(63 citation statements)
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References 34 publications
(49 reference statements)
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“…As discussed in the introduction, currently-used wastewater transport systems bear a substantial (perhaps the largest) share of environmental impact in UWSs [3,9]. In addition, traditional wastewater management is based on a disadvantageous approach, since its operation depends on high water usage and excessive waste dilution.…”
Section: Sustainable Wastewater Collection and Transportmentioning
confidence: 99%
See 1 more Smart Citation
“…As discussed in the introduction, currently-used wastewater transport systems bear a substantial (perhaps the largest) share of environmental impact in UWSs [3,9]. In addition, traditional wastewater management is based on a disadvantageous approach, since its operation depends on high water usage and excessive waste dilution.…”
Section: Sustainable Wastewater Collection and Transportmentioning
confidence: 99%
“…Risch et al [3] conducted a life cycle assessment (LCA) of conventional (gravity) urban wastewater systems (UWS) based on a detailed components inventory, including construction and operation of both sewers and wastewater treatment plants (WWTPs).…”
Section: Introductionmentioning
confidence: 99%
“…This is evident in numerous studies of water supply and transport systems, including Godskesen et al [9], where the LCA approach was applied to evaluate three different water supply systems of the water sector in Copenhagen, Denmark, to evaluate the environmental impacts of each process involved; Del Borghi et al [10], providing the analysis of potable water supply service in Sicily, Italy; Barjoveanu et al [11], analysing the water services system in Iasi City (Romania) to demonstrate the usefulness of the LCA approach as a support tool for water resources management; and Sambito et al [12], integrating the LCA approach with an analysis of the system energy and water balance in a water supply system. Other studies focused on urban drainage systems [13,14] and treatment plants [14,15]. More complete studies, like Jeong et al [16], proposed an exhaustive analysis on environmental and human health impacts related to the integrated urban water cycle.…”
Section: Introductionmentioning
confidence: 99%
“…This emission of greenhouse gases also depends on the electricity generation system adopted in the country [6] and is lower in Brazil, considering the percentage of 74.6% of renewable energy in its energy matrix [7]. These impacts have been measured by methodologies such as life cycle assessment (LCA) [8], a tool standardized by ISO 14044, which has become a reference in the environmental performance analysis of the processes [9] Understanding and quantifying the energy use with water is crucial to the sustainable use of resources through efficient models, technology, better management, and appropriate choices for each project. Although energy and water policies are presented separately, their integration is necessary, since decisions taken on water affect the energy consumption [10].…”
Section: Introductionmentioning
confidence: 99%