A Multimedia Hydrological Fate Modeling Framework To Assess Water Consumption Impacts in Life Cycle Assessment

A Multimedia Hydrological Fate Modeling Framework To Assess Water Consumption Impacts in Life Cycle Assessment

Many new methods have recently been developed to address environmental consequences of water consumption in life cycle assessment (LCA). However, such methods can only partially be compared and combined, because their modeling structure and metrics are inconsistent. Moreover, they focus on specific...

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Bibliographic Details
Published in:Environmental science & technology Vol. 52; no. 8; pp. 4658 - 4667
Main Authors: Núñez, Montserrat, Rosenbaum, Ralph K, Karimpour, Shooka, Boulay, Anne-Marie, Lathuillière, Michael J, Margni, Manuele, Scherer, Laura, Verones, Francesca, Pfister, Stephan
Format: Journal Article
Language:English
Published: United States American Chemical Society 17-04-2018
Subjects:
Atmospheric circulation
Atmospheric models
Compartments
Environmental health
Environmental impact
Environmental Sciences
Evaporation
Guidelines
Hydrologic cycle
Hydrology
Life cycle analysis
Life cycle assessment
Life cycle engineering
Life cycles
Multimedia
Natural resources
Rivers
Water
Water consumption
MODELISATION
life cycle analysis
hydrology
HYDROLOGIE
water consumption
ANALYSE DU CYCLE DE VIE
ecosystems
environmental impact
CONSOMMATION D'EAU
ECOSYSTEME
IMPACT SUR L'ENVIRONNEMENT
modelling
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Summary:Many new methods have recently been developed to address environmental consequences of water consumption in life cycle assessment (LCA). However, such methods can only partially be compared and combined, because their modeling structure and metrics are inconsistent. Moreover, they focus on specific water sources (e.g., river) and miss description of transport flows between water compartments (e.g., from river to atmosphere via evaporation) and regions (e.g., atmospheric advection). Consequently, they provide a partial regard of the local and global hydrological cycle and derived impacts on the environment. This paper proposes consensus-based guidelines for a harmonized development of the next generation of water consumption LCA indicators, with a focus on consequences of water consumption on ecosystem quality. To include the consideration of the multimedia water fate between compartments of the water cycle, we provide spatial regionalization and temporal specification guidance. The principles and recommendations of the paper are applied to an illustrative case study. The guidelines set the basis of a more accurate, novel way of modeling water consumption impacts in LCA. The environmental relevance of this LCA impact category will improve, yet much research is needed to make the guidelines operational.
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ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.7b05207