Anne‐Marie Boulay scite author profile

Life cycle assessment (LCA) is a methodology that quantifies potential environmental impacts for comparative purposes in a decision-making context. While potential environmental impacts from pollutant emissions into water are characterized in LCA, impacts from water unavailability are not yet fully quantified. Water use can make the resource unavailable to other users by displacement or quality degradation. A reduction in water availability to human users can potentially affect human health. If financial resources are available, there can be adaptations that may, in turn, shift the environmental burdens to other life cycle stages and impact categories. This paper proposes a model to evaluate these potential impacts in an LCA context. It considers the water that is withdrawn and released, its quality and scarcity in order to evaluate the loss of functionality associated with water uses. Regionalized results are presented for impacts on human health for two modeling approaches regarding affected users, including or not domestic uses, and expressed in disability-adjusted life years (DALY). A consumption and quality based scarcity indicator is also proposed as a midpoint. An illustrative example is presented for the production of corrugated board with different effluents, demonstrating the importance of considering quality, process effluents and the difference between the modeling approaches.

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Review of methods addressing freshwater use in life cycle inventory and impact assessment

Kounina

Margni

Bayart

et al. 2012

Int J Life Cycle Assess

290

175

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Purpose In recent years, several methods have been developed which propose different freshwater use inventory schemes and impact assessment characterization models considering various cause-effect chain relationships. This work reviewed a multitude of methods and indicators for freshwater use potentially applicable in life cycle assessment (LCA). This review is used as a basis to identify the key elements to build a scientific consensus for operational characterization methods for LCA. Methods This evaluation builds on the criteria and procedure developed within the International Reference Life -012-0519-3 Cycle Data System Handbook and has been adapted for the purpose of this project. It therefore includes (1) description of relevant cause-effect chains, (2) definition of criteria to evaluate the existing methods, (3) development of subcriteria specific to freshwater use, and (4) description and review of existing methods addressing freshwater in LCA. Results and discussion No single method is available which comprehensively describes all potential impacts derived from freshwater use. However, this review highlights several key findings to design a characterization method encompassing all the impact pathways of the assessment of freshwater use and consumption in life cycle assessment framework as the following: (1) in most of databases and methods, consistent freshwater balances are not reported either because output is not considered or because polluted freshwater is recalculated based on a critical dilution approach; (2) at the midpoint level, most methods are related to water scarcity index and correspond to the methodological choice of an indicator simplified in terms of the number of parameters (scarcity) and freshwater uses (freshwater consumption or freshwater withdrawal) considered. More comprehensive scarcity indices distinguish different freshwater types and functionalities. (3) At the endpoint level, several methods already exist which report results in units compatible with traditional human health and ecosystem quality damage and cover various cause-effect chains, e.g., the decrease of terrestrial biodiversity due to freshwater consumption. (4) Midpoint and endpoint indicators have various levels of spatial differentiation, i.e., generic factors with no differentiation at all, or country, watershed, and grid cell differentiation. Conclusions Existing databases should be (1) completed with input and output freshwater flow differentiated according to water types based on its origin (surface water, groundwater, and precipitation water stored as soil moisture), (2) regionalized, and (3) if possible, characterized with a set of quality parameters. The assessment of impacts related to freshwater use is possible by assembling methods in a comprehensive methodology to characterize each use adequately.Int J Life Cycle Assess (2013) 18:707-721 DOI 10.1007/s11367

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IMPACT World+: a globally regionalized life cycle impact assessment method

Bulle

Margni

Patouillard

et al. 2019

Int J Life Cycle Assess

353

155

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Life Cycle Impact Assessment

Rosenbaum

Hauschild

Boulay

et al. 2017

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This chapter is dedicated to the third phase of an LCA study, the Life U N C O R R E C T E D P R O O F 24Learning Objectives 25After studying this chapter, the reader should be able to: 26• Explain and discuss the process and main purposes of the LCIA phase of an 27LCA study. 28• Distinguish and explain the mandatory and optional steps according to inter-29 national standards for LCA. 30• Differentiate and describe each of the impact categories applied in LCIA 31 regarding: 32-the underlying environmental problem. 33-the environmental mechanism and its fundamental modelling principles. 34-the main anthropogenic sources causing the problem. 35-the main methods used in LCIA. and factors, and to accessibly explain (1) its main purpose and characteristics, 49(2) the mandatory and optional steps according to ISO and (3) the meaning and 50 handling of each impact category. While this chapter is a pedagogical and focused 51 introduction into the complex and broad aspects of LCIA, a more profound and

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