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The International Journal of Life Cycle Assessment
Erschienen in: The International Journal of Life Cycle Assessment 7/2011

01.08.2011 | WATER USE IN LCA

Categorizing water for LCA inventory

verfasst von: Anne-Marie Boulay, Christian Bouchard, Cecile Bulle, Louise Deschênes, Manuele Margni

Erschienen in: The International Journal of Life Cycle Assessment | Ausgabe 7/2011

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Abstract

Purpose

As impact assessment methods for water use in LCA evolve, so must inventory methods. Water categories that consider water quality must be defined within life cycle inventory. The method presented here aims to establish water categories by source, quality parameter and user.

Materials and methods

Water users were first identified based on their water quality requirements. A list of parameters was then defined, and thresholds for these parameters were determined for each user. The thresholds were based on international standards, country regulations, recommendations and industry standards. Three different water sources were selected: surface water (including seawater), groundwater and rainwater. Based on the quality and water sources, categories were created by grouping user requirements according to the level of microbial or toxic contamination that the user can tolerate (high, medium or low).

Results and discussion

Seventeen water categories were created: eight for surface water, eight for groundwater and one for rainwater. Each category was defined according to 136 quality parameters (11 conventional parameters, 38 specific inorganic contaminants and 87 specific organic contaminants) and the users for which it can be of use.

Conclusions

A set of elementary flows is proposed in order to support a water inventory method oriented towards functionality. This can be used to assess potential water use impacts caused by a loss of functionality for human users.
Vorheriger Artikel LCA of the timber sector in Ghana: preliminary life cycle impact assessment (LCIA)
Nächster Artikel Life cycle impact assessment and interpretation of municipal solid waste management scenarios based on the midpoint and endpoint approaches

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Literatur
APHA AWWA and WEF (1998) Standard methods for the examination of water and wastewater. 20th Edition, American Public Health Association (APHA), American Water Works Association (AWWA) & Water Environment Federation (WEF)
Ayers RS, Westcot DW (1985) Water quality for agriculture. Food and Agriculture Organization of the United Nations, Rome
Bayart J-B, Margni M et al (2010) Framework for assessment of off-stream freshwater use within LCA. Int J Life Cycle Assess 15(5):439CrossRef
Boulay A-M, Bulle C et al (2011) LCA characterization of freshwater use on human health. Environ Sci Technol (under review)
Charlson RJ, Rodhe H (1982) Factors controlling the acidity of natural rainwater. Nature 295:3CrossRef
Crittenden JC, Trussell RR, Hand DW, Howe KJ, Tchobanoglous G (2005) Water treatment principles and design, MWH. Wiley, New Jersey
EEC (1975) Council Directive of 16 June 1975 concerning the quality required of surface water intended for the abstraction of drinking water in the Member States. 75/440/EEC. European Economic Community. OJ No L 194:26
Enderlein SU, Enderlein ER et al (1997) In: Helmer R, Hespanhol I (eds) Chapter 2—Water quality water pollution control—a guide to the use of water quality management principles. UNEP/WHO, London
EPRI (2003) Use of degraded water sources as cooling water in power plants, Electric Power Research Institute and CEC PIER Program
Frischknecht R, Jungbluth N (2007) Ecoinvent: overview and methodology, Ecoinvent Center. ecoinvent report No. 1
Frischknecht R, Steiner R et al (2008) Swiss ecological scarcity method: the new version 2006
Giani A et al (2005) Empirical study of cyanobacterial toxicity along a trophic gradient of lakes. National Research Council of Canada, Ottawa, ON, CANADA
MDDEP (2010) Quality of water and recreational use. Governement of Quebec, Canada. Ministère du Développement durable de l'Environnement et des Parcs Retrieved March 21, 2010, from http://​www.​mddep.​gouv.​qc.​ca
Milà i Canals L, Chenoweth J et al (2009) Assessing freshwater use impacts in LCA: part I—inventory modelling and characterisation factors for the main impact pathways. Int J Life Cycle Assess 14:28–42CrossRef
Nielsen P, Nielsen A et al (2003) LCA food data base
Overseas Environmental Cooperation Center (1998) Water pollution control technology manual. Government of Japan, Environmental Agency: 311
Owens JW (2002) Water resources in life-cycle impact assessment: considerations in choosing category indicators. J Ind Ecol 5(2):37–54CrossRef
Payment P, Berte A et al (2000) Occurrence of pathogenic microorganisms in the Saint Lawrence River (Canada) and comparison of health risks for populations using it as their source of drinking water. Can J Microbiol 46(6):565–576CrossRef
Peters G, Wiedemann S et al (2010) Accounting for water use in Australian red meat production. Int J Life Cycle Assess 15(3):311–320CrossRef
Pfister S, Koehler A et al (2009) Assessing the environmental impacts of freshwater consumption in LCA. Environ Sci Technol 43(11):4098–4104CrossRef
Phiri O, Mumba P et al (2005) Assessment of the impact of industrial effluents on water quality of receiving rivers in urban areas of Malawi. Int J Environ Sci Tech 2(3):8
Shiklomanov IA, Rodda JC (2003) World water resources at the beginning of the 21st century. Cambridge University Press, Cambridge, UK
Sial RA, Chaudhary MF et al (2006) Quality of effluents from Hattar Industrial Estate. J Zhejiang Univ Sci 7(12):7
Stewart M, Weidema BP (2005) A consistent framework for assessing the impacts from resource use—a focus on resource functionality. Int J Life Cycle Assess 10(4):240–247CrossRef
Svobodová Z, Lloyd R et al (1993) Water quality and fish health. EIFAC Technical Paper. Rome, FAO. 54:59
Todd ECD (2008) Trends on food-borne disease. CAB Reviews: perspectives in agriculture, veterinary science, nutrition and natural science. 3(4)
UNEP Global Environment Monitoring System (GEMS) Water Programme (2009) GEMStat
USEPA (1982) Electronic code of federal regulation, title 40—protection of environment, part 423—steam electric power generating point source category, appendix A—priority pollutants. http://​ecfr.​gpoaccess.​gov. Accessed on 21 March 2010
USEPA (2004) Electronic code of federal regulation, title 40—protection of environment, part 141—national primary drinking water regulations, subpart h—filtration and disinfection (141.73 filtration). http://​ecfr.​gpoaccess.​gov. Accessed on 21 March 2010
Van der Hoek W (2004) A framework for a global assessment of the extent of wastewater irrigation: the need for a common wastewater typology. wastewater use in irrigated agriculture—confronting the livelihood and environmental realities. Bierstalpad, International Water Management Institute (IWMI)
Washington State (1997) Water reclamation and reuse standards, Department of Ecology and Department of Health
WHO (2003) Guidelines for safe recreational waters
WHO (2008) Guidelines for drinking-water quality, third edition, incorporating first and second addenda. Geneva
WHO and UNEP (2006) Volume 2: Wastewater use in agriculture. Guidelines for the safe use of wastewater, excreta and greywater. WHO, World Health Organization and United Nation Environmental Program
Metadaten
Titel
Categorizing water for LCA inventory
verfasst von
Anne-Marie Boulay
Christian Bouchard
Cecile Bulle
Louise Deschênes
Manuele Margni
Publikationsdatum
01.08.2011
Verlag
Springer-Verlag
Erschienen in
The International Journal of Life Cycle Assessment / Ausgabe 7/2011
Print ISSN: 0948-3349
Elektronische ISSN: 1614-7502
DOI
https://doi.org/10.1007/s11367-011-0300-z

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