Regulatory, Analysis, and Decision Support Challenges to Reduce Environmental Impact in the Design and Operation of Water Distribution Networks
Publication: Journal of Water Resources Planning and Management
Volume 139, Issue 6
Abstract
This paper reviews policy and research initiatives that have begun to address three major challenges to incorporate regional environmental impacts in the design and optimization of drinking water distribution systems. These challenges are to (1) develop a regulatory framework to limit the environmental impacts linked to upgrades and operation of water networks; (2) select indicators and develop models to quantify energy use, environmental impacts, and emissions for the design and operation of water distribution systems; and (3) develop decision support systems to integrate environmental sustainability objectives into the decision-making process for utilities. This paper concludes by discussing realistic steps that water utilities can take to reduce the environmental impact of their business operations.
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References
Ambrose, M. D., Salomonsson, G. D., and Burn, S. (2002). “Piping systems embodied energy analysis.”, CSIRO Manufacturing and Infrastructure Technology, Melbourne, VIC, Australia.
ASCE. (2009). 2009 report card for America’s infrastructure, Reston, VA.
Australian Government National Water Commission (NWC). (2011). “Governance at a glance.” 〈http://www.nwc.gov.au/home/water-governancearrangements-in-australia/governance-at-a-glance〉 (Mar. 24, 2012).
Bertrand-Krajewski, J.-L., Barraud, S., and Chocat, B. (2000). “Need for improved methodologies and measurements for sustainable management of urban water systems.” Environ. Impact Assess. Rev., 20(3), 323–331.
Bjorn, A., Declercq-Lopez, L., Spatari, S., and MacLean, H. (2005). “Decision support for sustainable development using a Canadian economic input-output life cycle assessment model.” Can. J. Civ. Eng., 32(1), 16–29.
Brothers, K. J. (2001). “Water leakage and sustainable supply—Truth or consequences?” J. Am. Water Works Assoc., 93(4), 150–152.
Burn, L. S., De Silva, D., and Shipton, R. J. (2002). “Effect of demand management and system operation on potable water infrastructure costs.” Urban Water, 4(3), 229–236.
Cantin, B., Shrubsole, D., and Aït-Ouyahia, M. (2005). “Using economic instruments for water demand management: Introduction.” Can. Water Resour. J., 30(1), 1–10.
Carnegie Mellon University Green Design Institute. (2008). “Economic input-output life cycle assessment (EIO-LCA), US 1997 industry benchmark model.” 〈http://www.eiolca.net〉 (Sep. 30, 2011).
Clean Energy Future. (2012). “An overview of the Clean Energy Legislative Package.” 〈http://www.cleanenergyfuture.gov.au/clean-energy-future/an-overview-of-the-clean-energy-legislative-package/〉 (Mar. 24, 2012).
Costanza, R., et al. (1997). “The value of the world’s ecosystems and natural capital.” Nature, 387, 253–260.
Council of Australian Governments (COAG). (2004). “National Water Initiative (NWI).” Drivers of water reform, 〈http://www.environment.gov.au/water/australia/drive-reform.html〉 (Mar. 24, 2012).
Dandy, G. C., Bogdanowicz, A., Craven, A., Maywald, A., and Liu, P. (2008). “Optimizing the sustainability of water distribution systems.” Proc., 10th Annual Water Distribution Systems Analysis Conf. WDSA2008, ASCE, Reston, VA, 267–277.
Dandy, G. C., Roberts, A., Hewitson, C., and Chrystie, P. (2006). “Sustainability objectives for the optimization of water distribution networks.” Proc., 8th Annual Water Distribution Systems Analysis Symp, ASCE.
Dennison, F. J., Azapagic, A., Clift, R., and Colbourne, J. S. (1999). “Life cycle assessment: Comparing strategic options for the mains infrastructure—Part 1.” Water Sci. Technol., 39(10–11), 315–319.
Donnelly, R., and Boyle, C. (2006). “The catch-22 of engineering sustainable development.” J. Environ. Eng., 132(2), 149–155.
Energy Information Administration (EIA). (2009). “California quick facts.” 〈http://www.eia.gov/state/state-energy-profiles.cfm?sid=CA〉 (Nov. 17, 2011).
Filion, Y. R., MacLean, H. L., and Karney, B. W. (2004). “Life-cycle energy analysis of a water distribution system.” J. Infrastruct. Syst., 10(3), 120–130.
Foxon, T. J., et al. (2002). “Sustainability criteria for decision support in the UK water industry.” J. Environ. Plann. Manag., 45(2), 285–301.
Gold Coast Water (GCW). (2007). “Delivering a sustainable waterfuture.” 〈http://www.goldcoast.qld.gov.au/attachment/goldcoastwater/GCWF_strategy_overview_Sep07.pdf〉 (Jun. 4, 2012).
Government of Ontario. (2010). “Water Opportunities Act, 2010.” ServiceOntario e-Laws, 〈http://www.e-laws.gov.on.ca/html/statutes/english/elaws_statutes_10w19_e.htm〉 (Mar. 24, 2012).
Government of Western Australia. (2011). “Impact of the proposed carbon tax on Western Australia.” 〈http://www.treasury.wa.gov.au/cms/uploadedFiles/_Treasury/Publications/Preliminary_Assessment_Impact_Proposed_Carbon_Tax_on_WA_August2011.pdf〉 (Mar. 24, 2012).
Hanley, N. (1988). “Using contingent valuation to value environmental improvements.” Appl. Econ., 20(4), 541–549.
Hellström, D., Jeppsson, U., and Kärrman, E. (2000). “A framework for systems analysis of sustainable urban water management.” Environ. Impact Assess. Rev., 20(3), 311–321.
Hendrickson, C., Horvath, A., Joshi, S., and Lave, L. (1998). “Economic input-output models for environmental life-cycle assessment.” Environ. Sci. Technol., 32(7), 184–191.
Herstein, L., Filion, Y., and Hall, K. (2009). “Evaluating environmental impact in water distribution system design.” J. Infrastruct. Syst., 15(3), 241–250.
Herstein, L., Filion, Y., and Hall, K. (2011). “Evaluating the environmental impacts of water distribution systems by using EIO-LCA–based multiobjective optimization.” J. Water Resour. Plann. Manag., 137(2), 162–172.
Herstein, L. H., Filion, Y. R., and Hall, K. R. (2008). “Water distribution system design and environmental impact: Balancing local interests with broader regional concerns.” Proc., 10th Annual Water Distribution Systems Analysis Symp., Krueger National Park, South Africa.
Herz, R., and Lipkow, A. (2002). “Life-cycle assessment of water mains and sewers.” Water Sci. Technol: Water Supply, 2(4), 51–72.
Huang, S.-L., and Chen, C.-S. (1990). “A system model to analyse environmental carrying capacity for managing urban growth of the Taipei metropolitan region.” J. Environ. Manag., 31(1), 47–60.
Joshi, S. (1999). “Product environmental life-cycle assessment using input-output techniques.” J. Ind. Ecol., 3(2–3), 95–120.
Lundie, S., Peters, G., Ashbolt, N., Lai, E., and Livingston, D. (2006) “A sustainability framework for the Australian water industry.” Water—J. Aust. Water Assoc., 33(7), 83–88.
Lundie, S., Peters, G., and Beavis, P. (2005). “Quantitative systems analysis as a strategic planning approach for metropolitan water service providers.” Water Sci. Technol., 52(9), 11–20.
Lundie, S., Peters, G. M., and Beavis, P. C. (2004). “Life cycle assessment for sustainable metropolitan water systems planning.” Environ. Sci. Technol., 38(13), 3465–3473.
Lundin, M., Bengtsson, M., and Molander, S. (2000). “Life cycle assessment of wastewater systems: Influence of system boundaries and scale on calculated environmental loads.” Environ. Sci. Technol., 34(1), 180–186.
Lundin, M., Molander, S., and Morrison, G. M. (1999). “A set of indicators for the assessment of temporal variations in the sustainability of sanitary systems.” Water Sci. Technol., 39(5), 235–242.
Lundin, M., and Morrison, G. M. (2002). “A life cycle assessment based procedure for development of environmental sustainability indicators for urban water systems.” Urban Water, 4(2), 145–152.
Mo, W., Nasiri, F., Eckelman, M. J., Zhang, Q., and Zimmerman, J. B. (2010). “Measuring the embodied energy in drinking water supply systems: A case study in the Great Lakes region.” Environ. Sci. Technol., 44(24), 9516–9521.
New South Wales (NSW). (1994). “Sydney Water Act 1994 No 88.” 〈http://www.legislation.nsw.gov.au/inforcepdf/1994-88.pdf?id=a1f77bd8-14d5-e722-8119-e1abecea1bbb〉 (Jun. 4, 2012).
Palme, U., and Tillman, A.-M. (2009). “Sustainable urban water systems in indicators: researchers' recommendations versus practice in Swedish utilities.” Water Policy, 11, 250–268.
Racoviceanu, A. I., and Karney, B. W. (2010). “Life-cycle perspective on residential water conservation strategies.” J. Infrastruct. Syst., 16(1), 40–49.
Sahely, H. R., Adams, B. J., and Kennedy, C. A. (2005). “Developing sustainability criteria for urban infrastructure systems.” Can. J. Civ. Eng., 32(1), 72–85.
Sahely, H. R., and Kennedy, C. A. (2007). “Water use model for quantifying environmental and economic sustainability indicators.” J. Water Resour. Plann. Manag., 133(6), 550–559.
Schulz, M., Short, M., and Peters, G. (2011). “A streamlined sustainability assessment tool for improved decision making in the urban water industry.” Integr. Environ. Assess. Manag., 8(1), 183–193.
Simpson, A. R., Dandy, G. C., and Murphy, L. J. (1994). “Genetic algorithms compared to other techniques for pipe optimization.” J. Water Resour. Plann. Manag., 120(4), 423–443.
Stokes, J., and Horvath, A. (2006). “Life cycle energy assessment of alternative water supply systems.” Int. J. Life Cycle Assess., 11(5), 335–343.
Stokes, J., and Horvath, A. (2011). “Life-cycle assessment of urban water provision: Tool and case study in California.” J. Infrastruct. Syst., 17(1), 15–24.
Stokes, J. R., and Horvath, A. (2009). “Energy and air emission effects of water supply.” Environ. Sci. Technol., 43(8), 2680–2687.
Sydney Water. (2007). “Carbon neutral for energy and electricity use by 2020.” 〈http://www.sydneywater.com.au/Sustainability/carbonneutral.cfm〉 (Jun. 4, 2012).
Tarantini, M., and Ferri, F. (2001). “LCA of drinking and wastewater treatment systems of Bologna City: Final results.” Proc., 4th Inter-Regional Conf. on Environmental Water, International Commission on Irrigation and Drainage (ICID), New Delhi, India.
U.S. Environmental Protection Agency (USEPA). (2010). “EPA’s Clean Water and Drinking Water Infrastructure Sustainability Policy.” Water: Sustainable infrastructure, 〈http://water.epa.gov/infrastructure/sustain/upload/Sustainability-Policy.pdf〉 (Mar. 24, 2012).
Water Services Regulation Authority (OFWAT). (2008a). “Preparing for the future—OFWAT’s climate change policy statement.” Policy statements, 〈http://www.ofwat.gov.uk/sustainability/climatechange/pap_pos_climatechange.pdf〉 (Mar. 24, 2012).
Water Services Regulation Authority (OFWAT). (2008b). “Providing best practice guidance on the inclusion of externalities in the ELL calculation.” Water supply and demand policy, 〈http://www.ofwat.gov.uk/pricereview/pr09phase2/pr09phase2pubs/pap_pos_pr09supdempol〉 (Mar. 24, 2012).
Wu, W., Simpson, A. R., and Maier, H. R. (2008). “Water distribution system optimisation accounting for a range of future possible carbon prices.” 10th Annual Water Distribution Systems Analysis Symp., Krueger National Park, South Africa.
Wu, W., Simpson, A. R., and Maier, H. R. (2010). “Accounting for greenhouse gas emissions in multi-objective genetic algorithm optimization of water distribution systems.” J. Water Resour. Plann. Manage., 136(2), 146–155.
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© 2013 American Society of Civil Engineers.
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Received: Nov 22, 2011
Accepted: Jun 13, 2012
Published online: Oct 15, 2013
Published in print: Nov 1, 2013
Discussion open until: Mar 15, 2014
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