Recycled water in Queensland: building a model for the full cost of recycled class A+ water

James-Overheu, Christina A. (2016) Recycled water in Queensland: building a model for the full cost of recycled class A+ water. [Thesis (PhD/Research)]

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Thesis C JamesOverheu PhD final signed.pdf

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The fact that water is a critical resource in an increasingly urbanised population was highlighted in Queensland by the prolonged 1997-2010 drought, which in South East Queensland prompted investment in significant capital infrastructure in an attempt to increase the drought resilience of water supplies. The need to consider alternative water supply sources prompted interest in recycled water from waste water treatment both to supply industry and to replace potable water. This included using ‘fit for purpose’ recycled water rather than drinking water for non-potable uses, but also using high grade recycled water for indirect potable use. The question arises how to value such new water sources. The ‘value’ of a scarce natural resource such as water is not confined to traditional economic accounting models and undervaluation of the resource could encourage undesirable consumer behaviour in terms of increased volumes of use of a ‘free’ resource. Costs include direct costs, distribution and other capital assets, but these have not always been fully passed on to customers. Costs and benefits also include ‘externalities’ not captured in traditional accounting models such as environmental and social costs. Including full costs is crucial for informed policy decisions. This background is motivation for the research problem posed in this thesis:
How can a triple bottom line approach be used to provide a costing model for the full cost of Class A+ recycled water for use in South East Queensland?

This thesis provides a Triple Bottom Line (TBL) approach that reports economic, environmental and social costs and applies it to the case study of two advanced water treatment plants in South-East Queensland, each plant using different processing systems for the production of recycled water from treated waste water. Difficulties associated with producing such a model are highlighted via the case studies and externalities are identified. This thesis synthesises results from previous research from a number of disciplines, such as environmental management and engineering (Reungoat et al. 2010a; Halliday 2006), psychology (Menegaki et al. 2009) and economics (Frontier Economics 2011), and adds an accounting dimension. Realistic examples are provided via the case studies, and the thesis investigates the least-documented social aspect of a TBL approach via an extensive survey of perspectives and motivations of recycled water customers, both actual and potential, at the same case study location. The model suggests a broad range of interactions between stakeholders, assumptions made regarding the substitution of recycled water for marginal potable water supplies, environmental considerations such as greenhouse gas reporting, and the political and social costs of introducing a recycled water supply for potable and non-potable use.

The thesis demonstrates that on many levels management of key stakeholders is crucial and the social and political costs of decisions are high and suggests critical perceptions that have not previously been fully addressed well, such as stakeholder management in terms of media, information provision and awareness of and reasons for the polarisation of opinion on the subject of purified recycled water, particularly for indirect potable/drinking water use.

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Item Type: Thesis (PhD/Research)
Item Status: Live Archive
Additional Information: Doctor of Philosophy (PhD) thesis.
Faculty/School / Institute/Centre: Historic - Faculty of Business, Education, Law and Arts - School of Commerce (1 Jul 2013 - 17 Jan 2021)
Faculty/School / Institute/Centre: Historic - Faculty of Business, Education, Law and Arts - School of Commerce (1 Jul 2013 - 17 Jan 2021)
Supervisors: Kavanagh, Professor Marie; Slaughter, Professor Geoff
Date Deposited: 16 Aug 2016 03:05
Last Modified: 08 Aug 2017 04:55
Uncontrolled Keywords: Queensland; recycled water; sustainability issues; drinking water; waste treatment; economic impacts; water resources management; stakeholders' involvement
Fields of Research (2008): 14 Economics > 1402 Applied Economics > 140205 Environment and Resource Economics
05 Environmental Sciences > 0502 Environmental Science and Management > 050209 Natural Resource Management
15 Commerce, Management, Tourism and Services > 1503 Business and Management > 150303 Corporate Governance and Stakeholder Engagement
14 Economics > 1402 Applied Economics > 140214 Public Economics-Publically Provided Goods
09 Engineering > 0905 Civil Engineering > 090509 Water Resources Engineering
Fields of Research (2020): 38 ECONOMICS > 3801 Applied economics > 380105 Environment and resource economics
41 ENVIRONMENTAL SCIENCES > 4104 Environmental management > 410406 Natural resource management
35 COMMERCE, MANAGEMENT, TOURISM AND SERVICES > 3507 Strategy, management and organisational behaviour > 350799 Strategy, management and organisational behaviour not elsewhere classified
38 ECONOMICS > 3801 Applied economics > 380114 Public economics - publicly provided goods
40 ENGINEERING > 4005 Civil engineering > 400513 Water resources engineering

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