Evaluating the sustainability of indirect potable reuse and direct potable reuse: a southern Nevada case study

Cory Dow; Sajjad Ahmad; Krystyna Stave; Daniel Gerrity

doi:10.1002/aws2.1153

Evaluating the sustainability of indirect potable reuse and direct potable reuse: a southern Nevada case study

AWWA Water Sci. 2019 Jul-Aug;1(4):e1153. doi: 10.1002/aws2.1153. Epub 2019 Aug 27.

Authors

Cory Dow^{1

2}, Sajjad Ahmad¹, Krystyna Stave³, Daniel Gerrity^{1

4}

Affiliations

¹ Department of Civil and Environmental Engineering and Construction University of Nevada Las Vegas Nevada.
² Carollo Engineers Las Vegas Nevada.
³ School of Public Policy and Leadership University of Nevada Las Vegas Nevada.
⁴ Applied Research and Development Center Southern Nevada Water Authority Las Vegas Nevada.

Abstract

This case study presents a framework for evaluating the sustainability of indirect potable reuse (IPR) and direct potable reuse (DPR) in Las Vegas, Nevada. A system dynamics model was developed to simulate population growth, water supply, water quality, energy costs, net present worth (NPW), and greenhouse gas (GHG) emissions. The model confirmed that DPR could achieve a net reduction in energy costs of up to US$250 million while still ensuring an adequate water supply. However, the high NPW of DPR ($1.0-$4.0 billion) relative to the status quo IPR approach ($0.6 billion) represents a significant economic hurdle, although future monetization of salt loadings and GHGs could reduce that disparity. DPR with ozone-biofiltration would also be hindered by an estimated concentration of total dissolved solids of up to 1,300 mg/L. Despite these barriers to implementation in Las Vegas, certain site-specific conditions may make DPR more attractive in other locations.

Keywords: direct potable reuse; indirect potable reuse; net present worth; sustainability; system dynamics; water supply.