Construction Research Congress 2020
Pursuing Positive Water Quality Outcomes in a Healthy and Sustainable Built Environment: A Preliminary Literature Review
Publication: Construction Research Congress 2020: Project Management and Controls, Materials, and Contracts
ABSTRACT
Green and healthy building certification systems increasingly motivate stakeholder decision making and serve as influential guides for sustainable design and construction. These codes promote water-use efficiency through measures such as low-flow features and rainwater reuse. Health-oriented guidelines like WELL particularly emphasize water quality. However, reduced flow and increased water age can produce a variety of negative water quality outcomes, posing occupant health risks including increased opportunistic pathogen growth in premise plumbing systems. Notably, there is little research on the influence of green and healthy building guidelines on resulting water quality and safety. This preliminary literature review summarizes current academic knowledge of water quality and microbial concerns in low-flow systems and the present and potential roles of green and healthy building codes and certification programs in effecting in-building water quality outcomes. Based on this review, notable research, industry, and policy gaps and key points for further research are identified. Priority topics for future investigations should include appropriate risk-evaluation methodologies; the impacts of specific technical and management interventions, such as the relationship of water heater temperature and microbial growth risk; and advancing exploration of the mitigation avenues which could be advantageously promoted through green and healthy building codes.
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REFERENCES
Ciesielski, C., Blaser, M., Wang, W., & Ciesielski, CA. (1984). Role of stagnation and obstruction of water flow in isolation of Legionella pneumophila from hospital plumbing. Applied and Environmental Microbiology, (5), 984-987.
Cohen, R, Babushkin, F, Shimoni, Z, Cohen, S, Litig, E, Shapiro, M,... Paikin, S. (2017). Water faucets as a source of Pseudomonas aeruginosa infection and colonization in neonatal and adult intensive care unit patients. American Journal Of Infection Control, 45(2), 206-209.
Crosson, C. (2016). Achieving Net Zero Water in Severe Drought Prone Areas: A Case Study of Catchment, Storage, and Infiltration Optimization. Procedia Engineering, 145, 782-789.
Crosson, C. (2018). Innovating the Urban Water System: Achieving a Net Zero Water Future Beyond Current Regulation. Technology|Architecture Design, 2(1), 68-81.
Daigger, G. (2009). Evolving Urban Water and Residuals Management Paradigms: Water Reclamation and Reuse, Decentralization, and Resource Recovery. Water Environment Research, 81(8), 809-823.
Edwards et al.(2014) Green Water Systems and Opportunistic Premise Plumbing Pathogens Fitwel- Reference Guide for the Fitwel Certification System February 2018, V2 Standards https://dev-wellv2.wellcertified.com/v/en/overview
Friedman, L., Harif, T., Herzberg, M., & Mamane, H. (2016). Mitigation of Biofilm Colonization on Various Surfaces in a Model Water Flow System by Use of UV Treatment. Water, Air, Soil Pollution, 227(2), 1-16.
Guide to LEED Certification | USGBC. (n.d.). Retrieved September 30, 2019, from https://new.usgbc.org/cert-guide
Haig, S.-J., Kotlarz, N., LiPuma, J. J., & Raskin, L. (2018). A High-Throughput Approach for Identification of Nontuberculous Mycobacteria in Drinking Water Reveals Relationship between Water Age and Mycobacterium avium. MBio, 9(1), e02354-17. https://doi.org/10.1128/mBio.02354-17
Illankoon, I. M., Tam, V. W., Le, K. N., & Shen, L. (2017). Key credit criteria among international green building rating tools. Journal of Cleaner Production, 164, 209-220.
Inkinen, J. M., Kaunisto, T. T., Keinänen-Toivola, M., Pursiainen, A., Miettinen, I., Kusnetsov, J., & Riihinen, K. (2014). Drinking water quality and formation of biofilms in an office building during its first year of operation, a full scale study. Water Research, 49, 83-91.
Kiparsky, M., Sedlak, D., Thompson, B., & Truffer, B. (2013). The Innovation Deficit in Urban Water: The Need for an Integrated Perspective on Institutions, Organizations, and Technology. Environmental Engineering Science, 30(8), 395-408.
Kooij, D. (2014). Microbial growth in drinking-water supplies : Problems, causes, control and research needs. London: IWA Publishing.
Kuller, Farrelly, Deletic, & Bach. (2018). Building effective Planning Support Systems for green urban water infrastructure—Practitioners’ perceptions. Environmental Science and Policy, 89, 153-162.
Heim, & Dietrich. (2007). Sensory aspects and water quality impacts of chlorinated and chloraminated drinking water in contact with HDPE and cPVC pipe. Water Research, 41(4), 757-764.
Lautenschlager, Boon, Wang, Egli, & Hammes. (2010). Overnight stagnation of drinking water in household taps induces microbial growth and changes in community composition. Water Research, 44(17), 4868-4877.
LeChevallier, M W, Babcock, T M, & Lee, R G. (1987). Examination and characterization of distribution system biofilms. Applied and Environmental Microbiology, 53(12), 2714-24.
Pan, J., Parks, J., Edwards, M., & Pruden, A. (2015). Impact of Water Chemistry, Pipe Material and Stagnation on the Building Plumbing Microbiome. PLoS One, 10(10), E0141087.
Potera, C. 2015. Plumbing pathogens: a fixture in hospitals and homes. Environ Health Perspect 123:A217; https://doi.org/10.1289/ehp.123-A217
Prest, Hammes, Kötzsch, Van Loosdrecht, & Vrouwenvelder. (2013). Monitoring microbiological changes in drinking water systems using a fast and reproducible flow cytometric method. Water Research, 47(19), 7131-7142.
Rademacher, Daniel. (2014). Net zero The "net zero" water concept as it pertains to plumbing systems. Reeves Journal, 94(3), 48.
Rhoads, W., Pearce, A., Pruden, A., & Edwards, M. (2015). Anticipating the Effects of Green Buildings on Water Quality and Infrastructure. American Water Works Association. Journal, 107(4), 50.
Rhoads, W., Pruden, A., & Edwards, M. (2016). Survey of green building water systems reveals elevated water age and water quality concerns. Environmental Science: Water Research Technology, 2(1), 164-173.
Rhoads, W J 2017. Dissertation: “Growth of Opportunistic Pathogens in Domestic Plumbing: Building Standards, System Operation, and Design” Virginia Polytechnic Institute and State University
Salehi, M.; Abouali, M.; Wang, M.; Zhou, Z.; Nejadhashemi, A. P.; Mitchell, J.; Caskey, S.; Whelton, A. J. Case study: Fixture water use and drinking water quality in a new residential green building. Chemosphere 2018, 195, 80-89.
Standard | WELL V2. (n.d.). Retrieved September 29, 2019, from https://dev-wellv2.wellcertified.com/v/en/overview
Sydnor, E., Bova, G., Gimburg, A., Cosgrove, S., Perl, T., & Maragakis, L. (2012). Electronic-Eye Faucets: Legionella Species Contamination in Healthcare Settings. Infection Control and Hospital Epidemiology, 33(3), 235-240.
Wang, Hong. “Probiotic Approach to Pathogen Control in Premise Plumbing Systems? A Review.” ACS Publications, Environmental Science Technology, 20 Aug. 2013, pubs.acs.org/doi/abs/10.1021/es402455r
Whelton, A., Dietrich, A., Gallagher, D., & Roberson, J. (2007). Using customer feedback for improved water quality and infrastructure monitoring. Journal - American Water Works Association, 99(11), 62-76.
Wood, Wang, Abdul-Rahman, & Jamal Abdul-Nasir. (2016). Green hospital design: Integrating quality function deployment and end-user demands. Journal of Cleaner Production, 112(P1), 903-913.
Wu, Shen, Yu, & Zhang. (2016). A comparative analysis of waste management requirements between five green building rating systems for new residential buildings. Journal of Cleaner Production, 112(P1), 895-902.
Van Der Wielen, P., & Van Der Kooij, D. (2013). Nontuberculous mycobacteria, fungi, and opportunistic pathogens in unchlorinated drinking water in The Netherlands. Applied and Environmental Microbiology, 79(3), 825-34.
Vatalis, K., Manoliadis, Charalampides, Platias, & Savvidis. (2013). Sustainability Components Affecting Decisions for Green Building Projects. Procedia Economics and Finance, 5(C), 747-756.
Yapicioglu, H., Gokmen, T., Yildizdas, D., Koksal, F., Ozlu, F., Kale-Cekinmez, E.,... Candevir, A. (2012). Pseudomonas aeruginosa infections due to electronic faucets in a neonatal intensive care unit. Journal of Paediatrics and Child Health, 48(5), 430-434.
Zlatanović, Van Der Hoek, & Vreeburg. (2017). An experimental study on the influence of water stagnation and temperature change on water quality in a full-scale domestic drinking water system. Water Research, 123, 761-772.
Zuo, Zhao. (2014). Green building research–current status and future agenda: A review. Renewable and Sustainable Energy Reviews, 30, 271-281.
Information & Authors
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Published In
Construction Research Congress 2020: Project Management and Controls, Materials, and Contracts
Pages: 934 - 943
Editors: David Grau, Ph.D., Arizona State University, Pingbo Tang, Ph.D., Arizona State University, and Mounir El Asmar, Ph.D., Arizona State University
ISBN (Online): 978-0-7844-8288-9
Copyright
© 2020 American Society of Civil Engineers.
History
Published online: Nov 9, 2020
Published in print: Nov 9, 2020
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