Overview
Background
Steven is a water leader with senior experience in research, industry, and government, developed through roles with The University of Queensland, CSIRO, Brisbane Water, Sydney Water, and private consulting. He has worked with urban water, wastewater, stormwater, and related energy and greenhouse gas issues since 1990. His work addresses urban water security, water-energy nexus, and circular economy . He creates collaborations, tools, models and knowledge to address all flows of water – and related energy - into, out of, and within cities. This enables evaluation and management of key concepts such as: (i) net zero carbon water cycle, (ii) hybrid, decentralised and integrated systems performance, and (iii) sustainable urban design and planning.
Steven’s work is enhancing performance benchmarking of cities, shaping development, guiding policy and infrastructure investment locally and internationally. He has secured and delivered over $8m funding for his research since 2005, most since 2013. This includes multiple international and national projects for the Asian Development Bank, Water Research Foundation (USA), and CRC Water Sensitive Cities.
He has authored over 60 Scopus-listed articles in high-quality journals, 20 books or major CRC public reports, 10 book chapters and over 67 conference articles (over 200 total articles). Steven is a long-term and regular funded plenary and invited keynote presenter to peak international forums including: World Water Forum, World Water Congress, World Water Week and Singapore International Water Week. Steven’s strong multi-disciplinary work spans environmental, chemical and civil engineering, natural resources management, and urban planning and design. He has developed urban metabolism theory, including its links to integrated water management and industrial ecology.
Availability
- Professor Steven Kenway is:
- Available for supervision
Qualifications
- Bachelor (Honours), The University of Queensland
- Doctor of Philosophy, The University of Queensland
Research impacts
Steven has developed fresh new concepts in water-energy nexus and urban metabolism management. He has moved this into design outcomes, infrastructure plans, investment and international guidebooks for Renewable Energy Integration to Water and Wastewater Systems and Integrated Water and Energy Planning. He leads a Net Zero Water Cycle Energy use project – a new approach for urban water management which builds on his evaluating household water-energy links to create new options for cost-efficient systems. He has demonstrated how 9% of Australia’s energy use is influenced by urban water.
Steven has improved water and urban design. Since 2016, he leads a major integrating project (Water Sensitive Infill Development) for the CRC Water Sensitive Cities finding solutions to the challenge of urban infill development to overcome current urban development issues of flooding, increased heat and reduced security. Partnering with multiple stakeholders he has created new designs for urban precincts up to 10,000 people, demonstrating how cities can be more liveable, water-sensitive and energy-efficient.
Steven has influenced water security across Asia leading research for the Asian Development Bank. From 2015-2020 he has led the analysis of Urban Water Security (KD3) for the Asian Water Development Outlook - used in the Asia Pacific Water Forum, and by the United Nations. His methods have been adopted by government in a growing list of countries to guide national water investment including Thailand’s National Water Strategy.
Steven catalysed and led the creation of the Industrial Ecology Virtual Laboratory (IELab). This game-changing e-research infrastructure (~$4M value) has now been developed, based on the Australian model in the United States, China, Japan, Indonesia, Taiwan and Sweden.
Steven has created high quality international training programs on Integrated Urban Water Management (WATR 7105) Management (Urban Water Engineering) for The University of Queensland. He has led “Urban Metabolism” course development for the International Water Centre and Griffith University since 2013 where he is an adjunct Professor. He has led development of the multi-partner Urban Design Challenge (water and energy systems integration) at UQ since 2016, and its uptake by other universities.
Works
Search Professor Steven Kenway’s works on UQ eSpace
2014
Journal Article
Compiling and using input-output frameworks through collaborative virtual laboratories
Lenzen, Manfred, Geschke, Arne, Wiedmann, Thomas, Lane, Joe, Anderson, Neal, Baynes, Timothy, Boland, John, Daniels, Peter, Dey, Christopher, Fry, Jacob, Hadjikakou, Michalis, Kenway, Steven, Malik, Arunima, Moran, Daniel, Murray, Joy, Nettleton, Stuart, Poruschi, Lavinia, Reynolds, Christian, Rowley, Hazel, Ugon, Julien, Webb, Dean and West, James (2014). Compiling and using input-output frameworks through collaborative virtual laboratories. Science of the Total Environment, 485-486 (1), 241-251. doi: 10.1016/j.scitotenv.2014.03.062
2014
Journal Article
The water impacts of climate change mitigation measures
Wallis, Philip J., Ward, Michael B., Pittock, Jamie, Hussey, Karen, Bamsey, Howard, Denis, Amandine, Kenway, Steven J., King, Carey W., Mushtaq, Shahbaz, Retamal, Monique L. and Spies, Brian R. (2014). The water impacts of climate change mitigation measures. Climatic Change, 125 (2), 209-220. doi: 10.1007/s10584-014-1156-6
2014
Journal Article
Understanding and managing water-related energy use in Australian households: preliminary results of a research project being carried out by The University of Queensland and the Smart Water Fund
Kenway, S., Binks, A., Bors, J., Pamminger, F., Lant, P., Head, B., Taimre, T., Grace, A., Fawcett, J., Johnson, S., Yeung, J., Scheidegger, R. and Bader, H.-P. (2014). Understanding and managing water-related energy use in Australian households: preliminary results of a research project being carried out by The University of Queensland and the Smart Water Fund. Water, 41 (2), 184-188.
2013
Journal Article
Water and energy futures for Melbourne: implications of land use, water use, and water supply strategy
Kenway, S. J., Turner, G. M., Cook, S. and Baynes, T. (2013). Water and energy futures for Melbourne: implications of land use, water use, and water supply strategy. Journal of Water and Climate Change, 5 (2), 163-175. doi: 10.2166/wcc.2013.188
2013
Journal Article
The research-policy nexus in climate change adaptation: experience from the urban water sector in South East Queensland
Laves, G., Kenway, S., Begbie, D., Roiko, A., Carter, R. W. and Waterman, P. (2013). The research-policy nexus in climate change adaptation: experience from the urban water sector in South East Queensland. Regional Environmental Change, 14 (2), 449-461. doi: 10.1007/s10113-013-0556-x
2013
Journal Article
Water-related energy in households: a model designed to understand the current state and simulate possible measures
Kenway, Steven J., Scheidegger, Ruth, Larsen, Tove A., Lant, Paul and Bader, Hans-Peter (2013). Water-related energy in households: a model designed to understand the current state and simulate possible measures. Energy and Buildings, 58, 378-389. doi: 10.1016/j.enbuild.2012.08.035
2013
Journal Article
The case for urban metabolism: what is it, and how can it help the water sector?
Kenway, S., Pamminger, F. and Lant, P. (2013). The case for urban metabolism: what is it, and how can it help the water sector?. Water, 40 (1), 6-7.
2013
Journal Article
Household water-related energy use: understanding and reducing energy costs
Kenway, Steven (2013). Household water-related energy use: understanding and reducing energy costs. Water21, 15.1, 28-29.
2013
Conference Publication
Will greenhouse gas mitigation goals become a major driver for water conservation?
Kenway, S., Lant, P., Scheidegger, R., Larsen, T. and Bader, H. (2013). Will greenhouse gas mitigation goals become a major driver for water conservation?. EECD 2013: 5th National Water Education, Water Efficiency & Water Skills Conference, Brighton Beach, NSW, Australia, 5-7 March, 2013. St Leonards, NSW, Australia: Australian Water Association (AWA).
2013
Book Chapter
Urban metabolism: a way to make Australian cities more efficient?
Kenway, Steven, Pamminger, Francis, Priestely, Anthony, Wolff, Gary, Gradner, Ted, Hermanowicz, Slav and Rosenblum, Eric (2013). Urban metabolism: a way to make Australian cities more efficient?. Made in Australia: the future Australian cities. (pp. 246-249) edited by Richard Weller and Julian Bolleter. Perth, WA, Australia: UWA Press.
2013
Journal Article
Linking water and energy for opportunity
Kenway, Steven (2013). Linking water and energy for opportunity. Liquid Assets (14), 10-11.
2013
Other Outputs
The Water-Energy Nexus and urban metabolism - connections in cities
Kenway, Steven (2013). The Water-Energy Nexus and urban metabolism - connections in cities. Urban Water Security Research Alliance Technical Report No. 100 Brisbane, Australia: Urban Water Security Research Alliance.
2013
Conference Publication
The challenges and opportunities of constructing input-output frameworks in a virtual laboratory: the new NeCTAR Industrial Ecology Lab
Lenzen, M., Wiedmann, T., Gerske, A., Lane, J., Daniells, P., Kenway, S., Murray, J., Malik, A., Reynolds, C., Moran, D., Webb, D., Fry, J., Ugon, J., Poruschi, L., Baynes, T., West, J. and Boland, J. (2013). The challenges and opportunities of constructing input-output frameworks in a virtual laboratory: the new NeCTAR Industrial Ecology Lab. MODSIM 2013: 20th International Congress on Modelling and Simulation, Adelaide, SA, Australia, 1 - 6 December, 2013. Canberra, ACT, Australia: Modelling and Simulation Society of Australia and New Zealand.
2013
Journal Article
Managing water-related energy in future cities - a research and policy roadmap
Kenway, S., McMahon, J., Elmer, V., Conrad, S. and Rosenblum, J. (2013). Managing water-related energy in future cities - a research and policy roadmap. Journal of Water and Climate Change, 4 (3), 161-175. doi: 10.2166/wcc.2013.063
2012
Journal Article
Collaboration in stormwater harvesting learning to move from theory to practice
Kenway, Steven J., McIntosh, Brian S., Hamlyn-Harris, David, Crocetti, Adrian, Toze, Simon, Begbie, Don and Biermann, Sharon (2012). Collaboration in stormwater harvesting learning to move from theory to practice. Water, 48-49.
2012
Journal Article
The opportunity of the water-energy nexus in cities
Kenway, Steven (2012). The opportunity of the water-energy nexus in cities. Water21, 27-27.
2012
Other Outputs
The water-energy nexus and urban metabolism identification, quantification and interpretation of the connections in cities
Kenway, Steven John (2012). The water-energy nexus and urban metabolism identification, quantification and interpretation of the connections in cities. PhD Thesis, School of Chemical Engineering, The University of Queensland.
2012
Edited Outputs
Science forum and stakeholder engagement : building linkages, collaboration and science quality: program and papers
D. K. Begbie, S. L. Wakem, S. J. Kenway and S. M. Bierman eds. (2012). Science forum and stakeholder engagement : building linkages, collaboration and science quality: program and papers. Science forum and stakeholder engagement : building linkages, collaboration and science quality, Brisbane, Queensland, 19-20 June 2012. Brisbane: Urban Water Security Research Alliance.
2012
Conference Publication
Connections between water, energy and greenhouse gas emissions in cities: key emerging messages
Kenway, S., Lant, P., Bader, H., Scheidegger, R. and Larsen, T. (2012). Connections between water, energy and greenhouse gas emissions in cities: key emerging messages. World Water Congress and Exhibition, Busan, Korea, 16-21 September 2012.
2012
Book Chapter
The influence of water on urban energy use
Kenway, Steven. J. and Lant, P. (2012). The influence of water on urban energy use. Water sensitive cities. (pp. 63-80) edited by Carol Howe and Cynthia Mitchell. London, United Kingdom: IWA Publishing.
Funding
Current funding
Supervision
Availability
- Professor Steven Kenway is:
- Available for supervision
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Supervision history
Current supervision
-
Doctor Philosophy
Enabling a Net Zero Greenhouse Gas Emissions Water Cycle
Principal Advisor
Other advisors: Professor Kate O'Brien
-
Master Philosophy
Contribution of alternative water sources to urban water security
Principal Advisor
Other advisors: Dr Marguerite Renouf
-
Doctor Philosophy
Progress and pathways toward a Net-Zero carbon urban water cycle
Principal Advisor
Other advisors: Professor Paul Lant
-
Doctor Philosophy
Enabling a Net Zero Greenhouse Gas Emissions Water Cycle
Principal Advisor
Other advisors: Professor Kate O'Brien
-
Master Philosophy
Improving Compliance of Industrial Effluent Discharge for Cleaner Environmental Waterways
Principal Advisor
Other advisors: Associate Professor Ilje Pikaar
-
Master Philosophy
Improving compliance with industrial effluent discharges for cleaner environmental waterways
Principal Advisor
Other advisors: Associate Professor Ilje Pikaar
-
-
Doctor Philosophy
Framework for Integrated urban water management for infill development with limited dependency on urban infrastructure.
Principal Advisor
Other advisors: Dr Marguerite Renouf
-
Master Philosophy
Improving compliance with industrial effluent discharges for cleaner environmental waterways
Principal Advisor
Other advisors: Associate Professor Ilje Pikaar
Completed supervision
-
2025
Master Philosophy
Improving compliance with industrial effluent discharges for cleaner environmental waterways
Principal Advisor
Other advisors: Associate Professor Ilje Pikaar
-
2024
Master Philosophy
Contribution of Alternative Water Sources to Urban Water Security (UWS) in Australia
Principal Advisor
Other advisors: Dr Marguerite Renouf
-
2023
Doctor Philosophy
Understanding the relationship between urban water management and liveability: conceptualisations and opportunities for assessment
Principal Advisor
Other advisors: Dr Marguerite Renouf
-
2022
Doctor Philosophy
Water performance evaluation of infill development
Principal Advisor
Other advisors: Dr Marguerite Renouf
-
2022
Doctor Philosophy
Understanding the food-water-energy-greenhouse gas emissions nexus in Australia
Principal Advisor
Other advisors: Dr Marguerite Renouf
-
2022
Doctor Philosophy
Defining urban water security and understanding the role of stakeholders in establishing objectives
Principal Advisor
Other advisors: Professor Brian Head
-
2021
Doctor Philosophy
Integrating Renewable Energy Technologies in the Water Industry: Opportunities and Challenges
Principal Advisor
Other advisors: Professor Paul Lant
-
2019
Doctor Philosophy
Integrated Modelling of Residential Water-Related Energy
Principal Advisor
Other advisors: Professor Kate O'Brien
-
2019
Doctor Philosophy
Residential water and energy use linkages: Integrating data and policy
Principal Advisor
Other advisors: Professor Paul Lant, Professor Brian Head
-
2017
Doctor Philosophy
Energy Implications of Water Management in Cities
Principal Advisor
Other advisors: Professor Paul Lant
-
2022
Doctor Philosophy
Restoring the natural water cycle in cities: an urban design framework
Associate Advisor
Other advisors: Dr Sara Alidoust, Associate Professor Paola Leardini
-
2018
Doctor Philosophy
Integrated Project Risk Management for Residential Recycled Water Schemes
Associate Advisor
Other advisors: Professor Maureen Hassall, Honorary Professor Zhiguo Yuan
Media
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