Ruijie Liang
Higher Degree by Research Candidate
School of Civil, Environmental and Mining Engineering
Faculty of Sciences, Engineering and Technology
PhD Candidate, School of Civil, Environmental and Mining Engineering, University of Adelaide, Adelaide, South Australia.
Ruijie's research is focused on optimising the management of stormwater infrastructure (stormwater storages) to mitigate urban flooding and achieve multiple benefits.
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Education
Date Institution name Country Title 2015 - 2018 The University of Adelaide Australia Bachelor of Civil and Environmental(Honours) with First Class Honours -
Research Interests
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Journals
Year Citation 2021 Liang, R., Thyer, M. A., Maier, H. R., Dandy, G. C., & Di Matteo, M. (2021). Optimising the design and real-time operation of systems of distributed stormwater storages to reduce urban flooding at the catchment scale. Journal of Hydrology, 602, 15 pages.
Scopus3 WoS32019 Liang, R., Di Matteo, M., Maier, H. R., & Thyer, M. A. (2019). Real-Time, Smart Rainwater Storage Systems: Potential Solution to Mitigate Urban Flooding. WATER, 11(12), 23 pages.
Scopus14 WoS132019 DiMatteo, M., Lang, R., Maier, H., Thyer, M., Simpson, A., & Dandy, G. (2019). Controlling rainwater storage as a system: An opportunity to reduce urban flood peaks for rare, long duration storms. Environmental Modelling and Software, 111, 34-41.
Scopus23 WoS22 -
Conference Items
Year Citation 2021 Liang, R., Thyer, M., Maier, H., Di Matteo, M., & Dandy, G. (2021). Potential benefits of real-time control to reduce urban flooding using distributed smart stormwater storage systems. Poster session presented at the meeting of 23rd EGU General Assembly. Liang, R., Thyer, M., Maier, H., Di Matteo, M., & Dandy, G. (n.d.). Potential benefits of real-time control to reduce urban flooding using distributed smart stormwater storage systems. Poster session presented at the meeting of Unknown Conference. Copernicus GmbH.
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Report for External Bodies
Year Citation 2019 Thyer, M. A., Di Matteo, M., Liang, R., Maier, H. R., & Dandy, G. (2019). Evaluating smart storage options for drainage rehabilitation to provide flood, reuse and water quality benefits. -
Datasets
Year Citation Liang, R., Matteo, M. D., Maier, H., & Thyer, M. (n.d.). Real-Time, Smart Rainwater Storage Systems: Potential Solution to Mitigate Urban Flooding.
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