Aqueduct projected water stress country rankings T Luo, R Young, P Reig Technical Note 16, 1-16, 2015 | 261 | 2015 |
A weighted aggregation of spatially distinct hydrological indicators F Gassert, P Reig, T Luo, A Maddocks World resources institute, 108, 2013 | 163 | 2013 |
Global-scale benefit–cost analysis of coastal flood adaptation to different flood risk drivers using structural measures T Tiggeloven, H De Moel, HC Winsemius, D Eilander, G Erkens, ... Natural Hazards and Earth System Sciences 20 (4), 1025-1044, 2020 | 112 | 2020 |
Global shale gas development: water availability & business risks P Reig, T Luo, JN Proctor | 109 | 2014 |
World’s 15 countries with the most people exposed to river floods T Luo, A Maddocks, C Iceland, P Ward, H Winsemius World resources institute 5, 2015 | 95 | 2015 |
Aqueduct floods methodology PJ Ward, HC Winsemius, S Kuzma, MFP Bierkens, A Bouwman, ... World Resources Institute, 1-28, 2020 | 46 | 2020 |
Parched power: water demands, risks, and opportunities for India’s power sector T Luo, D Krishnan, S Sen Water Resources Institute, 2018 | 46 | 2018 |
Aqueduct 4.0: Updated decision-relevant global water risk indicators S Kuzma, MFP Bierkens, S Lakshman, T Luo, L Saccoccia, ... | 16 | 2023 |
Aqueduct projected water stress rankings. Technical note T Luo, R Young, P Reig Washington, DC: World Resources Institute, 2015 | 13 | 2015 |
Identifying the global coal industry’s water risks T Luo, B Otto, T Shiao, A Maddocks Reducing Energy’s Water Footprint 26, 2014 | 12 | 2014 |
The need for mapping, modeling, and predicting flood hazard and risk at the global scale PJ Ward, EC De Perez, F Dottori, B Jongman, T Luo, S Safaie, ... Global flood hazard: Applications in modeling, mapping, and forecasting, 1-15, 2018 | 10 | 2018 |
Majority of china’s Proposed Coal-Fired Power Plants Located in Water-Stressed Regions T Luo, B Otto, A Maddocks World Resources Institute. August 26, 2013 | 9 | 2013 |
Yellow river basin study F Gassert, T Luo, T Shiao, M Luck Working Paper. Washington, DC: World Resources Institute (WRI), 2013 | 8 | 2013 |
A Methodology to Estimate Water Demand for Thermal Power Plants in Data-Scarce Regions Using Satellite Images T Luo, A Krishnaswami, X Li WRI. Available online at: https://www. wri. org/research/meth odology …, 2018 | 7 | 2018 |
It’s not just Cape Town: 4 shrinking reservoirs to watch C Iceland, T Luo, G Donchyts World Resources Institute. https://www. wri. org/blog/2018/04/its-not-just …, 2018 | 6 | 2018 |
A framework to assess multi-hazard physical climate risk for power generation projects from publicly-accessible sources T Luo, Y Cheng, J Falzon, J Kölbel, L Zhou, Y Wu, A Habchi Communications Earth & Environment 4 (1), 117, 2023 | 5 | 2023 |
Droughts and blackouts: how water shortages cost India enough energy to power Sri Lanka T Luo World Resources Institute. Retrieved from http://www. wri. org/blog/2017/07 …, 2017 | 4 | 2017 |
Financial implications of parched power: insights from an analysis of Indian thermal power companies L Zhou, J McClamrock, G Christianson, D Krishnan, T Luo Water Risk and Its Impact on the Financial Markets and Society: New …, 2021 | 3 | 2021 |
40% of India’s Thermal Power Plants Are in Water-Scarce Areas, Threatening Shutdowns T Luo World Resources Institute. January 16, 2018, 2018 | 3 | 2018 |
Assessing Physical Climate Risks for the European Bank for Reconstruction and Development's Power Generation Project Investment Portfolio T Luo, L Zhou, J Falzon, Y Cheng, G Christianson, Y Wu, A Habchi | 1 | 2021 |