Edward Byers
Zitiert von
Zitiert von
Impacts of 1.5 C global warming on natural and human systems
O Hoegh-Guldberg, D Jacob, M Bindi, S Brown, I Camilloni, A Diedhiou, ...
Global warming of 1.5° C., 2018
Electricity generation and cooling water use: UK pathways to 2050
EA Byers, JW Hall, JM Amezaga
Global Environmental Change 25, 16-30, 2014
Global exposure and vulnerability to multi-sector development and climate change hotspots
E Byers, M Gidden, D Leclère, J Balkovic, P Burek, K Ebi, P Greve, D Grey, ...
Environmental Research Letters 13 (5), 055012, 2018
Impacts of climate change on energy systems in global and regional scenarios
SG Yalew, MTH van Vliet, DEHJ Gernaat, F Ludwig, A Miara, C Park, ...
Nature Energy 5 (10), 794-802, 2020
Summary for policymakers
PR Shukla, J Skea, E Calvo Buendia, V Masson-Delmotte, HO Pörtner, ...
Climate Change and Land: an IPCC special report on climate change …, 2019
Improving the SDG energy poverty targets: Residential cooling needs in the Global South
A Mastrucci, E Byers, S Pachauri, ND Rao
Energy and Buildings 186, 405-415, 2019
Global resource potential of seasonal pumped hydropower storage for energy and water storage
JD Hunt, E Byers, Y Wada, S Parkinson, DEHJ Gernaat, S Langan, ...
Nature communications 11 (1), 947, 2020
A high-resolution gridded dataset to assess electrification in sub-Saharan Africa
G Falchetta, S Pachauri, S Parkinson, E Byers
Scientific data 6 (1), 110, 2019
Comparison between seasonal pumped-storage and conventional reservoir dams from the water, energy and land nexus perspective
JD Hunt, E Byers, K Riahi, S Langan
Energy conversion and management 166, 385-401, 2018
Balancing clean water-climate change mitigation trade-offs
S Parkinson, V Krey, D Huppmann, T Kahil, D McCollum, O Fricko, ...
Environmental Research Letters 14 (1), 014009, 2019
Energy systems in scenarios at net-zero CO2 emissions
J DeAngelo, I Azevedo, J Bistline, L Clarke, G Luderer, E Byers, SJ Davis
Nature communications 12 (1), 6096, 2021
Multi‐model and multi‐scenario assessments of Asian water futures: The Water Futures and Solutions (WFaS) initiative
Y Satoh, T Kahil, E Byers, P Burek, G Fischer, S Tramberend, P Greve, ...
Earth's Future 5 (7), 823-852, 2017
A continental‐scale hydroeconomic model for integrating water‐energy‐land nexus solutions
T Kahil, S Parkinson, Y Satoh, P Greve, P Burek, TIE Veldkamp, ...
Water resources research 54 (10), 7511-7533, 2018
Co-designing Indus water-energy-land futures
Y Wada, A Vinca, S Parkinson, BA Willaarts, P Magnuszewski, ...
One Earth 1 (2), 185-194, 2019
Drought and climate change impacts on cooling water shortages and electricity prices in Great Britain
EA Byers, G Coxon, J Freer, JW Hall
Nature Communications 11 (1), 2239, 2020
Satellite observations reveal inequalities in the progress and effectiveness of recent electrification in sub-Saharan Africa
G Falchetta, S Pachauri, E Byers, O Danylo, SC Parkinson
One Earth 2 (4), 364-379, 2020
Ecological performance standards for wetland mitigation: an approach based on ecological integrity assessments
D Faber-Langendoen, G Kudray, C Nordman, L Sneddon, L Vance, ...
NatureServe, Arlington, Virginia, 2008
The NExus Solutions Tool (NEST) v1. 0: an open platform for optimizing multi-scale energy–water–land system transformations
A Vinca, S Parkinson, E Byers, P Burek, Z Khan, V Krey, FA Diuana, ...
Geoscientific Model Development 13 (3), 1095-1121, 2020
Vulnerability of existing and planned coal-fired power plants in Developing Asia to changes in climate and water resources
Y Wang, E Byers, S Parkinson, N Wanders, Y Wada, J Mao, JM Bielicki
Energy & Environmental Science 12 (10), 3164-3181, 2019
Water and climate risks to power generation with carbon capture and storage
EA Byers, JW Hall, JM Amezaga, GM O'Donnell, A Leathard
Environmental Research Letters 11, 2016
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20