Potsdam / New York / Copenhagen / Amsterdam / Bologna / /
Company
Wilson / Germany 5 Pacific Northwest National Laboratory / /
Country
Netherlands / Italy / United States / /
Currency
USD / / /
Event
Environmental Issue / /
Facility
Potsdam Institute / College Park / International Institute / Earth Institute / Utrecht University / The Netherlands Columbia University / Johns Hopkins University / /
IndustryTerm
electricity production mix / climate mitigation technology mix / wind energy / overall electricity production level / gas plants / transportation / technology deployment / technology diffusion perspective / gas turbines / electricity mix / Energy savings result / energy change / low-carbon technology deployment / energy technology requirements / end-use technologies / transition technology / energy breakdown / intermittent renewable energy technologies / electricity system / energy carriers / natural gas / technology diffusion comparison analysis / energy-economic implications / main energy services / energy sources / solar electricity generation / generated electricity / electricity plants / energy consumption mix / important candidate technology / technology costs / energy use / natural gas-based plants / nuclear energy / renewable energy / renewable final energy shares / energy supply / oil / road transportation / low-carbon technology costs / energy mix / solar electricity contributions / energy options / energy savings / target scenario wind energy technology / electricity production level / aggregated total low-carbon energy system cost requirements / electricity generation differences / energy / energy policies / energy production / solar energy technology / low-carbon energy / For electricity production / electricity / technology deployment pathways / individual technology costs / electricity generation / natural gas use / individual technologies / produced electricity / energy carrier / speed-based technology diffusion variables / assessment energy system models / energy carrier production / greenhouse gas species / lowcarbon energy technologies / main energy resources / renewable energy options / electricity production / manufacturing / solar energy / energy system / nuclear energy benefits / low-carbon energy technologies / long-term global energy technology diffusion patterns / energy transformation pathways / low-carbon technologies / energy services / gas-based power plants / cross-model energy system / energy technologies / long-term technology diffusion / /
Organization
Columbia University / School of Advanced International Studies / Johns Hopkins University / International Institute for Applied Systems Analysis / Lenfest Center for Sustainable Energy / United Nations / Potsdam Institute for Climate Impact Research / Utrecht University / Earth Institute / /
Person
Sue Wing / /
Position
Corresponding author / /
Technology
intermittent renewable energy technologies / 3.4 CCS technology / end-use technologies / low-carbon technologies / transition technology / CCS technology / low-carbon energy technologies / lowcarbon energy technologies / energy technologies / 2.8 W/m2 forcing target scenario wind energy technology / important candidate technology / simulation / solar energy technology / /
A Cross-Model Comparison of Global Long-Term Technology Diffusion under a 2˚C Climate Change Control Target B.C.C. van der Zwaan1,2,3,*, H. Rösler1, T. Kober1, T. Aboumahboub4, K.V. Calvin5, D.E.H.J. Gernaat6, G. Maran