TY - JOUR
T1 - Comparing net zero pathways across the Atlantic A model inter-comparison exercise between the Energy Modeling Forum 37 and the European Climate and Energy Modeling Forum
AU - Sarmiento, Luis
AU - Emmerling, Johannes
AU - Pietzcker, Robert
AU - Daioglou, Vassilis
AU - Dalla Longa, Francesco
AU - Dekker, Mark M.
AU - Drouet, Laurent
AU - Fattahi, Amir
AU - Fragkos, Panagiotis
AU - Henke, Hauke T. J
AU - Fricko, Oliver
AU - Göke, Leonard
AU - Krey, Volker
AU - Lochner, Ellie
AU - Luderer, Gunnar
AU - Macaluso, Nick
AU - O'Keefe, Kowan T. V
AU - Kennedy, Kathleen M.
AU - Iyer, Gokul
AU - Rodrigues, Renato
AU - Stewart, Eric
AU - Usher, William
AU - van der Zwaan, Bob
AU - van Vuuren, Detlef
AU - Zisarou, Eleftheria
AU - Zakeri, Behnam
N1 - Publisher Copyright:
© 2024
PY - 2024/12
Y1 - 2024/12
N2 - Europe and North America account for 32 % of current carbon emissions. Due to distinct legacy systems, energy infrastructure, socioeconomic development, and energy resource endowment, both regions have different policy and technological pathways to reach net zero by the mid-century. Against this background, our paper examines the results from the net zero emission scenarios for Europe and North America that emerged from the collaboration of the European and American Energy Modeling Forums. In our analysis, we perform an inter-comparison of various integrated assessments and bottom-up energy system models. A clear qualitative consensus emerges on five main points. First, Europe and the United States reach net zero targets with electrification, demand-side reductions, and carbon capture and sequestration technologies. Second, the use of carbon capture and sequestration is more predominant in the United States due to a steeper decarbonization schedule. Third, the buildings sector is the easiest to electrify in both regions. Fourth, the industrial sector is the hardest to electrify in the United States and transportation in Europe. Fifth, in both regions, the transition in the energy mix is driven by the substitution of coal and natural gas with solar and wind, but to a different extent.
AB - Europe and North America account for 32 % of current carbon emissions. Due to distinct legacy systems, energy infrastructure, socioeconomic development, and energy resource endowment, both regions have different policy and technological pathways to reach net zero by the mid-century. Against this background, our paper examines the results from the net zero emission scenarios for Europe and North America that emerged from the collaboration of the European and American Energy Modeling Forums. In our analysis, we perform an inter-comparison of various integrated assessments and bottom-up energy system models. A clear qualitative consensus emerges on five main points. First, Europe and the United States reach net zero targets with electrification, demand-side reductions, and carbon capture and sequestration technologies. Second, the use of carbon capture and sequestration is more predominant in the United States due to a steeper decarbonization schedule. Third, the buildings sector is the easiest to electrify in both regions. Fourth, the industrial sector is the hardest to electrify in the United States and transportation in Europe. Fifth, in both regions, the transition in the energy mix is driven by the substitution of coal and natural gas with solar and wind, but to a different extent.
KW - 100 % renewables
KW - Carbon dioxide removal (CDR)
KW - Climate change mitigation
KW - Electrification
KW - Energy Modeling Forum
KW - Energy transition pathways
KW - Europe
KW - European Climate & Energy Modeling Forum
KW - Net zero
KW - Renewable energy system models
KW - United States
U2 - 10.1016/j.egycc.2024.100144
DO - 10.1016/j.egycc.2024.100144
M3 - Journal article
AN - SCOPUS:85198727963
SN - 2666-2787
VL - 5
JO - Energy and Climate Change
JF - Energy and Climate Change
M1 - 100144
ER -