Prof. Anders Hammer Strømman
Cited by
Cited by
Comparative environmental life cycle assessment of conventional and electric vehicles
TR Hawkins, B Singh, G Majeau‐Bettez, AH Strømman
Journal of industrial ecology 17 (1), 53-64, 2013
Life cycle assessment of bioenergy systems: state of the art and future challenges
F Cherubini, AH Strømman
Bioresource technology 102 (2), 437-451, 2011
Life cycle environmental assessment of lithium-ion and nickel metal hydride batteries for plug-in hybrid and battery electric vehicles
G Majeau-Bettez, TR Hawkins, AH Strømman
Environmental science & technology 45 (10), 4548-4554, 2011
State-of-the-art technologies, measures, and potential for reducing GHG emissions from shipping–A review
EA Bouman, E Lindstad, AI Rialland, AH Strømman
Transportation Research Part D: Transport and Environment 52, 408-421, 2017
Life cycle assessment of a lithium‐ion battery vehicle pack
LAW Ellingsen, G Majeau‐Bettez, B Singh, AK Srivastava, LO Valøen, ...
Journal of Industrial Ecology 18 (1), 113-124, 2014
Bioenergy and climate change mitigation: an assessment
F Creutzig, NH Ravindranath, G Berndes, S Bolwig, R Bright, F Cherubini, ...
Gcb Bioenergy 7 (5), 916-944, 2015
CO2 emissions from biomass combustion for bioenergy: atmospheric decay and contribution to global warming
F Cherubini, GP Peters, T Berntsen, AH Strømman, E Hertwich
Gcb Bioenergy 3 (5), 413-426, 2011
Environmental impacts of hybrid and electric vehicles—a review
TR Hawkins, OM Gausen, AH Strømman
The International Journal of Life Cycle Assessment 17, 997-1014, 2012
Hydrogen assisted catalytic combustion of methane on platinum
O Deutschmann, LI Maier, U Riedel, AH Stroemman, RW Dibble
Catalysis today 59 (1-2), 141-150, 2000
The size and range effect: lifecycle greenhouse gas emissions of electric vehicles
LAW Ellingsen, B Singh, AH Strømman
Environmental Research Letters 11 (5), 054010, 2016
Reductions in greenhouse gas emissions and cost by shipping at lower speeds
H Lindstad, BE Asbjørnslett, AH Strømman
Energy policy 39 (6), 3456-3464, 2011
Evaluation of process-and input–output-based life cycle inventory data with regard to truncation and aggregation issues
G Majeau-Bettez, AH Strømman, EG Hertwich
Environmental science & technology 45 (23), 10170-10177, 2011
Comparative life cycle environmental assessment of CCS technologies
B Singh, AH Strømman, EG Hertwich
International Journal of Greenhouse Gas Control 5 (4), 911-921, 2011
Chemicals from lignocellulosic biomass: opportunities, perspectives, and potential of biorefinery systems
F Cherubini, AH Strømman
Biofuels, Bioproducts and Biorefining 5 (5), 548-561, 2011
Identifying key assumptions and differences in life cycle assessment studies of lithium-ion traction batteries with focus on greenhouse gas emissions
LAW Ellingsen, CR Hung, AH Strømman
Transportation Research Part D: Transport and Environment 55, 82-90, 2017
Life cycle assessment of natural gas combined cycle power plant with post-combustion carbon capture, transport and storage
B Singh, AH Strømman, E Hertwich
International Journal of Greenhouse Gas Control 5 (3), 457-466, 2011
Global warming potential of carbon dioxide emissions from biomass stored in the anthroposphere and used for bioenergy at end of life
G Guest, F Cherubini, AH Strømman
Journal of industrial ecology 17 (1), 20-30, 2013
Influence of allocation methods on the environmental performance of biorefinery products—A case study
F Cherubini, AH Strømman, S Ulgiati
Resources, Conservation and Recycling 55 (11), 1070-1077, 2011
Climate impacts of bioenergy: Inclusion of carbon cycle and albedo dynamics in life cycle impact assessment
RM Bright, F Cherubini, AH Strømman
Environmental Impact Assessment Review 37, 2-11, 2012
Site-specific global warming potentials of biogenic CO2 for bioenergy: contributions from carbon fluxes and albedo dynamics
F Cherubini, RM Bright, AH Strømman
Environmental Research Letters 7 (4), 045902, 2012
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