Maria Grahn
Maria Grahn
Chalmers University of Technology, Dept of Mechanics and Maritime Sciences, Maritime Environmental
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Electrofuels for the transport sector: a review of production costs
S Brynolf, M Taljegard, M Grahn, J Hansson
Renewable and Sustainable Energy Reviews 81, 1887-1905, 2018
Fuel and vehicle technology choices for passenger vehicles in achieving stringent CO2 targets: connections between transportation and other energy sectors
M Grahn, C Azar, MI Williander, JE Anderson, SA Mueller, TJ Wallington
Environmental science & technology 43 (9), 3365-3371, 2009
Biomass for heat or as transportation fuel? A comparison between two model-based studies
M Grahn, C Azar, K Lindgren, G Berndes, D Gielen
Biomass and Bioenergy 31 (11-12), 747-758, 2007
The role of biofuels for transportation in CO 2 emission reduction scenarios with global versus regional carbon caps
M Grahn, C Azar, K Lindgren
Biomass and bioenergy 33 (3), 360-371, 2009
Prospects for domestic biofuels for transport in Sweden 2030 based on current production and future plans
M Grahn, J Hansson
Wiley Interdisciplinary Reviews: Energy and Environment, doi: 10.1002/wene.138, 2014
Climate impact of transportation A model comparison
B Girod, DP van Vuuren, M Grahn, A Kitous, SH Kim, P Kyle
Climatic change 118 (3-4), 595-608, 2013
Cost-Effective Choices of Marine Fuels in a Carbon-Constrained World: Results from a Global Energy Model
M Taljegard, S Brynolf, M Grahn, K Andersson, H Johnson
Environmental science & technology 48 (21), 12986-12993, 2014
Multi-model comparison of the economic and energy implications for China and India in an international climate regime
DJA Johansson, PL Lucas, M Weitzel, EO Ahlgren, AB Bazaz, W Chen, ...
Mitigation and Adaptation Strategies for Global Change 20 (8), 1335-1359, 2015
Alternative marine fuels: Prospects based on multi-criteria decision analysis involving Swedish stakeholders
J Hansson, S Månsson, S Brynolf, M Grahn
Biomass and Bioenergy 126, 159-173, 2019
Transport biofuels in global energy–economy modelling–a review of comprehensive energy systems assessment approaches
EO Ahlgren, M Börjesson Hagberg, M Grahn
Gcb Bioenergy 9 (7), 1168-1180, 2017
Low-CO2 Electricity and Hydrogen: A Help or Hindrance for Electric and Hydrogen Vehicles?
TJ Wallington, M Grahn, JE Anderson, SA Mueller, MI Williander, ...
Environmental science & technology 44 (7), 2702-2708, 2010
The potential for electrofuels production in Sweden utilizing fossil and biogenic CO2 point sources
J Hansson, R Hackl, M Taljegard, S Brynolf, M Grahn
Frontiers in Energy Research 5, 4, 2017
Utsikt för förnybara drivmedel i Sverige
J Hansson, M Grahn
Chalmers och IVL Svenska Miljöinstitutet, 2013
What Future for Electrofuels in Transport? Analysis of Cost Competitiveness in Global Climate Mitigation
M Lehtveer, S Brynolf, M Grahn
Environmental science & technology 53 (3), 1690-1697, 2019
Biofuels and land use in Sweden–An overview of land-use change effects
J Höglund, S Ahlgren, M Grahn, C Sundberg, UM Persson, P Börjesson, ...
Swedish Knowledge Centre for Renewable Transportation Fuels, 129, 2013
Utilising excess power: the case of electrofuels for transport
M Grahn, M Taljegård, J Ehnberg, S Karlsson
Sustainable Mobility: Using a Global Energy Model to Inform Vehicle Technology Choices in a Decarbonized Economy
M Grahn, E Klampfl, M Whalen, T Wallington
Sustainability 5 (5), 1845-1862, 2013
The role of ICEVs, HEVs, PHEVs, BEVs and FCVs in achieving stringent CO2 targets: results from global energy systems modeling
M Grahn, M Williander
EVS24 International Battery, Hybrid and Fuel Cell Electric Vehicle Symposium, 2009
Cost-effective fuel and technology choices in the transportation sector in a future carbon constrained world
M Grahn
PhD-thesis in Energy & Environment, 2009
Low-carbon transport—health and climate benefits
J Wismans, M Grahn, I Denbratt
United Nations Centre for Regional Development. Background paper for the …, 2015
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