Energy-and greenhouse gas-based LCA of biofuel and bioenergy systems: Key issues, ranges and recommendations F Cherubini, ND Bird, A Cowie, G Jungmeier, B Schlamadinger, ... Resources, conservation and recycling 53 (8), 434-447, 2009 | 1186 | 2009 |
Toward a common classification approach for biorefinery systems F Cherubini, G Jungmeier, M Wellisch, T Willke, I Skiadas, R Van Ree, ... Biofuels, Bioproducts and Biorefining 3 (5), 534-546, 2009 | 446 | 2009 |
LCA of a biorefinery concept producing bioethanol, bioenergy, and chemicals from switchgrass F Cherubini, G Jungmeier The International Journal of Life Cycle Assessment 15, 53-66, 2010 | 388 | 2010 |
Biorefinery concepts in comparison to petrochemical refineries E de Jong, G Jungmeier Industrial biorefineries & white biotechnology, 3-33, 2015 | 376 | 2015 |
Towards a standard methodology for greenhouse gas balances of bioenergy systems in comparison with fossil energy systems B Schlamadinger, M Apps, F Bohlin, L Gustavsson, G Jungmeier, ... Biomass and bioenergy 13 (6), 359-375, 1997 | 286 | 1997 |
The role of wood material for greenhouse gas mitigation L Gustavsson, R Madlener, HF Hoen, G Jungmeier, T Karjalainen, ... Mitigation and adaptation strategies for global change 11, 1097-1127, 2006 | 173 | 2006 |
Allocation in lca of wood-based products experiences of cost action E9 part i. methodology G Jungmeier, F Werner, A Jarnehammar, C Hohenthal, K Richter The International Journal of Life Cycle Assessment 7, 290-294, 2002 | 173* | 2002 |
Environmental life cycle impacts of automotive batteries based on a literature review C Aichberger, G Jungmeier Energies 13 (23), 6345, 2020 | 92 | 2020 |
Biorefinery systems–potential contributors to sustainable innovation M Wellisch, G Jungmeier, A Karbowski, MK Patel, M Rogulska Biofuels, Bioproducts and Biorefining: Innovation for a sustainable economy …, 2010 | 88 | 2010 |
Using a life cycle assessment approach to estimate the net greenhouse gas emissions of bioenergy N Bird, A Cowie, F Cherubini, G Jungmeier IEA Bioenergy, 2011 | 82 | 2011 |
Biorefineries M Hingsamer, G Jungmeier The role of bioenergy in the bioeconomy, 179-222, 2019 | 77 | 2019 |
Environmental burdens over the entire life cycle of a biomass CHP plant G Jungmeier, G Resch, J Spitzer Biomass and Bioenergy 15 (4-5), 311-323, 1998 | 61 | 1998 |
Greenhouse gas and energy analysis of substitute natural gas from biomass for space heat J Pucker, R Zwart, G Jungmeier Biomass and bioenergy 38, 95-101, 2012 | 57 | 2012 |
Energy aspects in LCA of forest products: guidelines from cost action E9 G Jungmeier, F McDarby, A Evald, C Hohenthal, AK Petersen, ... The International Journal of Life Cycle Assessment 8, 99-105, 2003 | 44 | 2003 |
An international dialogue about electric vehicle deployment to bring energy and greenhouse gas benefits through 2030 on a well-to-wheels basis SI Ehrenberger, JB Dunn, G Jungmeier, H Wang Transportation Research Part D: Transport and Environment 74, 245-254, 2019 | 40 | 2019 |
Anaerobic digestion of agricultural and other substrates–implications for greenhouse gas emissions J Pucker, G Jungmeier, S Siegl, EM Pötsch animal 7 (s2), 283-291, 2013 | 40 | 2013 |
Perspectives for the production of bioethanol from wood and straw in Austria: technical, economic, and ecological aspects P Kravanja, K Könighofer, L Canella, G Jungmeier, A Friedl Clean Technologies and Environmental Policy 14, 411-425, 2012 | 40 | 2012 |
The biorefinery fact sheet G Jungmeier IEA Bioenergy Task 42, 1-48, 2014 | 35 | 2014 |
Greenhouse gas emissions of bioenergy from agriculture compared to fossil energy for heat and electricity supply G Jungmeier, J Spitzer Nutrient Cycling in Agroecosystems 60, 267-273, 2001 | 33 | 2001 |
Bioeconomy strategies JR Hess, P Lamers, H Stichnothe, M Beermann, G Jungmeier Developing the global bioeconomy, 1-9, 2016 | 25 | 2016 |