Bernhard Steubing
Universitair hoofddocent
- Naam
- Dr. B.R.P. Steubing
- Telefoon
- +31 71 527 1495
- b.r.p.steubing@cml.leidenuniv.nl
- ORCID iD
- 0000-0002-1307-6376
Voor meer informatie, zie de Engelse versie.
Universitair hoofddocent
- Wiskunde en Natuurwetenschappen
- Centrum voor Milieuwetenschappen Leiden
- CML/Industriele Ecologie
- Zhang S., Steubing B.R.P., Karlsson Potter H., Hansson P. & Nordberg Å. (2024), Future climate impacts of sodium-ion batteries, Resources, Conservation and Recycling 202: 107362.
- Arvidsson R., Svanström M., Sandén B.A., Thonemann N., Steubing B.R.P. & Cucurachi S. (2024), Terminology for future-oriented life cycle assessment: review and recommendations, International Journal of Life Cycle Assessment : .
- Li C., Coolen J.W.P., Scherer L., Mogollón J.M., Braeckman U., Vanaverbeke J., Tukker A. & Steubing B.R.P. (2023), Offshore wind energy and marine biodiversity in the North Sea: life cycle impact assessment for benthic communities, Environmental Science and Technology 57(16): 6455-6464.
- Mae B., Sacchi R., Steubing B., Pizzol M., Audenaert A., Craeye B. & Buyle M. (2023), Prospective consequential life cycle assessment: identifying the future marginal suppliers using integrated assessment models, Renewable and Sustainable Energy Reviews 188: 113830.
- Steubing B.R.P., Mendoza Beltran A. & Sacchi R. (2023), Conditions for the broad application of prospective life cycle inventory databases, International Journal of Life Cycle Assessment 28: 1092-1103.
- Xu C., Behrens P.A., Gasper P., Smith K., Hu M., Tukker A. & Steubing B.R.P. (2023), Electric vehicle batteries alone could satisfy short-term grid storage demand by as early as 2030, Nature Communications 14: 119.
- Langkau S., Steubing B.R.P., Mutel C., Ajie Permana M., Erdmann L., Voglhuber-Slavinsky A. & Janssen M. (2023), A stepwise approach for Scenario-based Inventory Modelling for Prospective LCA (SIMPL), International Journal of Life Cycle Assessment 28: 1168-1193.
- Ding T., Steubing B.R.P. & Achter W.M.J. (2023), Coupling optimization with territorial LCA to support agricultural land-use planning, Journal of Environmental Management 328: 116946.
- Georgiades M., Shah I.H., Steubing B.R.P., Cheeseman C. & Meyers R.J. (2023), Prospective life cycle assessment of European cement production, Resources, Conservation and Recycling 194: 106998.
- Saavedra del Oso M., Mauricio-Iglesias M., Hospido A. & Steubing B.R.P. (2023), Prospective LCA to provide environmental guidance for developing waste-to-PHA biorefineries, Journal of Cleaner Production 383: 135331.
- Tsoy N., Steubing B.R.P. & Guinée J.B. (2023), Ex-ante life cycle assessment of polyols using carbon captured from industrial process gas, Green Chemistry 25(14): 5526-5538.
- Harpprecht C.I., Miranda Xicotencatl B., Nielen S.S. van, Meide M.T. van der, Li C., Li Z. & Steubing B.R.P. (2023), Future environmental impacts of metals: a review of impact trends, modelling approaches and challenges. [conferentie poster].
- Yang X., Hu M., Zhang C. & Steubing B.R.P. (2022), Urban mining potential to reduce primary material use and carbon emissions in the Dutch residential building sector, Resources, Conservation and Recycling 180: 106215.
- Steubing B.R.P., Koning A. de, Merciai S. & Tukker A. (2022), How do carbon footprints from LCA and EEIOA databases compare?: A comparison of ecoinvent and EXIOBASE, Journal of Industrial Ecology 26(4): 1406-1422.
- Meide M.T. van der, Harpprecht C.I., Northey S., Yang Y.X. & Steubing B.R.P. (2022), Effects of the energy transition on environmental impacts of cobalt supply: a prospective life cycle assessment study on future supply of cobalt, Journal of Industrial Ecology 26(5): 1631-1645.
- Xu C., Steubing B.R.P., Hu M., Harpprecht C.I., Meide M.T. van der & Tukker A. (2022), Future greenhouse gas emissions of automotive lithium-ion battery cell production, Resources, Conservation and Recycling 187: 106606.
- Cucurachi S., Blanco Rocha C.F., Steubing B.R.P. & Heijungs R. (2022), Implementation of uncertainty analysis and moment‐independent global sensitivity analysis for full‐scale life cycle assessment models, Journal of Industrial Ecology 26(2): 374-391.
- Dong D., Tukker A., Steubing B.R.P., Oers L.F.C.M. van, Rechberger H., Aguilar Hernandez G.A., Li H. & Voet E. van der (2022), Assessing China’s potential for reducing primary copper demand and associated environmental impacts in the context of energy transition and “Zero waste” policies, Waste Management 144: 454-467.
- Yang X., Hu M., Zhang C. & Steubing B.R.P. (2022), Key strategies for decarbonizing the residential building stock: results from a spatiotemporal model for Leiden, the Netherlands, Resources, Conservation and Recycling 184: 106388.
- Li C., Mogollón J.M., Tukker A., Dong J., Terzi D. von, Zhang C. & Steubing B.R.P. (2022), Future material requirements for global sustainable offshore wind energy development, Renewable and Sustainable Energy Reviews 164: 112603.
- Harpprecht C.I., Naegler T., Steubing B.R.P. & Sacchi R. (2022), Prospective life cycle assessment of the electricity-based primary steel production technology of electrowinning. SETAC Europe 32nd Annual Meeting, Copenhagen. 15 mei 2022 - 19 mei 2022. [conferentie poster].
- Yang X., Hu M., Tukker A., Zhang C., Huo T.F. & Steubing B.R.P. (2022), A bottom-up dynamic building stock model for residential energy transition: a case study for the Netherlands, Applied Energy 306(Part A): 118060.
- Harpprecht C.I., Naegler T., Steubing B.R.P., Tukker A. & Simon S. (2022), Decarbonization scenarios for the iron and steel industry in context of a sectoral carbon budget: Germany as a case study, Journal of Cleaner Production 380(2): 134846.
- Xu C., Dai Q., Gaines L., Hu M., Tukker A. & Steubing B.R.P. (2022), Author correction: reply to: concerns about global phosphorus demand for lithium-iron-phosphate batteries in the light electric vehicle sector, Communications Materials 3(1): 36 (36).
- Li C., Mogollón J.M., Tukker A. & Steubing B.R.P. (2022), Environmental impacts of global offshore wind energy development until 2040, Environmental Science and Technology 56(16): 11567-11577.
- Xu C., Dai Q., Gaines L., Hu M., Tukker A. & Steubing B.R.P. (2022), Reply to: concerns about global phosphorus demand for lithium-iron-phosphate batteries in the light electric vehicle sector, Communications Materials 3(1): 15 (15).
- Siguenza Sanchez C.P., Steubing B.R.P., Tukker A. & Aguilar Hernandez G.A. (2021), The environmental and material implications of circular transitions: a diffusion and product-life-cycle-based modeling framework, Journal of Industrial Ecology 25(3): 563-579.
- Adrianto L.R., Hulst M.K. van der, Tokaya J.P., Arvidsson R., Blanco Rocha C.F., Caldeira C., Guillén-Gonsálbez G., Sala S., Steubing B.R.P., Buyle M., Kaddoura M., Navarre N.H., Pedneault J., Pizzol M., Salieri B., Harmelen T. van & Hauck M. (2021), How can LCA include prospective elements to assess emerging technologies and system transitions? : The 76th LCA discussion forum on life cycle assessment, 19 November 2020, International Journal of Life Cycle Assessment 26(8): 1541-1544.
- Ottelin J., Amiri A., Steubing B.R.P. & Junnila S. (2021), Comparative carbon footprint analysis of residents of wooden and non-wooden houses in Finland, Environmental Research Letters 16(7): 074006.
- Rajaeifar A.M., Raugei M., Steubing B.R.P., Hartwell A., Anderson A.P. & Heidrich O. (2021), Life cycle assessment of lithium‐ion battery recycling using pyrometallurgical technologies, Journal of Industrial Ecology 25(6): 1560-1571.
- Zhong X., Hu M., Deetman S.P., Steubing B.R.P., Lin H., Aguilar Hernandez G.A., Harpprecht C.I., Zhang C., Tukker A. & Behrens P.A. (2021), Global greenhouse gas emissions from residential and commercial building materials and mitigation strategies to 2060, Nature Communications 12: 6126.
- Collis J., Strunge T., Steubing B.R.P., Zimmermann A. & Schomacker R. (2021), Deriving economic potential and GHG emissions of steel mill gas for chemical industry, Frontiers in Energy Research 9: 642162.
- Harpprecht C.I., Oers L.F.C.M. van, Northey S.A., Yang Y. & Steubing B.R.P. (2021), Environmental impacts of key metals' supply and low‐carbon technologies are likely to decrease in the future, Journal of Industrial Ecology 25(6): 1543-1559.
- Adrianto L.R., Hulst M.K. van der, Tokaya J.P., Arvidsson R., Blanco Rocha C.F., Caldeira C., Guillén-Gonsálbez G., Sala S., Steubing B.R.P., Buyle M., Kaddoura M., Navarre N.H., Pedneault J., Pizzol M., Salieri B., Harmelen T. van & Hauck M. (2021), How can LCA include prospective elements to assess emerging technologies and system transitions? : The 76th LCA discussion forum on life cycle assessment, 19 November 2020, International Journal of Life Cycle Assessment 26(8): 1541-1544.
- Steubing B.R.P. & Koning D.G. de (2021), Making the use of scenarios in LCA easier: the superstructure approach, International Journal of Life Cycle Assessment 26: 2248-2262.
- Steubing B.R.P., Koning D.G. de, Haas A. & Mutel C.L. (2020), The Activity Browser : an open source LCA software building on top of the brightway framework, Software Impacts 3: 100012.
- Tallentire C.W. & Steubing B.R.P. (2020), The environmental benefits of improving packaging waste collection in Europe, Waste Management 103: 426-436.
- Steubing B.R.P., Koning D.G. de, Haas A. & Mutel C.L. (2020), The Activity Browser — An open source LCA software building on top of the brightway framework, Software Impacts 3: 100012.
- Xu C., Dai Q., Gaines L., Hu M., Tukker A. & Steubing B.R.P. (2020), Future material demand for automotive lithium-based batteries, Communications Materials 1: 99.
- Tsoy N., Steubing B.R.P., Giesen C.C. van der & Guinée J.B. (2020), Upscaling methods used in ex ante life cycle assessment of emerging technologies: a review, International Journal of Life Cycle Assessment 25(9): 1680-1692.
- Amatuni L., Ottelin J., Steubing B. & Mogollon J.M. (2020), Does car sharing reduce greenhouse gas emissions? Assessing the modal shift and lifetime shift rebound effects from a life cycle perspective, Journal of Cleaner Production 266: 121869.
- Yang X., Hu M., Heeren N., Zhang C., Verhagen T.J., Tukker A. & Steubing B.R.P. (2020), A combined GIS-archetype approach to model residential space heating energy: a case study for the Netherlands including validation, Applied Energy 280: 115953.
- Mehr J., Vadenbo C., Steubing B. & Hellweg S. (2018), Environmentally optimal wood use in Switzerland-Investigating the relevance of material cascades, Resources, Conservation and Recycling 131: 181-191.
- Mehr J., Vadenbo C., Steubing B.R.P. & Hellweg S. (2018), Environmentally optimal wood use in Switzerland—Investigating the relevance of material cascades, Resources, Conservation and Recycling 131: 181-191.
- Froemelt A., Mauchle M., Steubing B. & Hellweg S. (2018), Greenhouse Gas Emissions Quantification and Reduction Efforts in a Rural Municipality, Journal of Industrial Ecology 22(1): 92-105.
- Steubing B.R.P., Wernet G., Reinhard J., Bauer C. & Moreno-Ruiz E. (2016), The ecoinvent database version 3 (part II): analyzing LCA results and comparison to version 2, International Journal of Life Cycle Assessment 21(9): 1269-1281.
- Suter F., Steubing B.R.P. & Hellweg S. (2016), Life Cycle Impacts and Benefits of Wood along the Value Chain: The Case of Switzerland, Journal of Industrial Ecology 21(4): 874-886.
- Wernet G., Bauer C., Steubing B.R.P., Reinhard J., Moreno-Ruiz E. & Weidema B. (2016), The ecoinvent database version 3 (part I): overview and methodology, International Journal of Life Cycle Assessment 21(9): 1218-1230.
- Steubing B.R.P., Mutel C., Suter F. & Hellweg S. (2016), Streamlining scenario analysis and optimization of key choices in value chains using a modular LCA approach, International Journal of Life Cycle Assessment 21(4): 510-522.
- Wernet G., Bauer C., Steubing B., Reinhard J., Moreno-Ruiz E. & Weidema B. (2016), The ecoinvent database version 3 (part I): overview and methodology, International Journal of Life Cycle Assessment 21(9): 1218-1230.
- Steubing B.R.P., Suter F., Heeren N., Chaudhary A., Ostermeyer Y. & Hellweg S. (2015), Welches sind die ökologischsten Holzverwendungen?, Schweizerische Zeitschrift fur Forstwesen 166(5): 335-338.
- Heeren N., Mutel C.L., Steubing B.R.P., Ostermeyer Y., Wallbaum H. & Hellweg S. (2015), Environmental impact of buildings: what matters?, Environmental Science and Technology 49(16): 9832-9841.
- Höglmeier K., Steubing B.R.P., Weber-Blaschke G. & Richter K. (2015), LCA-based optimization of wood utilization under special consideration of a cascading use of wood, Journal of Environmental Management 152: 158-170.
- Pauliuk S., Majeau-Bettez G., Mutel C.L., Steubing B.R.P. & Stadler K. (2015), Lifting industrial ecology modeling to a new level of quality and transparency: a call for more transparent publications and a collaborative open source software framework, Journal of Industrial Ecology 19(6): 937-949.
- Steubing B.R.P., Suter F., Heeren N., Chaudhary A., Ostermeyer Y. & Hellweg S. (2015), Welches sind die ökologischsten Holzverwendungen?, Schweizerische Zeitschrift fur Forstwesen 166(5): 335-338.
- Steubing B.R.P., Ballmer I., Gassner M., Gerber L., Pampuri L., Bischof S., Thees O. & Zah R. (2014), Identifying environmentally and economically optimal bioenergy plant sizes and locations: a spatial model of wood-based SNG value chains, Renewable Energy 61: 57-68.
- Saner D., Vadenbo C., Steubing B.R.P. & Hellweg S. (2014), Regionalized LCA-based optimization of building energy supply: method and case study for a Swiss municipality, Environmental Science and Technology 48(13): 7651-7659.
- Kostadinov F., Holm S., Steubing B.R.P., Thees O. & Lemm R. (2014), Simulation of a Swiss wood fuel and roundwood market: an explorative study in agent-based modeling, Forest Policy and Economics 38: 105-118.
- Steubing B.R.P. (2013), Die Ökobilanz der energetischen Holzverwertung: Faktoren für einen hohen ökologischen Nutzen = Life cycle assessment of wood energy: Factors for high ecological benefits, Schweizerische Zeitschrift fur Forstwesen 164(12): 408-419.
- Steubing B.R.P. (2013), Die Ökobilanz der energetischen Holzverwertung: Faktoren für einen hohen ökologischen Nutzen, Schweizerische Zeitschrift fur Forstwesen 164(12): 408-419.
- Kostadinov F., Steubing B.R.P. & Holm S. (2012), Vorgehen zur agentenbasierten Modellierung eines schweizerischen Waldenergieholzmarktes = Procedure to develop an agent-based model of a Swiss forest wood fuel market, Schweizerische Zeitschrift fur Forstwesen 163(10): 422-431.
- Kostadinov F., Steubing B.R.P. & Holm S. (2012), Vorgehen zur agentenbasierten Modellierung eines schweizerischen Waldenergieholzmarktes, Schweizerische Zeitschrift fur Forstwesen 163(10): 422-431.
- Steubing B.R.P., Zah R. & Ludwig C. (2012), Heat, electricity, or transportation? The optimal use of residual and waste biomass in Europe from an environmental eerspective, Environmental Science and Technology 46(1): 164-171.
- Steubing B.R.P., Zah R. & Ludwig C. (2011), Life cycle assessment of SNG from wood for heating, electricity, and transportation, Biomass and Bioenergy 35(7): 2950-2960.
- Steubing B.R.P., Zah R., Waeger P. & Ludwig C. (2010), Bioenergy in Switzerland: assessing the domestic sustainable biomass potential, Renewable and Sustainable Energy Reviews 14(8): 2256-2265.
- Steubing B.R.P., Böni H., Schluep M., Silva U. & Ludwig C. (2010), Assessing computer waste generation in Chile using material flow analysis, Waste Management 30(3): 473-482.
- Arkhangelsky E., Steubing B.R.P., Ben-Dov E., Kushmaro A. & Gitis V. (2008), Influence of pH and ionic strength on transmission of plasmid DNA through ultrafiltration membranes, Desalination 227(1-3): 111-119.
- Steubing B.R.P., Ludwig C., Böni H. & Silva U. (2008), E-waste generation in Chile: Analysis of the generation of computer waste using material flow analysis. Mishra B. (red.), Proceedings of the 2008 Global Symposium on Recycling, Waste Treatment and Clean Technology, REWAS 2008. 2008 Global Symposium on Recycling, Waste Treatment and Clean Technology, REWAS 2008 12 oktober 2008 - 15 oktober 2008: TMS - Minerals Metals and Materials Society. 639-645.
- Consultancy and software services around environmental sustainability assessment