Anders Hammer Strømman
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Norwegian professor
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Anders Hammer Strømmanengineering Degrees
Engineering
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Applied Physics
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Engineering
Anders Hammer Strømman's Degrees
- PhD Energy and Process Engineering Norwegian University of Science and Technology
- Masters Energy and Process Engineering Norwegian University of Science and Technology
- Bachelors Energy and Environmental Engineering Norwegian University of Science and Technology
Why Is Anders Hammer Strømman Influential?
(Suggest an Edit or Addition)According to Wikipedia, Anders Hammer Strømman is a professor of industrial ecology in the Industrial Ecology Programme at the Norwegian University of Science and Technology . He has collaborated with Francesco Cherubini in developing a method to analyse the climate impact of emissions from biomass combustion, and his fields of expertise include life cycle studies of producing electric car batteries.
Anders Hammer Strømman's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Comparative Environmental Life Cycle Assessment of Conventional and Electric Vehicles (2013) (1181)
- Life cycle assessment of bioenergy systems: state of the art and future challenges. (2011) (702)
- Bioenergy and climate change mitigation: an assessment (2015) (527)
- Life cycle environmental assessment of lithium-ion and nickel metal hydride batteries for plug-in hybrid and battery electric vehicles. (2011) (513)
- Environmental impacts of hybrid and electric vehicles—a review (2012) (449)
- Life Cycle Assessment of a Lithium‐Ion Battery Vehicle Pack (2014) (449)
- State-of-the-art technologies, measures, and potential for reducing GHG emissions from shipping – A review (2017) (417)
- Evaluation of process- and input-output-based life cycle inventory data with regard to truncation and aggregation issues. (2011) (247)
- Reductions in greenhouse gas emissions and cost by shipping at lower speeds (2011) (244)
- The size and range effect: lifecycle greenhouse gas emissions of electric vehicles (2016) (205)
- Comparative life cycle environmental assessment of CCS technologies (2011) (182)
- Chemicals from lignocellulosic biomass: opportunities, perspectives, and potential of biorefinery systems (2011) (165)
- Influence of allocation methods on the environmental performance of biorefinery products—A case study (2011) (144)
- Site-specific global warming potentials of biogenic CO2 for bioenergy: contributions from carbon fluxes and albedo dynamics (2012) (141)
- Life cycle assessment of natural gas combined cycle power plant with post-combustion carbon capture, transport and storage (2011) (136)
- Climate impacts of bioenergy: Inclusion of carbon cycle and albedo dynamics in life cycle impact assessment (2012) (132)
- Global Warming Potential of Carbon Dioxide Emissions from Biomass Stored in the Anthroposphere and Used for Bioenergy at End of Life (2013) (124)
- Identifying key assumptions and differences in life cycle assessment studies of lithium-ion traction batteries with focus on greenhouse gas emissions (2017) (113)
- Approaches to correct for double counting in tiered hybrid life cycle inventories (2009) (107)
- Nanotechnology for environmentally sustainable electromobility. (2016) (102)
- Enhancing life cycle impact assessment from climate science: Review of recent findings and recommendations for application to LCA (2016) (102)
- Environmental Impact and Added Value in Forestry Operations in Norway (2008) (85)
- Application of probability distributions to the modeling of biogenic CO2 fluxes in life cycle assessment (2012) (82)
- Economic savings linked to future Arctic shipping trade are at odds with climate change mitigation (2016) (82)
- Effects of boreal forest management practices on the climate impact of CO2 emissions from bioenergy (2011) (81)
- Life-cycle Assessment of Carbon Dioxide Capture for Enhanced Oil Recovery (2008) (79)
- Consistent quantification of climate impacts due to biogenic carbon storage across a range of bio-product systems (2013) (78)
- The importance of economies of scale for reductions in greenhouse gas emissions from shipping (2012) (78)
- Life Cycle Assessment of Biomass‐based Combined Heat and Power Plants (2011) (73)
- Bridging the gap between impact assessment methods and climate science (2016) (70)
- Assessing the techno-environmental performance of CO2 utilization via dry reforming of methane for the production of dimethyl ether (2016) (69)
- Prospective techno-economic and environmental assessment of carbon capture at a refinery and CO2 utilisation in polyol synthesis (2017) (69)
- Assessment of cost as a function of abatement options in maritime emission control areas (2015) (68)
- Fission or Fossil: Life Cycle Assessment of Hydrogen Production (2006) (68)
- Maritime shipping and emissions: A three-layered, damage-based approach (2015) (68)
- Norwegian Waste-to-Energy: Climate change, circular economy and carbon capture and storage (2017) (66)
- Life Cycle Assessment of Second Generation Bioethanols Produced From Scandinavian Boreal Forest Resources (2009) (65)
- Principles of Biorefining (2011) (63)
- Production of Biofuels and Biochemicals from Lignocellulosic Biomass: Estimation of Maximum Theoretical Yields and Efficiencies Using Matrix Algebra (2010) (63)
- Global climate impacts of forest bioenergy: what, when and how to measure? (2013) (63)
- Radiative forcing impacts of boreal forest biofuels: a scenario study for Norway in light of albedo. (2011) (58)
- The influence of system boundaries on life cycle assessment of grain production in central southeast Norway (2012) (58)
- The role of forest residues in the accounting for the global warming potential of bioenergy (2013) (57)
- Life cycle assessment of wood-based heating in Norway (2009) (57)
- Life-cycle assessment of a Waste-to-Energy plant in central Norway: Current situation and effects of changes in waste fraction composition. (2016) (57)
- Unified Theory of Allocations and Constructs in Life Cycle Assessment and Input‐Output Analysis (2014) (54)
- Environmental impacts of combined milk and meat production in Norway according to a life cycle assessment with expanded system boundaries (2013) (51)
- Climate change implications of shifting forest management strategy in a boreal forest ecosystem of Norway (2014) (51)
- Applying Leontief's Price Model to Estimate Missing Elements in Hybrid Life Cycle Inventories (2008) (44)
- Hybrid life-cycle assessment of natural gas based fuel chains for transportation. (2006) (42)
- Global spatially explicit CO2 emission metrics for forest bioenergy (2016) (41)
- Choice of Allocations and Constructs for Attributional or Consequential Life Cycle Assessment and Input‐Output Analysis (2018) (40)
- Bioenergy from forestry and changes in atmospheric CO2: reconciling single stand and landscape level approaches. (2013) (39)
- Environmental assessment of biomass gasification combined heat and power plants with absorptive and adsorptive carbon capture units in Norway (2017) (39)
- Shifting Trade Patterns as a Means of Reducing Global Carbon Dioxide Emissions (2009) (36)
- Opportunities for increased profit and reduced cost and emissions by service differentiation within container liner shipping (2016) (33)
- Environmental Assessment of Wood‐Based Biofuel Production and Consumption Scenarios in Norway (2010) (32)
- Environmental assessment of electrification of road transport in Norway: Scenarios and impacts (2013) (31)
- Linearity between temperature peak and bioenergy CO2 emission rates (2014) (31)
- Environmental Assessment of Two Waste Incineration Strategies for Central Norway (10 pp) (2005) (31)
- Impact Assessment of Biodiversity and Carbon Pools from Land Use and Land Use Changes in Life Cycle Assessment, Exemplified with Forestry Operations in Norway (2012) (31)
- Impact of fuel selection on the environmental performance of post-combustion calcium looping applied to a cement plant (2018) (31)
- Environmental life cycle assessment of cereal and bread production in Norway (2012) (30)
- Empirical models of monthly and annual albedo in managed boreal forests of interior Norway (2013) (30)
- Quantifying the climate response to extreme land cover changes in Europe with a regional model (2018) (29)
- A comment to “Large‐scale bioenergy from additional harvest of forest biomass is neither sustainable nor greenhouse gas neutral”: Important insights beyond greenhouse gas accounting (2012) (28)
- Comparative impact assessment of CCS portfolio: Life cycle perspective (2011) (27)
- When Do Allocations and Constructs Respect Material, Energy, Financial, and Production Balances in LCA and EEIO? (2016) (26)
- Scenarios for the environmental impact of fossil fuel power: Co-benefits and trade-offs of carbon capture and storage (2012) (26)
- Opportunities for the State-of-the-Art Production of LIB Electrodes—A Review (2021) (25)
- Combining Multiregional Input‐Output Analysis with a World Trade Model for Evaluating Scenarios for Sustainable Use of Global Resources, Part I: Conceptual Framework (2016) (25)
- Model-centered approach to early planning and design of an eco-industrial park around an oil refinery. (2008) (24)
- Life Cycle Assessment of Electric and Fuel Cell Vehicle Transport Based on Forest Biomass (2014) (23)
- A life‐cycle assessment model for zero emission neighborhoods (2019) (22)
- Life cycle assessment of fuel cell systems for light duty vehicles, current state-of-the-art and future impacts (2021) (22)
- The Aluminium Industry - Environment, Technology and Production (2004) (21)
- Climate Change Impacts Due to Biogenic Carbon: Addressing the Issue of Attribution Using Two Metrics With Very Different Outcomes (2014) (21)
- Balance issues in input–output analysis: A comment on physical inhomogeneity, aggregation bias, and coproduction (2016) (20)
- A Flexible Model for Benchmarking the Energy Usage of Automotive Lithium-Ion Battery Cell Manufacturing (2021) (19)
- Cooling aerosols and changes in albedo counteract warming from CO2 and black carbon from forest bioenergy in Norway (2018) (18)
- Material use for electricity generation with carbon dioxide capture and storage: Extending life cycle analysis indices for material accounting (2015) (18)
- Climate impact potential of utilizing forest residues for bioenergy in Norway (2013) (18)
- Spatial, seasonal, and topographical patterns of surface albedo in Norwegian forests and cropland (2017) (18)
- Environmental Damage Assessment of Carbon Capture and Storage (2012) (17)
- Effects of regional variation in climate and SOC decay on global warming potential and eutrophication attributable to cereal production in Norway (2014) (16)
- Regionalized climate footprints of battery electric vehicles in Europe (2021) (16)
- Lifting the veil on the correction of double counting incidents in hybrid life cycle assessment (2019) (15)
- Dealing with double-counting in tiered hybrid life-cycle inventories: a few comments – response (2009) (15)
- Hybrid Life Cycle Assessment of Large Scale Hydrogen Production Facilities (2004) (14)
- Evaluation of different CHP options for refinery integration in the context of a low carbon future (2009) (14)
- Life Cycle Modelling of Extraction and Processing of Battery Minerals—A Parametric Approach (2021) (14)
- Emissions of electric vehicle charging in future scenarios: The effects of time of charging (2021) (13)
- Hybridization of complete PLCA and MRIO databases for a comprehensive product system coverage (2020) (13)
- Pathways for GHG emission reduction in Norwegian road transport sector: Perspective on consumption of passenger car transport and electricity mix (2015) (13)
- Radiative forcing bias of simulated surface albedo modifications linked to forest cover changes at northern latitudes (2015) (12)
- Assessment of lignocellulosic biorefineries in Germany using a hybrid LCA multi‐objective optimization model (2019) (11)
- Plastic packaging flows in Europe: A hybrid input‐output approach (2021) (11)
- Shifting Trade Patterns as a Means to Reduce Global CO2 Emissions: Implications for the Aluminium Industry (2005) (11)
- Fuel-mix, fuel efficiency, and transport demand affect prospects for biofuels in northern Europe. (2010) (10)
- Analysis of the Li-ion battery industry in light of the global transition to electric passenger light duty vehicles until 2050 (2022) (10)
- A MULTI-OBJECTIVE ASSESSMENT OF INPUT–OUTPUT MATRIX UPDATING METHODS (2009) (10)
- Comparative Environmental Life Cycle Assessment of Oxyfuel and Post-combustion Capture with MEA and AMP/PZ - Case Studies from the EDDiCCUT Project (2017) (10)
- Environmental impacts along intensity gradients in Norwegian dairy production as evaluated by life cycle assessments (2017) (10)
- Comment on “The significance of Li‐ion batteries in electric vehicle life‐cycle energy and emissions and recycling's role in its reduction” in Energy & Environmental Science (2015) (9)
- Domestic Fractions of Emissions in Linked Economies (2004) (8)
- Global Shipping Emissions from a Well-to-Wake Perspective: The MariTEAM Model (2021) (8)
- Climate impacts of retention forestry in a Swedish boreal pine forest (2018) (7)
- Empirical models of albedo transitions in managed boreal forests: analysis of performance and transportability. (2015) (7)
- Biogenic CO2 fluxes from bioenergy and climate—A response (2013) (6)
- Environmental Due Diligence of CO2 Capture and Utilization Technologies – Framework and application (2014) (6)
- Corrigendum: Nanotechnology for environmentally sustainable electromobility. (2017) (6)
- Estimating CO<sub>2</sub> emissions for 108 000 European cities (2022) (6)
- EMISSIONS FROM COMBUSTION OF H2 AND CH4 MIXTURES IN CATALYTIC BURNERS FOR SMALL-SCALE HEAT AND POWER APPLICATIONS (2005) (4)
- Study of an Industrial Electrode Dryer of a Lithium-Ion Battery Manufacturing Plant: Dynamic Modeling (2021) (4)
- Incentivizing wood-based Fischer–Tropsch diesel through financial policy instruments: An economic assessment for Norway (2010) (4)
- Estimating CO2 Emissions for 108,000 European Cities (2021) (4)
- On the financial balance of input–output constructs: revisiting an axiomatic evaluation (2016) (3)
- High-resolution mapping and modelling of surface albedo in Norwegian boreal forests: from remotely sensed data to predictions (2017) (3)
- From Remotely‐Sensed Data of Norwegian Boreal Forests to Fast and Flexible Models for Estimating Surface Albedo (2018) (3)
- Life-Cycle Approaches for Bottom-Up Assessment of Environmental Impacts of Shipping (2016) (2)
- Approaches to Avoid Double Counting in Hybrid Life Cycle Inventories (2004) (2)
- Life-cycle assessment methodology to assess Zero Emission Neighbourhood concept. A novel model (2019) (2)
- Bioenergy vs. Natural Gas for Production of District Heat in Norway: Climate Implications (2013) (2)
- Impact of Fuel Selection on Techno-environmental Performance of Post-combustion Calcium Looping Process Applied to a Cement Plant (2017) (2)
- Corrigendum to: Hawkins, T. R., B. Singh, G. Majeau‐Bettez, and A. H. Strømman. 2012. Comparative environmental life cycle assessment of conventional and electric vehicles. Journal of Industrial Ecology DOI: 10.1111/j.1530‐9290.2012.00532.x (2013) (1)
- Comparing the cost and emissions of maritime and air transport (2013) (1)
- Life Cycle Analysis - its Structural, Emissions and Institutional Regimes as Policy Constraints (2004) (1)
- High-Resolution Modeling of Aviation Emissions in Norway (2022) (1)
- The Timing of Greenhouse Gas Emissions from Bioenergy Systems: Using Financial Type Indicators and Terminology to Discuss Emission Profiles from Bioenergy (2011) (1)
- A Techno-Economic Model for Benchmarking the Production Cost of Lithium-Ion Battery Cells (2022) (1)
- ECOPT2: An adaptable life cycle assessment model for the environmentally constrained optimization of prospective technology transitions (2022) (1)
- The Industrial Ecology Digital Laboratory (2017) (1)
- Influence of weather on emissions from the global shipping fleet (2019) (0)
- Cooling aerosols and changes in albedo counteract warming from CO2 and black carbon from forest bioenergy in Norway (2018) (0)
- Coupling energy system models with multi-regional input-output models based on the make and use framework – insights from MESSAGEix and EXIOBASE (2023) (0)
- Can comprehensive climate impact assessment of terrestrial ecosystems be included in Life Cycle Assessment to support policy decisions (2014) (0)
- A comparative assessment of value chain criticality of lithium-ion battery cells (2023) (0)
- Correction to "Global Shipping Emissions from a Well-to-Wake Perspective: The MariTEAM Model". (2022) (0)
- Environmental life cycle assessment of cereal and bread production in 1 Norway 2 (2012) (0)
- A novel bottom-up global ship emission inventory for conventional and alternative fuels in a well-to-wake approach (2021) (0)
- A new emission inventory of the global maritime fleet; the effect of weather (2019) (0)
- Radiative forcing bias of surface albedo modifications linked to simulated forest cover changes at northern latitudes (2014) (0)
- Referees for Economic Systems Research, Volume 18, 2006 (2006) (0)
- Energy Reduction in Lithium-Ion Battery Manufacturing using Heat Pumps and Heat Exchanger Networks (2022) (0)
- Correction: Salgado Delgado, M.A., et al. Comparative Life Cycle Assessment of a Novel Al-Ion and a Li-Ion Battery for Stationary Applications. Materials 2019, 12, 3270 (2019) (0)
- Application of probability distributions to the modeling of biogenic CO2 fluxes in life cycle assessment (2013) (0)
- Online Internal Temperature Sensors in Lithium-Ion Batteries: State-of-the-Art and Future Trends (2022) (0)
- Environmental assessment of fossil-based electricity scenarios: Implications of carbon capture and storage. (2011) (0)
- Persistent spread in seasonal albedo change radiative forcings linked to forest cover changes at northern latitudes (2014) (0)
- Issue Information, Cover, and Table of Contents (2018) (0)
- Short-Term Global Warming Mitigation Costs of Fischer-Tropsch Diesel Production and Policy Scenarios In Norway (2010) (0)
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