Anders Hammer Strømman mainly focuses on Life-cycle assessment, Greenhouse gas, Climate change, Environmental economics and Environmental engineering. His work deals with themes such as Bio-energy with carbon capture and storage, Waste management, Data mining and Environmental resource management, which intersect with Life-cycle assessment. His research on Greenhouse gas also deals with topics like
Anders Hammer Strømman mostly deals with Global warming in his studies of Climate change. While the research belongs to areas of Environmental economics, Anders Hammer Strømman spends his time largely on the problem of Energy consumption, intersecting his research to questions surrounding Gasoline, Diesel fuel, Energy balance, Fossil fuel and Renewable energy. The Environmental engineering study combines topics in areas such as Slow steaming, Speed limit and Bioenergy.
Anders Hammer Strømman mostly deals with Life-cycle assessment, Greenhouse gas, Environmental engineering, Bioenergy and Climate change. His Life-cycle assessment research is multidisciplinary, incorporating perspectives in Industrial ecology, Waste management, Natural gas, Environmental impact assessment and Environmental economics. The study incorporates disciplines such as Energy consumption and Process in addition to Environmental economics.
His Greenhouse gas research integrates issues from Natural resource economics and Automotive engineering. His Environmental engineering research includes themes of Bio-energy with carbon capture and storage, Hydrogen production and Fuel efficiency. His work in the fields of Climate change, such as Global warming, overlaps with other areas such as Context.
Anders Hammer Strømman focuses on Life-cycle assessment, Greenhouse gas, Industrial ecology, Process engineering and Lithium-ion battery. His research integrates issues of Environmental economics, Renewable energy and Built environment in his study of Life-cycle assessment. His research in Environmental economics tackles topics such as Efficient energy use which are related to areas like Climate change mitigation.
His Renewable energy research is multidisciplinary, incorporating elements of Global-warming potential, Comparative life cycle assessment and Environmental impact assessment. He frequently studies issues relating to Environmental engineering and Greenhouse gas. Anders Hammer Strømman has researched Industrial ecology in several fields, including Linear programming, Multi-objective optimization, Data quality and Biochemical engineering.
Anders Hammer Strømman mainly investigates Life-cycle assessment, Climate change mitigation, Biomass, Peer review and Land cover. He combines subjects such as Environmental economics, Embodied energy, Unit and Built environment with his study of Life-cycle assessment. Anders Hammer Strømman interconnects Global warming, Efficient energy use and Bioenergy in the investigation of issues within Climate change mitigation.
His Biomass study integrates concerns from other disciplines, such as Coal, Coal mining, Stove and Greenhouse gas. His Peer review study spans across into areas like Environmental resource management, Regional model and Climate response.
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Comparative Environmental Life Cycle Assessment of Conventional and Electric Vehicles
Troy R. Hawkins;Bhawna Singh;Guillaume Majeau‐Bettez;Anders Hammer Strømman.
Journal of Industrial Ecology (2013)
Life cycle assessment of bioenergy systems: state of the art and future challenges.
Francesco Cherubini;Anders Hammer Strømman.
Bioresource Technology (2011)
CO2 emissions from biomass combustion for bioenergy: atmospheric decay and contribution to global warming
Francesco Cherubini;Glen Philip Peters;Terje Koren Berntsen;Anders Hammer Strømman.
Gcb Bioenergy (2011)
Life Cycle Environmental Assessment of Lithium-Ion and Nickel Metal Hydride Batteries for Plug-In Hybrid and Battery Electric Vehicles
Guillaume Majeau-Bettez;Troy R. Hawkins;Anders Hammer Strømman.
Environmental Science & Technology (2011)
Environmental impacts of hybrid and electric vehicles—a review
Troy R. Hawkins;Ola Moa Gausen;Anders Hammer Strømman.
International Journal of Life Cycle Assessment (2012)
Bioenergy and climate change mitigation: an assessment.
Felix Creutzig;Nijavalli H. Ravindranath;Göran Berndes;Simon Bolwig.
Gcb Bioenergy (2015)
Life Cycle Assessment of a Lithium‐Ion Battery Vehicle Pack
Linda Ager-Wick Ellingsen;Guillaume Majeau-Bettez;Bhawna Singh;Akhilesh Kumar Srivastava.
Journal of Industrial Ecology (2014)
State-of-the-art technologies, measures, and potential for reducing GHG emissions from shipping – A review
Evert A. Bouman;Elizabeth Lindstad;Agathe I. Rialland;Anders H. Strømman.
Transportation Research Part D-transport and Environment (2017)
Reductions in greenhouse gas emissions and cost by shipping at lower speeds
Haakon Lindstad;Bjørn E. Asbjørnslett;Anders H. Strømman.
Energy Policy (2011)
Evaluation of process- and input-output-based life cycle inventory data with regard to truncation and aggregation issues.
Guillaume Majeau-Bettez;Anders Hammer Strømman;Edgar G Hertwich.
Environmental Science & Technology (2011)
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