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Energy Chain Analysis of Passenger Car Transport

Author

Listed:
  • Morten Simonsen

    (Western Norway Research Institute, P.O. Box 163, 6851 Sogndal, Norway)

  • Hans Jakob Walnum

    (Western Norway Research Institute, P.O. Box 163, 6851 Sogndal, Norway)

Abstract

Transport makes up 20 percent of the World’s energy use; in OECD countries this has exceeded 30 percent. The International Energy Agency (IEA) estimates that the global energy consumption will increase by 2.1 percent annually, a growth rate that is higher than for any other sector. The high energy consumption means that transportation accounts for nearly 30 percent of CO 2 emission in OECD countries and is also one of the main sources of regional and local air pollution. In this article, we analyze energy consumption and greenhouse gas emissions from passenger car transport using an energy chain analysis . The energy chain analysis consists of three parts: the net direct energy use, the energy required for vehicle propulsion; the gross direct chain, which includes the net direct energy consumption plus the energy required to produce it; and, finally, the indirect energy chain, which includes the energy consumption for production, maintenance and operation of infrastructure plus manufacturing of the vehicle itself. In addition to energy consumption, we also analyze emissions of greenhouse gases measured by CO 2 -equivalents. We look at the trade-offs between energy use and greenhouse gas emissions to see whether some drivetrains and fuels perform favourable on both indicators. Except for the case of electric cars, where hydropower is the only energy source in the Norwegian context, no single car scores favourably on both energy consumption and greenhouse gas emissions.

Suggested Citation

  • Morten Simonsen & Hans Jakob Walnum, 2011. "Energy Chain Analysis of Passenger Car Transport," Energies, MDPI, vol. 4(2), pages 1-28, February.
  • Handle: RePEc:gam:jeners:v:4:y:2011:i:2:p:324-351:d:11360
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    References listed on IDEAS

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    1. Delucchi, Mark, 2005. "A Multi-Country Analysis of Lifecycle Emissions From Transportation Fuels and Motor Vehicles," Institute of Transportation Studies, Working Paper Series qt8nf3606c, Institute of Transportation Studies, UC Davis.
    2. Delucchi, Mark, 2005. "A Multi-Country Analysis of Lifecycle Emissions From Transportation Fuels and Motor Vehicles," Institute of Transportation Studies, Working Paper Series qt1z392071, Institute of Transportation Studies, UC Davis.
    3. Delucchi, Mark, 2005. "A Multi-Country Analysis Of Lifecycle Emissions From Transportation Fuels And Motor Vehicles," Institute of Transportation Studies, Working Paper Series qt5x20v080, Institute of Transportation Studies, UC Davis.
    4. Chester, Mikhail & Horvath, Arpad, 2008. "Environmental Life-cycle Assessment of Passenger Transportation: A Detailed Methodology for Energy, Greenhouse Gas and Criteria Pollutant Inventories of Automobiles, Buses, Light Rail, Heavy Rail and ," Institute of Transportation Studies, Research Reports, Working Papers, Proceedings qt5670921q, Institute of Transportation Studies, UC Berkeley.
    5. Horvath, Arpad & Chester, Mikhail, 2008. "Environmental Life-cycle Assessment of Passenger Transportation An Energy, Greenhouse Gas, and Criteria Pollutant Inventory of Rail and Air Transportation," University of California Transportation Center, Working Papers qt6m5865v5, University of California Transportation Center.
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    Cited by:

    1. Tian Wu & Hongmei Zhao & Xunmin Ou, 2014. "Vehicle Ownership Analysis Based on GDP per Capita in China: 1963–2050," Sustainability, MDPI, vol. 6(8), pages 1-23, August.
    2. Jin Xue & Hans Jakob Walnum & Carlo Aall & Petter Næss, 2016. "Two Contrasting Scenarios for a Zero-Emission Future in a High-Consumption Society," Sustainability, MDPI, vol. 9(1), pages 1-25, December.
    3. Manzone, Marco & Calvo, Angela, 2017. "Woodchip transportation: Climatic and congestion influence on productivity, energy and CO2 emission of agricultural and industrial convoys," Renewable Energy, Elsevier, vol. 108(C), pages 250-259.
    4. Rawan Hakawati & Beatrice Smyth & Helen Daly & Geoffrey McCullough & David Rooney, 2019. "Is the Fischer-Tropsch Conversion of Biogas-Derived Syngas to Liquid Fuels Feasible at Atmospheric Pressure?," Energies, MDPI, vol. 12(6), pages 1-28, March.
    5. Maria La Gennusa & Patrizia Ferrante & Barbara Lo Casto & Gianfranco Rizzo, 2015. "An Integrated Environmental Indicator for Urban Transportation Systems: Description and Application," Energies, MDPI, vol. 8(10), pages 1-19, October.

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