• Title of article

    Climate impact and energy efficiency from electricity generation through anaerobic digestion or direct combustion of short rotation coppice willow

  • Author/Authors

    Ericsson، نويسنده , , Niclas and Nordberg، نويسنده , , إke and Sundberg، نويسنده , , Cecilia and Ahlgren، نويسنده , , Serina and Hansson، نويسنده , , Per-Anders، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2014
  • Pages
    13
  • From page
    86
  • To page
    98
  • Abstract
    Short rotation coppice willow is an energy crop used in Sweden to produce electricity and heat in combined heat and power plants. Recent laboratory-scale experiments have shown that SRC willow can also be used for biogas production in anaerobic digestion processes. life cycle assessment is used to compare the climate impact and energy efficiency of electricity and heat generated by these measures. All energy inputs and greenhouse gas emissions, including soil organic carbon fluxes were included in the life cycle assessment. The climate impact was determined using time-dependent life cycle assessment methodology. ystems showed a positive net energy balance, but the direct combustion system delivered ninefold more energy than the biogas system. Both systems had a cooling effect on the global mean surface temperature change. The cooling impact per hectare from the biogas system was ninefold higher due to the carbon returned to soil with the digestate. sating the lower energy production of the biogas system with external energy sources had a large impact on the result, effectively determining whether the biogas scenario had a net warming or cooling contribution to the global mean temperature change per kWh of electricity. In all cases, the contribution to global warming was lowered by the inclusion of willow in the energy system. The use of time-dependent climate impact methodology shows that extended use of short rotation coppice willow can contribute to counteract global warming.
  • Keywords
    Time-dependent climate impact , Biogas , Soil carbon , Combined heat and power , Land use change , Life cycle assessment
  • Journal title
    Applied Energy
  • Serial Year
    2014
  • Journal title
    Applied Energy
  • Record number

    1608792