Bioenergy currently provides more than 60% of renewable energy sources (RES) in Europe, and is one of the key primary energy sources for 20% RES target in 2020. More than half of the current bioenergy is forest based biomass, the growth will be based on forest, agricultural and algae type of biomass resources as well as of the biogenic fraction of municipal and industrial waste. Bioenergy is widely used for heat and power.

The current generation of biomass conversion technologies is expensive and uses feedstock that is associated with sustainability issues. To deliver the targets of the SET-plan and the 10% transport RES target in 2020, a next generation of more sustainable conversion technologies is required. These technologies require substantial resources to complete the various stages of the innovation process (R&D, pilot scale, demonstration scale, commercialisation).

The overall objective of this Joint Programme is to align pre-competitive research activities at EERA institutes to give a technical-scientific basis to further develop the next generation biofuels routes and to explore the possibilities for joint technology development. The more efficient use of R&D investments that this Joint Programme foresees contributes to an acceleration of the development of next-generation conversion technologies.

Sub-programmes

  1. Thermo-Chemical Platform, ECN
  2. Bio-Chemical Platform, LNEG
  3. Algae Platform, Wageningen University
  4. Feedstock production and sustainable biomass, Agro ParisTech
  5. Stationary Bioenergy, SINTEF
Please visit the website for additional information. - See more at: http://www.ukerc.ac.uk/international/european-energy-research-alliance/eera-shale-gas.html#sthash.y1KVNN4y.dpuf

Please visit the website for additional information.

UK Representation

The UK involvement is being led by Prof. Tony Bridgwater of Aston Univeristy Please contact Prof. Bridgwater or Michael Weston for more information and to get involved.