- The ETI will invest £160,000 in a seven month Carbon Life Cycle Assessment Evidence Analysis project in its Bioenergy Programme
- The project will review existing life cycles assessment studies to compile reliable data sources for assessments upon UK relevant bioenergy feedstocks
- Renewable and sustainable energy consultancy North Energy Associates (NEA) will lead the project, working with Forest Research and the National Non-Food Crops Centre (NNFCC)
The Energy Technologies Institute has appointed North Energy Associates (NEA) to lead a new Carbon Life Cycle Assessment (LCA) Evidence Analysis project in its Bioenergy Programme.
Sheffield based NEA are a low carbon energy consultancy who specialise in conducting LCAs, particularly relating to bioenergy, biofuels, biochemicals and biomaterials. They will work with partners Forest Research and the NNFCC on the seven month project which will see the ETI invest £160,000.
LCAs are used to understand the greenhouse gas emissions associated with bioenergy from across the supply chain, from feedstock production to energy production. Several different methodologies can be used in LCAs and this new ETI project will assess the strengths and weaknesses associated with applying these methodologies to bioenergy value chains.
It will also review sources of data for LCAs and produce a compendium of the best and most reliable data across different UK-relevant bioenergy feedstocks and value chains. This compendium will form the basis of a series of carbon balance calculations across a range of bioenergy value chains so that emissions from different feedstocks can be compared.
Nigel Mortimer, North Energy Associates Ltd Director & Project Manager said:
This is a particularly timely project given the recent international agreement and national commitments to achieving urgent and significant reductions in greenhouse gas emissions in order to avoid the worst excesses of global climate change. Through their essential characteristics, diverse forms of bioenergy offer real opportunities for implementing practical mitigation measures on a national and global scale, but only if their potential benefits, in terms of greenhouse gas emissions savings, can be proven. Correctly formulated and applied, the well-established technique of life cycle assessment is the means to evaluate the prospects for bioenergy in an objective, thorough and robust manner.