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Availability and characteristics of the future UK biomass resource

This presentation provides an overview of the availability and characteristics of the future UK biomass resource, including the importance of waste resources, the need for flexible technologies, and the role of second-generation technologies. It also discusses the integration of bioenergy with the global food system and the significance of imports for UK targets.

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Availability and characteristics of the future UK biomass resource

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  1. Availability and characteristics of the future UK biomass resource Dr Patricia Thornley & Mr Andrew Welfle, SUPERGEN Bioenergy Hub, University of Manchester

  2. Presentation overview 1. Background to the SUPERGEN Bioenergy Hub 2. Context for future UK biomass resource 3. Specifics of future UK biomass resource

  3. Hub Objectives Act as a focal point for sharing and dissemination of scientific knowledge and engineering understanding to facilitate near-term deployment of technologies Investigate and develop new approaches for dealing with the very significant engineering challenges associated with deployment of more novel technologies Improve scientific understanding of the fundamental aspects of different forms of biomass and its conversion Take a whole-systems perspective to comprehensively evaluate the potential of future technology options Adopt an interdisciplinary approach to look beyond the engineering and technical aspects of bioenergy and ensure adequate consideration of the impacts on ecosystems, social responses to technology deployment and the economic context of policy development

  4. SUPERGEN Bioenergy Hub Tyndall Manchester Aston University University of Bath Leeds University Newcastle University Rothamsted Research Drax Progressive EnergyRenewable Energy AssociationNorth Energy AssociatesSustainable Energy LtdRenewable Energy SystemsGreenacresBiomass Energy CentreDanish Tecnologik InstituitDalkia

  5. Projects Initial projects • Emissions from solid biomass • Impact of feedstock parameters on airborne emissions • Evaluation of substitute natural gas • Streamlining the supply chain • Carbon uncertainties in the supply chain • Gasification integration • Torrefaction integrated assessment • Carbon capture & storage enabling technologies • Bio-oil upgrading • Whole systems analysis of novel biofuel technologies Later work 1. Public perceptions 2. Biochar 3. Biomass for carbon/materials 4. Micro algae 5. Sustainability of imports 6. Food-fuel conflict 7. Gasification demo plant etc.

  6. 2. Context for future UK biomass resource

  7. Availability and characteristics of future UK biomass resource • The biomass resource from UK feedstocks could reach around 10% of current UK primary energy demand by 2030, at a cost of less than £5/GJ 1 • Plus a large global woody biomass element • Supergen Bioenergy research shows that the sustainable level of UK biomass resource is lower than this: 4.9% of total energy demand (4.3% of heat demands, 4.3% of electricity, and 5.8% of transport fuel).2 • Plus a large global woody biomass element • DECC, 2009, ‘Biomass Supply Curves for the UK’, www.decc.gov.uk/publications/ • (2) Thornley et al., “Sustainability constraints on UK bioenergy development”, Energy Policy, 2009

  8. Future feedstocks (1) • Making efficient use of available waste often maximizes sustainability benefits, particularly greenhouse gas balances

  9. Greenhouse gas savings Thornley et al., “Assessing the sustainability of bioelectricity supply chains”, BIOTEN conference, Birmingham

  10. Future feedstocks (2) • Feedstock characteristics significantly impact on plant performance • Uniform feedstocks are particularly attractive • Technologies that are “omnivorous”/feedstock flexible are key to unlocking significant resources

  11. Thornley, P., “Biofuels Review”, Report for Government Office for Science, prepared as part of the Foresight Programme, June 2012

  12. Future feedstocks (3) • Second generation technologies help address many sustainability issues because of their “whole-chain” (not their thermodynamic!) efficiency

  13. Greenhouse gas savings are not dependent on efficiency Thornley et al., “Integrated assessment of bioelectricity technology options”, Energy Policy 37 (2009), 890-903

  14. Importance of advanced technologies Thornley, P., “Biofuels Review”, Report for Government Office for Science, prepared as part of the Foresight Programme, June 2012

  15. 3. Specifics of future UK biomass resource

  16. Modelling Approach • Stage One – Assessment of the UK Land Area Available for Biomass Resource Growth • Stage Two – Biomass Planting Scenarios & Quantifying the Indigenous Biomass Resource • Stage Three – The Bioenergy Resource Demand: Balancing Indigenous Potential vs. Imports

  17. Developing Resource Forecast Scenarios

  18. Potential Resource Availability within each Scenario Grown Biomass Resource Energy Crops, Forestry Product, SRF, SRC etc Residue Biomass Resource Agricultural, forestry, industry etc Waste Biomass Resource MSW, Sewage/Sludges, Industry etc

  19. Conclusions Waste resources will be even more significant in future Integration of bioenergy with the global food system is important Imports are essential for UK targets and flexible technologies are needed to be resilient to their characteristics Second generation technologies improve many “sustainability” issues because of their higher efficienty potential The interfaces between the food system, land system, energy system and biomaterials demands must be taken into account in bioenergy resource assessments

  20. Availability and characteristics of the future UK biomass resource Dr Patricia Thornley & Mr Andrew Welfle, SUPERGEN Bioenergy Hub, University of Manchester

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