Colin Robertson 27 February 2013 Enerman Technology Showcase
Scottish Biofuel Programme “at its heart the Programme has the simple but potent concept of creating high value sustainable biofuel from abundant low value biomass” “At the heart of the Programme is the simple yet potent concept of creating bio-energy and sustainable biofuels from low value organic waste and by-products.” simultaneously stimulating social environmental awareness and entrepreneurial drive.
Benefits… Convert residues into biofuel Address disposal problems Produce renewable energy Generate new revenue Reduce costs Meet environmental goals Comply with legislation through deriving biofuel from biological waste, residues/waste and by-products of biomass-based industrial sectors.
Ref: http://wasteawarebusiness.wordpress.com “waste has become a transitional state — a phase — rather than an end-product” Biofuel is a highly relevant issue in the promotion of waste-management Zero waste legislation and aims Landfill impact on business costs – and environment Best use of carbon Manage business costs
Scottish Biofuel Programme Create value from residues Support SMEs convert organic residues to valuable biofuels Access experts in several biofuel areas Test feasibility and business case Fund next steps to commercial process Augment business success create and support new and existing demand within the SME market regarding the business and economic benefits of using biofuels. case studies and pilots so as to create lighthouse projects - exemplars that other businesses can follow and emulate Development of technologies and facilities that the company would not be able to provide for itself. The centre should be a technology and business hub for biofuel Projects that are considered too high-risk by the business could be progressed to proof of principle.
Programme Partners University of Edinburgh University of Abertay Dundee University of Edinburgh Scottish Association for Marine Science SAC Consulting – a division of SRUC Edinburgh Napier University SAMS: feasibility and viability of producing biofuels from marine biomass - both macroalgal (seaweeds) and microalgal (single celled plants) - as an alternative to production from terrestrial land plants SAC Consult: Agriculture can generate much of the energy it uses and export surplus to other sectors. Reducing carbon is a business opportunity for agriculture. Farm-scale AD - Slurry good as a basic feed stock. Higher energy feedstock required to increase output. Demand for heat will improve project viability Consultancy expertise, such as: analysis of grain and oilseed markets; economics of bio-fuel and energy crops; carbon management; agricultural investment appraisal
Programme Funders Scottish Enterprise Scottish Government European Regional Development Fund Value £1.66M (to 03/15)
Process and Products SME Motivation By-product Characterisation Biofuel/chemicals Carbon capture Heat & power Fertiliser Business benefits
Biofuel and chemicals feedstock butanol ethanol acetone biodiesel fermentation algae culture Liquid fuels Commodity chemicals Biobutanol production by ABE fermentation also bioethanol and bioacetone Use as transport fuel (and bulk chemical), Mixes well with existing fuels, high energy yield, 25% higher energy per volume than ethanol Easier storage and safer handling, compatible with existing fuel infrastructure. Can be blended with diesel legally recognised as a biofuel by incorporation in the 2009 amendment to the RTFO Can be made from non-food feedstocks Celtic Renewables Bioethanol at Abertay: fuel alcohol fermentation using lignocellulose, and seaweed as feedstocks Decarbonise the transport sector Regarding biofuels, the focus will be on the development of second generation biofuels with improved energy and environmental balance and which avoid the potential food/fuel conflict.
Carbon capture Process CO2 Algae culture Process waste water feedstock pyrolysis biochar Biochar The thermal process used to produce biochar from biomass is known as pyrolysis (zero-oxygen 250-800°C) Biochar is a specially designed charcoal which offers a bright future for organic resource management, soil improvement and energy production. It contains a high proportion of extremely stable carbon, and so sustainable production of biochar can be a significant, viable Negative Emissions Technology for mitigating man-made climate change. Algae can be a powerful tool in bioremediation and can be used to treat industrial and municipal wastewater. Algae consume CO2 Soil improver
Heat and Electricity feedstock anaerobic digestion pyrolysis oil & gas biogas Heat and electricity Anaerobic digestion to convert organic residuals into biogas: Microbial dynamics Process modelling and optimisation Feedstock pre-treatment Digestate post-treatment Co-digestion processes Biochar: showed how a system could be configured to maximise either biochar production, electricity output, or heat output, and a life cycle analysis and techno-economic assessment examined carbon abatement potential, and potential revenues under a variety of scenarios.
Fertiliser feedstock anaerobic digestion pyrolysis biochar digestate Reduce the application of mineral fertilisers and agrochemicals – allow agriculture to improve the efficient use of nutrients from fertiliser Biochar as a sustainable option for climate change mitigation and adaptation
Process and Products Decrease costs Generate Revenue SME Motivation By-product Characterisation Biofuel/chemicals Carbon capture Heat & power Fertiliser Business benefits Decrease costs Generate Revenue
How to work with the Programme Initial Advisory Report Information about technologies and landscape Advice and literature review of similar feedstocks Characterisation How much product can your feedstock produce? Development Optimisation and scale-up Business case development Added value from networking with academic, industry and government stakeholders Signposting to other sources of expertise and support
Development To add value and insight to projects most-likely to succeed Supported by £70k per annum fund Project specific consultancy More –detailed business case Demonstration of feasibility and predictability in time and cost to develop processes is absolutely critical to increase awareness and adoption of IB by more conservative industries.
Key points Create value from residues Support SMEs convert organic residues to valuable biofuels Access experts in several biofuel areas Test feasibility and business case Fund next steps to commercial process Augment business success We need to build relationships so that we can have confidence in academic partners’ technical ability, and know that we can trust them, and that they understand our needs.
Contact Colin Robertson T. 0131 455 3234 M. 07557 458740 Innovation/Business Development Manager T. 0131 455 3234 M. 07557 458740 E. c.robertson@napier.ac.uk W. www.biofuels-scotland.co.uk