IDIOTS GUIDE TO BIOGAS PRODUCTION Brian Cox Executive Officer, Bioenergy Association of New Zealand
Bioenergy Association • Represents all leading NZ bioenergy sector players • 3 Interest Groups – Biogas – Liquid Biofuels and Co-products – Wood Energy • Bioenergy currently supplying 10% of energy used in NZ – Potential to do much more, with a huge untapped resource – Well established conventional technologies – Platform for new advanced biofuel technologies and co-products • Leading implementation of the Bioenergy Strategy – Achieving economic, employment and environmental benefits via bioenergy • Membership based organisation – Quality Framework – Registered Biogas Advisers – Training and Technical Guides – Workshops and conferences – Promotion of member’s products and capabilities
Biogas Interest Group Active since 2008 • Focused on developing • the biogas market Sets sector standards • and develops Technical Guides Organises workshops • A point of contact • between consultants, researchers, equipment suppliers and plant owner/operators Provision of information • Biogas website • www.biogas.org.nz
Messages for this workshop • There is an emerging rural biogas market with potential for participants. • Landowners can produce a range of energy or bio-based products. • Biogas initiatives can integrate with existing farm activities • Economies of scale require collaboration • Currently biogas is often a niche opportunity • Biogas production is proven and already produces revenue – however requires multiple feedstocks and multiple products to be viable
Benefits of biogas production for farmers • New business opportunities – New products – Building on existing capabilities, infrastructure, and staff – Export of biogas production capability/skills • Business resilience – Cost stabilisation – High quality fertiliser production • Using organic production residues – Revenue from production residues – Reduce waste disposal costs – Co-product with biochemicals • Green growth – New products based on sustainable resources • Leading into the bioeconomy
The energy opportunity electricity Multiple Meeting our solutions / environmental heat options & energy needs transport Often linked to demand for chemical products BUT Fuelling transport with biofuels is our greatest challenge and opportunity – flexible, transportable, clean, sustainable
Involves thinking differently • Focusing on additional value from farm residues (often wasted) - not just energy • Energy is the pathway - not the end point • Environmental solutions - Waste reduction - Reduce nutrient runoff - Air emissions reduction • Green business growth - not greening growth
Fits within Government Business Growth Agenda Developing NZ’s renewable energy • opportunities Government endorsement of the • Bioenergy Strategy Embrace new energy technologies • Reduce energy related emissions of • greenhouse gas’s Secure and affordable energy • Heat Sector Objectives and Targets • – 9.6PJ Encourage greater diversity of • transport fuels A platform for us to make money from farm residues
Achieving economic, employment and environmental benefits via bioenergy This Strategy will realise : – economic growth, employment and regional prosperity; – Supplies 25% of the country’s energy needs, – Supplies 30% of transport fuels, by 2040; – based on existing capability in forestry, wood processing and converting organic by-products to energy – Takes NZ into a post petroleum era A $6 billion sector
The Bioenergy Strategy will • Provide additional revenue streams for land owners – Greater value from existing land use activities – Economic growth from improved land use and use of residues – Increase business resilience and wealth obtainable from diversified land use • Use bioenergy as a leader into the wealth potential of the wider bio-economy – Production of value added bio-materials • Increase the utilisation of residue so that waste is reduced and environmental outcome maximised – Reduce environmental impacts to air, soil and water – Enhance the quality of New Zealand’s ‘Green Image’
What is biogas production Biogas production using an oxygen free biological treatment process of organic matter to reduce odor, produce energy and improve the storage and handling characteristics of manure. Products – Biogas for heat and feedstock for production of biobased materials – Fertiliser – On farm vehicle fuel – Farm and production residue utilisation – Farm environmental management
Biogas in NZ • New Zealand has: – Long history of biogas related developments – An extension of existing agricultural and process industries – Experienced biogas consultants – Innovation and leading edge solutions attracting world attention – Successful niche applications • Fewer farm applications than in 1985 • Focus has been on production of biogas from landfill and food processing applications • Resurgence of interest in farm applications – Larger herds – Increase of use of feedpad and stand-off pads – Farmers looking at additional business opportunities
NZ already a leader in biogas Annual Biogas Use in GJ/ Person by Country 2007/8 4.6PJ across NZ cf 5.5PJ residential natural gas use (2009)
Range of technology options Tank systems Covered pond systems
Biogas Output Biogas yield m3/tonne
Biogas output Examples of feedstock variance
Comparison of analysis results for undigested and digested feedstock TN NH4-N P2O5 K2O DM pH feedstock kg/m3 kg/m3 kg/m3 kg/m3 % - Feedstock 3.0 2.0 1.4 3.5 4.7 7.3 dairy cattle/pig slurry (Suffolk, UK) Digestate 3.4 2.3 1.6 3.2 4.2 7.75 Change % +13 +15 +18 -7 -10 - Feedstock 7.6 3.5 0.65 1.3 2.33 7.6 pig slurry (Yorkshire, UK) Digestate nr 4.9 0.61 nr 1.84 8.1 Change % - +40 -6.2 - -21 - Feedstock 4.9 2.3 nr nr 8.8 7.2 beef cattle slurry, beef housed on slats Digestate 4.2 2.5 nr nr 6.5 7.7 (Northern Ireland) Change % -14.3 +8.7 - - -26.1 - Feedstock 4.63 2.16 1.86 nr 11.32 7.4 Beef cattle slurry (New York State, USA) Digestate 5.11 2.88 1.92 nr 67.2 7.9 Change % +10.4 +33.3 +3.2 - -25.2 - Feedstock 3.48 1.70 1.79 nr 8.81 7.6 Beef cattle slurry (Wisconsin, USA) Digestate 3.25 2.12 1.64 nr 5.69 8.2 Change % -6.6 +24.9 -8.4 - -35.4 - Note: TN – total nitrogen, DM – dry matter nr – no record. Source: ADI Systems, Technical Guide 8, The Production and Use of Digestate as Fertiliser. (Data fromADAS UK Ltd, 2007).
Co-digestion of waste + industrial feedstocks improves yield Energy Crops Manure/ Sewage Sludge Improved Gas Yield (1.5 x) Food Proper Residuals Improved Ratio Productivity (2 x) Primary Processing High Lipid Waste
Coproducts • Low calorific value biogas • Fuel for heat plant • Engine fuel • Electricity production • Solid fertiliser • Liquid fertiliser • Humus material • Solid pellet fertiliser • Nitrogen extract • Cleaned wastewater
The energy economics Source; Jurgen Thiele, Case Study: Biogas from farm wastes and agro-industrial biosolids. Presentation to BANZ conference 2013
Fertiliser product Source: Jurgen Thiele BANZ conference 2010
The value of fertiliser Example of relative product values from food processing AD facility “EBITDA” Process Tipping Electricity Fertiliser Operating Options fees sales sales cost 5% 11.1 4.5 2.3 9.4 8.5 contam. 0% 3.8 5 2.6 8.8 2.6 contam. 35% 14.6 3.8 2 14.3 6.1 contam Europe 39.2 4.5 0 9.4 34.3 (2002) (Compost) Figures are percent of capital cost “EBITDA” Earnings Before Interest, Tax, Depreciation, Amortisation. Source: Jurgen Thiele, BANZ conference 2010
Km travel per hectare – Land efficiency Source: www.biodieselnow.com/forums/t/19315.aspx
Methane to plastics Biodegradable plastics from waste biogas (methane) that are economically competitive with conventional oil-based plastics .
Dairy farm benefits • Waste disposal • Small scale solutions – think local/act local • RMA waste mitigation – key driver • Integrated opportunities for coproducts • Production of high grade farm fertiliser • On site heat • Reduce environmental impact • Reduced peak electricity demand charges • Enhance milk quality – reduce somatic # • Reduce energy cost – energy intensive
Biogas tools Bioenergy Association is developing tools to assist farmers construct viable safe operating AD plant – Development of a “Technical Guide for farmers to be able to use off-the-shelf solutions for collecting and processing dairy effluent into biogas and fertiliser”. (This is the updating to the existing NZ Standard and incorporates safety measures from European standards). – Development of a calculation tool for accessing the energy output from farm AD plant using a range of herd sizes and feedstocks. – Hosting of regional workshops to showcase to farmers how they can collect and process dairy effluent into biogas and fertiliser – Development of a “Technical Guide for the collection and supply as a vehicle fuel of biogas from farm based biogas production plant”. – Registration of Biogas Advisers who meet competency criteria. [However progress is slow because of the lack of funding ]
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