Forest energy resources, certification of supply and markets for energy technology
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Transcript of Forest energy resources, certification of supply and markets for energy technology
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Metsäntutkimuslaitos Skogsforskningsinstitutet Finnish Forest Research Institute www.metla.fi
Forest energy resources, Forest energy resources, certification of supply and markets certification of supply and markets
for energy technologyfor energy technology
Timo Karjalainen, Finnish Forest Research Institute
Arvo Leinonen, Technical Research Centre of Finland
Lassi Linnanen, Lappeenranta University of Technology
e-mail [email protected]
The Bioenergetics and Biotechnologies
- an effective utilization of waste of timber cuttings and wood processing
14-15 October 2009, Moscow, Russia
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AcknowledgementGlobal forest energy resources, certification of supply and markets for energy technology – GLOENER –project
PartnersFinnish Forest Research Institute (Metla)Technical Research Centre of Finland (VTT)Lappeenranta University of Technology (LUT)
Fundingthe Finnish Funding Agency for Technology and Innovation (Tekes) through ClimBus - Business Opportunities in Mitigating Climate Change programmeStora Enso Oyj, Vapo Oyj, Metso Power Oy, John Deere Forestry Oy, Pentin Paja Oy, Neste Oil Oyj
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estimation of the availability of forest biomass to energy production and markets for the Finnish energy technology
sustainability criteria for bioenergy production and utilisation
case studies assessing forest energy potentials, harvesting technology and biomass plants
participation in the IEA Bioenergy cooperationTask 31 “Biomass production for energy from sustainable forestry”
Task 40 “Sustainable international bioenergy markets: securing supply and demand”
Content / main activities
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Geographical focus
North and South America, representing rapidly growing markets for both supply chain and plant technology for biomass based energy generation
North-West Russia, representing potential supplier of forest biomass as well as emerging technology market near EU
South-East Asia, improvment of palm oil production process which could open opportunities for Finnish technology and know-how transfer
To gather and analyse information about energy sectors, forest energy potentials and infrastucture from the target regions to help Finnish technology suppliers to succeed in the market
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Global potential of modern energywood- accumulation from current fellings and unutilized increment
Source: Anttila P., Karjalainen, T. & Asikainen. A. 2009
• 0.7- 1.2 bill. m3 / 1300- 2400 TWh / 4.7-8.8 EJ
• equal to 1-2 % of the primary energy demand
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European Union (EU 27)Source: Asikainen, A., Liiri, H., Peltola, S., Karjalainen, T. & Laitila, J. 2008. Forest energy potential in Europe (EU 27). Working Papers of the Finnish Forest Research Institute 69. 33 p.
Theoretical forest energy potential 785 mill. m3
Technically harvestable 190 mill. m3
Felling residues 84 mill. m3 (incl. 7 mill. m3 stumps) Total amount of felling residues from current fellings 211 milj. m3
103 mill. m3 from unutilised increment (25% of the unutilised increment) 36 Mtoe or 411 TWh
equals total energy consumption in Finland or 2% of the EU energy consumption
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European Union (EU 27), continuedSource: Asikainen, A., Liiri, H., Peltola, S., Karjalainen, T. & Laitila, J. 2008. Forest energy potential in Europe (EU 27). Working Papers of the Finnish Forest Research Institute 69. 33 p.
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Energy consumption in Finland in 2007
20%
54%46%
68%32%
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Consumption of wood-based fuels in Finland
54%
30%
16%
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Rawmaterial for forest chips consumed by heating and power plants in Finland
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Unspecified
Stumps and roots
Large-sized timber
Logging residues
Unpruned small-sizedtree
Pruned small-diameterstem
Source: Finnish Forest Research Institute, Metinfo
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Heating and power plants using forest chips
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Sustainability criteria for biomass – views of Finnish stakeholders, results
sustainability criteria for biomass needed and important because of the expanding and globalising nature of the use of biomass, impacts of production and utilisation
strong view that the current bioenergy production and utilisation in Finland are in sustainable levels, thus unnecessary yet to develop the national bioenergy production criteria in Finland 95% of forests certified under the Pan-European Forest Certification
System sustainability criteria needed internationally in order to steer the
production and utilisation of biomass to a more sustainable direction
Finland should participate in the outlining of the sustainability criteria at international level, and in bringing out the Finnish special circumstances environmental, social and economic criteria to be taken into account
Source: Hämäläinen et al. 2008
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Case studies
assessed forest energy resource potential: logging residues, small wood and forest industry residues
assessed the most competitive supply chains and appropriate machine technologies for harvesting and transport of biomass for the power plant and assess the procurement costs of wood biomass
assessed feasibility of woody biomass-based CHP, heat or co-firing plant: power plant technology, power production cost and reduction of emissions
estimated possibilities for Finnish technology suppliers in the area
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Availability of forest chips to Varkaus biofuel production plant in Finland
Availability of forest chips, i.e. technical potential – present usage, as a function of transporting distance.
Stora Enso Varkaus mill one of the investment candidates for a full-scale commercial biofuel production plant owned by a joint venture between Stora Enso and Neste Oil
Source: Laitila J et al. 2008
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Biomass plant in Kostomuksha, Russia
Techno-economic potential of energy wood 180000 m3/a / 360 GWh/a, peat resources 326 TWh
Average long distance transportation 118 km, procurement cost about 13 €/MWh
CHP plant: 40 MW heat, 25 MW steam and 40 MW electricity to the town and the iron pellet factory use 40% of the fuel forest chips, 60% coal or peat
Profitability of the biomass plant require higher price for mazut oil
Energy production costs
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Biomass+Coal CFB Mazut 15 €/MWh Mazut 30 €/MWh
€/M
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Electricity purchaseOther costElectricity costsFuel costsMaintenance costsOperational costsCapital costs
Source: Raitila et al. 2009
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Availability of biomass, harvesting and energy production in Uruguay studied fuels logging residues, bark, excess roundwood and
agro biomass condensing power plant of 30 MWe, 50 MWe and 70 MWe
analysed electricity production costs 90-100 €/MWh using the
cheapest materials (bark and felling residues)Breakdown of the electricity production costs in 30 MW power plant
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€/MWh
Source: Virkkunen et al. 2009
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Wood pellet production in British Columbia, Canada about 1 mill. tons of industrial
woody residues in 2008 200–500 million m3 of
unharvested mountain pine beetle-killed wood
availability 1,9 – 3,2 mill. tons/a raw material for 10-20 new pellet
factories (using 150000 tons/a) payback time for the investment
about 3 years (15-18 % calculated internal rate of return)
Source: Wiik et al. 2009
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Conclusions
estimates of the wood energy potential on the global level demonstrate that the potential limited regionally wood fuels can play significant role in energy
market and can help in meeting emission reduction targets
increasingly important to ensure that biomass production and utilisation in energy production is sustainable due to internationalisation of biofuel markets
case studies provided valuable information possible to direct further investigations and technology
knowhow to promising regions / areas
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