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BIOENERGY FORUM June 18, 2013 Anders Jonsson Anders.h.jonsson@lansstyrelsen.se
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Use of bioenergy in Northern Sweden Forestry Efficient logistics Wood processing industry District heating Engineering
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Forestry in Västerbotten 3,2 mil ha = 57% of total area = 3,4% of forestry land in the EU 300m m3 stock = 2,3% of EU:s stock Growth 9,7 mil m3/year 42% of forestry land is owned by 26 000 private owners = 65 ha/entity Cutting 7 mil m3 = 2% of total cutting in the EU Production of 1 500 000 m3 sawn goods/year = 2,2% of total production in the EU
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Processing Total harvesting 7 mil m3 3 mil m3 - saw milling 3 mil m3 – pulp industry 1-1.5 mil m3 – energy sector
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Saw mill Energy combine Pulp mill Furniture factory Wood house factory Component factory Saw mill District heating plant
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Peat Residues from harvesting Thinning Fractions of fuel Fire wood
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Energy produced and consumed in the forestry processing industry using residues from saw miling and pulp production
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Bioenergy development in Sweden 19701980199020002005 20 40 60 80 100 120 TWh/år 26% 20% 15% 11% 9% Källa: SVEBIO Bioenergy break through in Sweden % = Bioenergy share of total energy consumption in Sweden
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Bioenergy producers in Northern Sweden Kappa +350 Munksund 450 Storuman +600 Umeå +400 Ö-vik +1000 Etek +170 Hissmofors terminal Mondi +100 Korsta +85 Karlsborg +300 ACB +540 Skellefteå 1000 GWh Luleå 400 Gällivare + Kiruna 220 Jämtkraft 650 Ortviken 420 BioNorr 690 Lycksele 190 Enhet: GWh Befintliga Ökningar 6530 10700 + 64% Källa: Norrbränslen
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2010 Total use of bioenergy in Sweden :131 TWh Industry: 55 TWh District heating: 50 TWh Electricity production: 15,5 TWh Heating of individual houses 3,5 TWh Transports 7,5 TWh
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Bioenergy - an importrant and integrated part of the energy system
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40GWh heat,48GWh electricity, 105000 tonnes pellets 80 GWh heat, 16 GWh electricity 136 GHw heat, 55 GWh electricity Malå Lycksele Storuman
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Consumed raw material annually 2,1 TWh (ca 3,2 m m 3 s) Effect: 105 MW (heating 75 MW + el 30 MW). Skellefteå Umeå
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Bioenergy combine BIOPELLETS Bulk deliveries Small district heatiing units HeatingPellets for small scale units Heating ELectricity Raw material Hedensbyn, Skellefteå 2006-01-01
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Biodiesel
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Challenges Production of electricity in our small district heating plants Production of biofuels for vehicles More cost effective methods of harvesting, handling and logistics
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Collaboration We are interested in sharing our experiences with you and welcome cooperation in meeting new challenges Thank you for your attention
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Potential Partners in Russia Bio Energy plant Sawmill Cities: Petrozavodsk Kostamuksha Medvechegorsk landfill Waste-to- Energy plant lowered CO 2 loweredCO 2, CH 4 Biomass; MLPH(InvestLPH) Biomass; Pudosh CA Karelsky LPH GROUND AND SOIL: Karelian Research Centre W-t-E: PCA Avtospetstrans HOUSING EFFICIENCY: PCA loweredCO 2 P DH+Po W A A=Ashes DH=District Heating L+F= Logs+ Firewood P=Bio Pellets PCA=Petrozavodsk City Administration Po= Power R= Residues W= Waste R L+F
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Potentiella partners i Sverige Bioenergikombinat Sågverk Stad deponi Energi ur Avfall anläggning minskad CO 2 minskad CO 2, CH 4 minskad CO 2 FÖRÄDLING AV BIOMASSA: Energibolag; 1.UE 2. Ske Kraft EFFEKTIVARE MARKANVÄNDNING/ PRODUKTION: Skogsbolag; 1. SCA 2. Norra CO 2 - bindning/ marksanering: R-fors K MCN SLU WTE: UE ENERGI BESPARING / EFFEKTIVT BYGGANDE: Umeå K Ske-å K Lycksele K FJV+EL A P SA S T+V A= Avfall EL= Elektricitet FJV= Fjärrvärme P= Bio Pellets S= Sågverlksavfall SA= Slagg Aska T+V= Timmer+ Ved WTE= Energi ur Avfall (Waste to Energy)
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