BIOENERGY FORUM June 18, 2013 Anders Jonsson
Use of bioenergy in Northern Sweden Forestry Efficient logistics Wood processing industry District heating Engineering
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 private owners = 65 ha/entity Cutting 7 mil m3 = 2% of total cutting in the EU Production of m3 sawn goods/year = 2,2% of total production in the EU
Processing Total harvesting 7 mil m3 3 mil m3 - saw milling 3 mil m3 – pulp industry mil m3 – energy sector
Saw mill Energy combine Pulp mill Furniture factory Wood house factory Component factory Saw mill District heating plant
Peat Residues from harvesting Thinning Fractions of fuel Fire wood
Energy produced and consumed in the forestry processing industry using residues from saw miling and pulp production
Bioenergy development in Sweden TWh/år 26% 20% 15% 11% 9% Källa: SVEBIO Bioenergy break through in Sweden % = Bioenergy share of total energy consumption in Sweden
Bioenergy producers in Northern Sweden Kappa +350 Munksund 450 Storuman +600 Umeå +400 Ö-vik 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 % Källa: Norrbränslen
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
Bioenergy - an importrant and integrated part of the energy system
40GWh heat,48GWh electricity, tonnes pellets 80 GWh heat, 16 GWh electricity 136 GHw heat, 55 GWh electricity Malå Lycksele Storuman
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
Bioenergy combine BIOPELLETS Bulk deliveries Small district heatiing units HeatingPellets for small scale units Heating ELectricity Raw material Hedensbyn, Skellefteå
Biodiesel
Challenges Production of electricity in our small district heating plants Production of biofuels for vehicles More cost effective methods of harvesting, handling and logistics
Collaboration We are interested in sharing our experiences with you and welcome cooperation in meeting new challenges Thank you for your attention
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
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)