Country: Sweden. Total number of plants: with co-firing: fossil fuels for co-firing:

Transcription

1 Total number of plants: with cofiring: fossil fuels for cofiring: Locations (+database No.): Ängelholm (112), Arlanda (113), Boras (114), Eksjo (115), Enköping (116), Eskilstuna (117), Falun (118), Fors (119), Gällivare (120), Göteborg (121), Helsingborg (122), Hudiksvall (123), Jönköping (124), Karlstad (125), Kiruna (126), Kristianstad (127), Linköping (128), Lugnvik (129), Lund (130), Lycksele (131), Malmö (132), Nässjö (133), Norrenergi (134), Norrköping (135), Nyköping (136), Örebro (137), Örebro (138), Oskarshamn (139), Rauhalahti (140), Sala (141), Skelleftea (142), Stockholm (143), Sundsvall (144), Umea (145), Uppsala (146), Varberg (147), Värnamo (148), Västeras (149), Växjö (150). Year of construction No. before % % after % unknown % Type of power generation No. s No.* Steam turbine: % Woodchips (forest residues): % Steam engine: 0 0 % Woodchips (saw industry): 0 0 % Organic rankine cycle: 0 0 % Paper sludge: 0 0 % Stirling engine: 0 0 % Waste wood: 0 0 % Hot air engine: 0 0 % Bark: 3 15 % Gas engine: 0 0 % Peat: 0 0 % Gas turbine: 1 3 % Straw: 0 0 % Other (or ): % Other (or ): 7 35 % Character of plants No. Electric power No. Testing plants: 0 0 % <1MW: 0 0 % Pilote plants: 0 0 % 1MW <5MW: 1 3 % Demonstration plants: 4 10 % 5MW 20MW: % Commercial plants: 7 18 % >20MW: % unknown: % unknown: 5 13 % * ) double counting possible because some CHP plants might use more than one fuel IEF.2001.GF JOANNEUM RESEARCH

2 Ängelholm Database No. 112 Ängelholm Type of power generation: Total fuel input: t/a Electric power: 29 MW el Tot. lower heating value: kwh/kg Thermal power: 33,8333 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

3 CHP Bristakraft Arlanda Database No Arlanda Commercial plant Brista Kraft AB Mr. Göran Eriksson +46/ 8592/ / 8592/ Type of power generation: Steam turbine Total fuel input: t/a Electric power: 44 MW el Tot. lower heating value: 2,4 kwh/kg Thermal power: 85 MW th Moisture content: 35 % wet Cofiring: N Combustion Annual production electricity: 160 GWh/a Type of fuel 1: Woodchips (forest residues) Annual production heat: 390 GWh/a Share of fuel 1: 100 % Electric efficiency: 30,7 % Input of fuel 1: t/a Thermal efficiency: 59,2 % Total efficiency: 89,9 % Type of fuel 2: Ratio electricity/ heat: 0,52 Share of fuel 2: % power: 143,5 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: 540 C Share of fuel 3: % Steam pressure: 144 bar Input of fuel3: t/a Investment costs: 80,52 Mio CO: mg/nm 3 Spec.investment costs (elec): 1,83 Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 CADDET, Newsletter 3/98, Box 12866, S11298 Stockholm... not available IEF.2001.GF JOANNEUM RESEARCH

4 Boras Database No. 114 Boras Type of power generation: Total fuel input: t/a Electric power: 20 MW el Tot. lower heating value: kwh/kg Thermal power: 76,6071 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

5 Eksjo Database No. 115 Eksjo Type of power generation: Total fuel input: t/a Electric power: MW el Tot. lower heating value: kwh/kg Thermal power: MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

6 CHP Enköping 1994 Enköping Commercial plant ENA Kraft Mr. Björn Johansson +46/ 171/ / 171/ Database No. 116 Type of power generation: Steam turbine Total fuel input: t/a Electric power: 24 MW el Tot. lower heating value: 2,1 kwh/kg Thermal power: 55 MW th Moisture content: 33 % wet Cofiring: Y Combustion Annual production electricity: 29 GWh/a Type of fuel 1: Woodchips (forest residues) Annual production heat: 178 GWh/a Share of fuel 1: 65 % Electric efficiency: 26,1 % Input of fuel 1: t/a Thermal efficiency: 59,8 % Total efficiency: 85,9 % Type of fuel 2: Bark Ratio electricity/ heat: 0,44 Share of fuel 2: 20 % power: 92 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Wood shavings Steam temperature: 540 C Share of fuel 3: 15 % Steam pressure: 100 bar Input of fuel3: t/a Investment costs: 40,992 Mio CO: mg/nm 3 Spec.investment costs (elec): 1,708 Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 Bengt Hillring, The Analysis Report of Plant No. 6, VTT ALTENER AFBNET, not available IEF.2001.GF JOANNEUM RESEARCH

7 CHP Eskilstuna Database No. 117 Eskilstuna Demonstration plant Eskilstuna Energi & Milijö AB Mr. Anders Björklund +46/ 1610/ Type of power generation: Steam turbine Total fuel input: t/a Electric power: 36 MW el Tot. lower heating value: 2,5 kwh/kg Thermal power: 70,7 MW th Moisture content: 31 % wet Cofiring: N Combustion Annual production electricity: 160 GWh/a Type of fuel 1: Bark Annual production heat: 330 GWh/a Share of fuel 1: 50 % Electric efficiency: 29,3 % Input of fuel 1: t/a Thermal efficiency: 58,4 % Total efficiency: 87,7 % Type of fuel 2: Woodchips (forest residues) Ratio electricity/ heat: 0,50 Share of fuel 2: 50 % power: 121 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: 540 C Share of fuel 3: % Steam pressure: 140 bar Input of fuel3: t/a Investment costs: 67 Mio CO: mg/nm 3 Spec.investment costs (elec): 1,88732 Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 Combined Heat and Power from Biofuel, Swedish National Energy Administration, Box 310, SE63104 Eskilstuna, not available IEF.2001.GF JOANNEUM RESEARCH

8 Falun Database No. 118 Falun Type of power generation: Total fuel input: t/a Electric power: 9 MW el Tot. lower heating value: kwh/kg Thermal power: 37,6154 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

9 CHP Stora Enso Fors Fors Commercial plant Stora Enso GmbH Mrs. Anna Karin Djupentröm +46/ 226/ / 226/ Database No. 119 Type of power generation: Steam turbine Total fuel input: t/a Electric power: 10 MW el Tot. lower heating value: kwh/kg Thermal power: 55 MW th Moisture content: 32 % wet Cofiring: Y Combustion Annual production electricity: 49 GWh/a Type of fuel 1: Woodchips (forest residues) Annual production heat: 286 GWh/a Share of fuel 1: % Electric efficiency: 12,9 % Input of fuel 1: t/a Thermal efficiency: 73,8 % Total efficiency: 86,7 % Type of fuel 2: Coal Ratio electricity/ heat: 0,17 Share of fuel 2: % power: 74,5 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: 457 C Share of fuel 3: % Steam pressure: 60 bar Input of fuel3: t/a Investment costs: 6,432 Mio CO: mg/nm 3 Spec.investment costs (elec): 0,67 Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 Bengt Hillring, The Analysis Report of Plant No. 3, VTT ALTENER AFBNET, not available IEF.2001.GF JOANNEUM RESEARCH

10 Gällivare Gällivare Database No. 120 Type of power generation: Total fuel input: t/a Electric power: 1 MW el Tot. lower heating value: kwh/kg Thermal power: MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

11 Göteborg Göteborg Database No. 121 Type of power generation: Total fuel input: t/a Electric power: MW el Tot. lower heating value: kwh/kg Thermal power: MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

12 Helsingborg Helsingborg Database No. 122 Type of power generation: Total fuel input: t/a Electric power: 69 MW el Tot. lower heating value: kwh/kg Thermal power: 169,625 MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

13 Hudiksvall Database No. 123 Hudiksvall Type of power generation: Total fuel input: t/a Electric power: 14 MW el Tot. lower heating value: kwh/kg Thermal power: 76,087 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

14 Jönköping Database No. 124 Jönköping Type of power generation: Total fuel input: t/a Electric power: 10 MW el Tot. lower heating value: kwh/kg Thermal power: 123,636 MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

15 Karlstad Database No. 125 Karlstad Type of power generation: Total fuel input: t/a Electric power: 32 MW el Tot. lower heating value: kwh/kg Thermal power: 171,429 MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

16 Kiruna Database No. 126 Kiruna Type of power generation: Total fuel input: t/a Electric power: 9 MW el Tot. lower heating value: kwh/kg Thermal power: 88,875 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

17 Kristianstad Database No. 127 Kristianstad Type of power generation: Total fuel input: t/a Electric power: 15 MW el Tot. lower heating value: kwh/kg Thermal power: 97,7273 MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

18 CHP Linköping Database No. 128 Linköping Commercial plant Tekniska Verken AB Mr. Ingvar Carlsson +46/ 13/ / 13/ Type of power generation: Steam turbine Total fuel input: t/a Electric power: 77 MW el Tot. lower heating value: kwh/kg Thermal power: 240 MW th Moisture content: 33 % wet Cofiring: Y Combustion Annual production electricity: 400 GWh/a Type of fuel 1: Woodchips (forest residues) Annual production heat: 1021 GWh/a Share of fuel 1: % Electric efficiency: 21,4 % Input of fuel 1: t/a Thermal efficiency: 66,7 % Total efficiency: 88,1 % Type of fuel 2: Bark, coal, oil Ratio electricity/ heat: 0,32 Share of fuel 2: % power: 360 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: 475 C Share of fuel 3: % Steam pressure: 59 bar Input of fuel3: t/a Investment costs: 236 Mio CO: mg/nm 3 Spec.investment costs (elec): 3,065 Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 Bengt Hillring, The Analysis Report of Plant No. 12, VTT ALTENER AFBNET, not available IEF.2001.GF JOANNEUM RESEARCH

19 CHP Lugnvik Database No Lugnvik Commercial plant Jämtkraft AB Mr. Hans Plogner +46/ 63/ Type of power generation: Steam turbine Total fuel input: t/a Electric power: 41 MW el Tot. lower heating value: 2,22 kwh/kg Thermal power: 80 MW th Moisture content: 1636 % wet Cofiring: N Combustion Annual production electricity: 160 GWh/a Type of fuel 1: Woodchips (forest residues) Annual production heat: 430 GWh/a Share of fuel 1: 100 % Electric efficiency: 29,3 % Input of fuel 1: t/a Thermal efficiency: 58 % Total efficiency: 87,3 % Type of fuel 2: Ratio electricity/ heat: 0,51 Share of fuel 2: % power: 138 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: 540 C Share of fuel 3: % Steam pressure: 110 bar Input of fuel3: t/a Investment costs: 57 Mio CO: mg/nm 3 Spec.investment costs (elec): 1,407 Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 Combined Heat and Power from Biofuel, Swedish National Energy Administration, Box 310, SE63104 Eskilstuna... not available IEF.2001.GF JOANNEUM RESEARCH

20 Lund Lund Database No. 130 Type of power generation: Total fuel input: t/a Electric power: 27 MW el Tot. lower heating value: kwh/kg Thermal power: 63,6429 MW th Moisture content: % wet Cofiring: Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

21 Lycksele Database No. 131 Lycksele Type of power generation: Total fuel input: t/a Electric power: 15 MW el Tot. lower heating value: kwh/kg Thermal power: 47,027 MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

22 Malmö Database No. 132 Malmö Type of power generation: Total fuel input: t/a Electric power: 128 MW el Tot. lower heating value: kwh/kg Thermal power: 412,487 MW th Moisture content: % wet Cofiring: Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

23 Nässjö Nässjö Database No. 133 Type of power generation: Total fuel input: t/a Electric power: 9 MW el Tot. lower heating value: kwh/kg Thermal power: 39,8571 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

24 Norrenergi Database No. 134 Norrenergi Type of power generation: Total fuel input: t/a Electric power: 11 MW el Tot. lower heating value: kwh/kg Thermal power: 33,5789 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

25 Norrköping Norrköping Database No. 135 Type of power generation: Total fuel input: t/a Electric power: 95 MW el Tot. lower heating value: kwh/kg Thermal power: 425,256 MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

26 Nyköping Database No. 136 Nyköping Type of power generation: Total fuel input: t/a Electric power: 35 MW el Tot. lower heating value: kwh/kg Thermal power: 118,197 MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

27 CHP Örebro Database No Örebro Commercial plant Örebro Energy AB Mr. Anders Lejdholt +46/ 19/ Type of power generation: Steam turbine Total fuel input: t/a Electric power: 63 MW el Tot. lower heating value: 2,4 kwh/kg Thermal power: 105 MW th Moisture content: % wet Cofiring: Y Annual production electricity: Combustion 264 GWh/a Type of fuel 1: Woodchips Annual production heat: 441 GWh/a Share of fuel 1: % Electric efficiency: 32,8 % Input of fuel 1: t/a Thermal efficiency: 54,7 % Total efficiency: 87,5 % Type of fuel 2: Peat, coal, oil Ratio electricity/ heat: 0,60 Share of fuel 2: % power: 192 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: 540 C Share of fuel 3: % Steam pressure: 144 bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 Combined Heat and Power, Swedish National Energy Administration, Box 310, SE63104 Eskilstuna... not available IEF.2001.GF JOANNEUM RESEARCH

28 Örebro Database No. 138 Örebro Type of power generation: Total fuel input: t/a Electric power: MW el Tot. lower heating value: kwh/kg Thermal power: MW th Moisture content: % wet Cofiring: Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

29 Oskarshamn Database No. 139 Oskarshamn Type of power generation: Total fuel input: t/a Electric power: 7 MW el Tot. lower heating value: kwh/kg Thermal power: MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

30 CHP Rauhalahti Rauhalahti Commercial plant Fortum Service Oy Mr. Markku Hulkkonen +35/ 30/ Database No. 140 Type of power generation: Steam turbine Total fuel input: t/a Electric power: 87 MW el Tot. lower heating value: kwh/kg Thermal power: 180 MW th Moisture content: % wet Cofiring: N Annual production electricity: Combustion GWh/a Type of fuel 1: Peat, Coal Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Woodchips (forest residues) Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 TUGraz: "Analyse und Systematisierung existierender und vorgesehener KWKAnlagen", not available IEF.2001.GF JOANNEUM RESEARCH

31 Sala Database No. 141 Sala Type of power generation: Total fuel input: t/a Electric power: 9 MW el Tot. lower heating value: kwh/kg Thermal power: 27,6207 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

32 Bioenergy Plant Skelleftea Database No Skelleftea Demonstration plant Skelleftea Kraft AB Mr. LarsOlof Andersson +46/ 910/ / 910/ Type of power generation: Steam turbine Total fuel input: t/a Electric power: 36 MW el Tot. lower heating value: 1,9 kwh/kg Thermal power: 62,9 MW th Moisture content: 9 % wet Cofiring: N Combustion Annual production electricity: 120 GWh/a Type of fuel 1: Woodchips (forest residues) Annual production heat: 210 GWh/a Share of fuel 1: 100 % Electric efficiency: 31,1 % Input of fuel 1: t/a Thermal efficiency: 54,9 % Total efficiency: 86 % Type of fuel 2: Ratio electricity/ heat: 0,57 Share of fuel 2: % power: 114,5 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: 540 C Share of fuel 3: % Steam pressure: 140 bar Input of fuel3: t/a Investment costs: 21 Mio CO: mg/nm 3 Spec.investment costs (elec): 0,591 Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 CADDET, Technical Brochure No. 136, Box 12866, S11298 Stockholm... not available IEF.2001.GF JOANNEUM RESEARCH

33 Stockholm Stockholm Database No. 143 Type of power generation: Total fuel input: t/a Electric power: MW el Tot. lower heating value: kwh/kg Thermal power: MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

34 Sundsvall Database No. 144 Sundsvall Type of power generation: Total fuel input: t/a Electric power: 59 MW el Tot. lower heating value: kwh/kg Thermal power: 217,317 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

35 Umea Database No. 145 Umea Type of power generation: Total fuel input: t/a Electric power: 12 MW el Tot. lower heating value: kwh/kg Thermal power: 82,1739 MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

36 Uppsala Database No. 146 Uppsala Type of power generation: Total fuel input: t/a Electric power: 200 MW el Tot. lower heating value: kwh/kg Thermal power: 454,81 MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

37 Varberg Database No. 147 Varberg Type of power generation: Total fuel input: t/a Electric power: MW el Tot. lower heating value: kwh/kg Thermal power: MW th Moisture content: % wet Cofiring: N Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

38 CHP Värnamo Database No. 148 Värnamo Demonstration plant Sydkraft Mr. Krister Stahl +46/ 40/ Type of power generation: Gas turbine Total fuel input: t/a Electric power: 6 MW el Tot. lower heating value: kwh/kg Thermal power: 9 MW th Moisture content: 20 % wet Cofiring: N Gasification Annual production electricity: GWh/a Type of fuel 1: Woodchips (forest residues) Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: 33,3 % Input of fuel 1: t/a Thermal efficiency: 50 % Total efficiency: 83,3 % Type of fuel 2: Bark Ratio electricity/ heat: 0,67 Share of fuel 2: % power: 18 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 Krister Stahl, Progress Report, Värnamo Biomass Gasification plant, not available IEF.2001.GF JOANNEUM RESEARCH

39 Västeras Database No. 149 Västeras Type of power generation: Total fuel input: t/a Electric power: 250 MW el Tot. lower heating value: kwh/kg Thermal power: 612,419 MW th Moisture content: % wet Cofiring: Y Annual production electricity: GWh/a Type of fuel 1: Annual production heat: GWh/a Share of fuel 1: % Electric efficiency: % Input of fuel 1: t/a Thermal efficiency: % Total efficiency: % Type of fuel 2: Ratio electricity/ heat: Share of fuel 2: % power: MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: C Share of fuel 3: % Steam pressure: bar Input of fuel3: t/a Investment costs: Mio CO: mg/nm 3 Spec.investment costs (elec): Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3... not available IEF.2001.GF JOANNEUM RESEARCH

40 CHP Sandvik II Database No. 150 Växjö 1993 Demonstration plant Växjö energi AB Mr. Ulf Johansson +46/ 470/ / 470/ Type of power generation: Steam turbine Total fuel input: t/a Electric power: 38 MW el Tot. lower heating value: 2,3 kwh/kg Thermal power: 66 MW th Moisture content: % wet Cofiring: Y Combustion Annual production electricity: 175 GWh/a Type of fuel 1: Woodchips (forest residues) Annual production heat: 350 GWh/a Share of fuel 1: 95 % Electric efficiency: 31,4 % Input of fuel 1: t/a Thermal efficiency: 54,5 % Total efficiency: 85,9 % Type of fuel 2: Peat, Oil Ratio electricity/ heat: 0,58 Share of fuel 2: 5 % power: 121 MW fuel Input of fuel 2: t/a Steam mass flow: t/h Type of fuel 3: Steam temperature: 540 C Share of fuel 3: % Steam pressure: 142 bar Input of fuel3: t/a Investment costs: 46,9 Mio CO: mg/nm 3 Spec.investment costs (elec): 1,23421 Mio /MW el NO x : mg/nm 3 costs: /t Particles: mg/nm 3 Subsidies: Mio C x H y : mg/nm 3 Number of employes: SO 2 : mg/nm 3 CADDET Schweden, Technical brochure Nr. 104, Box 12866, S11298 Stockholm, not available IEF.2001.GF JOANNEUM RESEARCH