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- electrical capacity by fuel type of installation
- 3 MWe
- 4 2007 2008 2009 2010 2011
- 5 Coal
- 6 Back pressure steam turbine 28 20 19 20 20
- 7 Gas turbine 1 1 - - -
- 8 Combined cycle 20 26 21 13 13
- 9 Reciprocating engine - 1 0 - 0
- 10 Pass out condensing steam turbine 145 145 144 143 143
- 11 Total coal 194 193 184 176 176
- 12 Fuel oil
- 13 Back pressure steam turbine 7 7 7 6 6
- 14 Gas turbine 0 0 0 10 10
- 15 Combined cycle 68 60 63 48r 34
- 16 Reciprocating engine 16 16 15 14 11
- 17 Pass out condensing steam turbine 10 12 12 8 8
- 18 Total fuel oil 101 94 97 87r 70
- 19 Natural gas
- 20 Back pressure steam turbine 47 37 39 36r 36
- 21 Gas turbine 502 488 501 482r 486
- 22 Combined cycle 3,004r 2,978r 3,081r 3,413r 3,393
- 23 Reciprocating engine 520r 537r 584r 641r 680
- 24 Pass out condensing steam turbine 39 39 39 41 40
- 25 Total natural gas 4,113r 4,079r 4,244r 4,613r 4,635
- 26 Renewable fuels (1)
- 27 Back pressure steam turbine 16 37 35 37r 38
- 28 Gas turbine 0 - 0 0 0
- 29 Combined cycle 8 3 3 3 3
- 30 Reciprocating engine 115r 119 131 135r 175
- 31 Pass out condensing steam turbine 23 45 71 85r 85
- 32 Total renewable fuels 162r 203 240 260r 300
- 33 Other fuels (2)
- 34 Back pressure steam turbine 109 109 109 109 109
- 35 Gas turbine 119 114 117 123 112
- 36 Combined cycle 497r 522r 483r 558r 580
- 37 Reciprocating engine 4 3 5 24r 23
- 38 Pass out condensing steam turbine 99 93 93 102 104
- 39 Total other fuels 828r 842r 807r 917r 929
- 40 Total - all fuels
- 41 Back pressure steam turbine 207 210 210 209 209
- 42 Gas turbine 623 604 618 616r 609
- 43 Combined cycle 3,598r 3,588r 3,650r 4,035r 4,024
- 44 Reciprocating engine 655r 676r 735r 814r 889
- 45 Pass out condensing steam turbine 315 333 359 379r 380
- 46 Total all fuels 5,398r 5,410r 5,573r 6,053r 6,111
- 47
- 48 (1) Renewable fuels include: Biomass; sewage gas, other biogases, municipal solid waste and refuse derived fuels.
- 49 (2) Other fuels include: process by-products, coke oven gas, blast furnace gas, gas oil and refinery gas.
- 50
- 16 3. Regional Energy
- 17 Fuel unit kWh / unit kg- CO2 / kWh Cent / kWh
- 18 Natural gas Therms 29.3 0.203 4.3 Change the cost cent / kWh
- 19 Natural gas Cubic feet 0.3 0.203 4.3 based on local conditions
- 20 Natural gas Cubic metres 10.8 0.203 4.3
- 21 Natural gas kWh 1.0 0.203 4.3
- 22 Liquid petroleum gas (LPG) Litres 7.0 0.232 7.2
- 23 LPG Tonnes 13,900.0 0.232 7.2
- 24 Kerosene (28 sec) Litres 10.2 0.272 5.6
- 25 Heating Gas oil (35 sec) Litres 10.6 0.272 5.4
- 26 Light fuel oil (290 sec) Litres 11.2 0.282 5.0
- 27 Medium fuel oil (950 sec) Litres 11.3 0.292 4.5
- 28 Heavy fuel oil (3500 sec) Litres 11.4 0.35 3.0
- 29 Coal Tonnes 7,600.0 0.361 3.3
- 30 Anthracite Tonnes 9,200.0 0.361 4.0
- 31 Peat Sod Tonnes 4,002.0 0.375 3.0
- 32 Peat Briquette Tonnes 5,363.0 0.377 4.5
- 33 Peat Briquette Bale 67.0 0.377 4.5
- 34 Wood chip (Moisture content 35%-50%) Tonnes 3,500.0 0.025 2.4
- 35 Wood chip (Moisture content >50%) Tonnes 2,800.0 0.025 2.4
- 36 Wood pellets Tonnes 4,800.0 0.025 4.5
- 37 District Heating kWh 1.0 0.025 4.5 Assumes heating by biomass (wood chip)
- 38 Combined Heat & Power {HEAT} kWh 1.0 0.025 4.5 Assumes heating by biomass (wood chip)
- 39 Combined Heat & Power {POWER} kWh 1.0 0.025 13.6 Assumes generation by biomass (wood chip)
- 40 Electricity-Renewable kWh 1.0 0.025 13.6 Assumes generation by biomass (wood chip)
- 41 Electricity-Grid kWh 1.0 0.643 13.6 Based on fuel mix to national grid
- 42
- 43
- 44 4. NACE code applicable to industry C - Manufacturing
- 45 manufacturing is section "C" *Please select from drop down list
- 4 CLUSTER -
- 5 1. Company Details
- 6 Name:
- 7 Address
- 8 Telephone
- 9 Email
- 10
- 11 2. Identify ANNUAL Renewable Energy generated & exported to others / Grid.
- 12 Meter Source kWh T-CO2 avoided Sales - €
- 13 Electrical Energy - 1
- 14 Electrical Energy - 2
- 15 Thermal Energy - 1
- 16 Thermal Energy - 2
- 17
- 18 3. Convert your energy use into kWh units
- 19 Add your quarterly or monthly use over one year for each fuel and enter below Annual Est. Annual
- 20 Fuel Qty kWh T-CO2 Cost - €
- 21 Natural gas Therms =
- 22 N.G. Cubic feet =
- 23 N.G. Cubic metres =
- 24 N.G. kWh =
- 25 Liquid petroleum gas (LPG) Litres =
- 26 LPG Tonnes =
- 27 Kerosene (28 sec) Litres =
- 28 Heating Gas oil (35 sec) Litres =
- 29 Light fuel oil (290 sec) Litres =
- 30 Medium fuel oil (950 sec) Litres =
- 31 Heavy fuel oil (3500 sec) Litres =
- 32 Coal Tonnes =
- 33 Anthracite Tonnes =
- 34 Peat Sod Tonnes =
- 35 Peat Briquette Tonnes =
- 36 Peat Briquette Bale =
- 37 Wood chip (Moisture content 35%-50%) Tonnes =
- 38 Wood chip (Moisture content >50%) Tonnes =
- 39 Wood pellets Tonnes =
- 40 District Heating* kWh =
- 41 Combined Heat & Power {HEAT} kWh =
- 42 Combined Heat & Power {POWER} kWh =
- 43 Electricity-Renewable* kWh =
- 44 Electricity-Grid* kWh =
- 45 *emissions determined from primary fuel mix
- 46 Total energy & emissions use for the year - - €0 A
- 47
- 48 4. Find your space-heating energy use. Apply (A) OR (B)
- 49 (A) If you can identify any of the fuels above used for space heating only, enter the total energy use in kWh
- 50 Select Fuel from menu kWh T-CO2 Cost - €
- 51 1.
- 52 2.
- 53 3.
- 54 Sub Total = B
- 55
- 56 (B) For fuels used for space heating and hot water, where they not separately metered, use 60% of thermal
- 57 energy used. This figure may also be used for all electrically heated buildings
- 58 Select Fuel from menu
- 59 a.
- 60 b.
- 61 c.
- 62 Sub Total = C
- 63
- 64 Annual space heating energy (B or C) = D
- 65 Annual non-space heating energy (A-D) = - - € - E
- 66
- 72 5. Your business type (leave blank if not listed)
- 73 Your business category is given opposite. C - Manufacturing *
- 74
- 75 6. Normal Operating hours, per year.
- 76 Enter here the number of hours you are normally open per year. 2500 Hours *
- 77
- 82 7. Normalised annual energy use
- 83 Energy & CO2 kWh T-CO2
- 84 Normalised for Weather & Operating hours is = - - G
- 85
- 86 8. Performance Parameter (Treated Floor Area etc.)
- 87 (A) Factory (building) E.P.I. = Treated Floor Area [m2] Y ηy
- 88
- 89 (B) Production (output) E.P.I. (select unit then quantity of that unit) = kg Z ηz
- 90
- 91 9. Find the Normalised Performance Indicator (NPI)
- 92 (A, B) Energy Performance (kWh / m2) kWh / Treated Floor Area (m2) Y
- 93
- 94 kWh / Z
- 95
- 98 (C) Carbon Performance CO2 kg CO2 / Treated Floor Area (m2) Y
- 99
- 100 kg CO2 / Z
- 101
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