FUEL OIL SYSTEM OF THE NEW YORK

1. electrical capacity by fuel type of installation
2.  
3. 3 MWe
4. 4 2007 2008 2009 2010 2011
5. 5 Coal
6. 6 Back pressure steam turbine 28 20 19 20 20
7. 7 Gas turbine 1 1 - - -
8. 8 Combined cycle 20 26 21 13 13
9. 9 Reciprocating engine - 1 0 - 0
10. 10 Pass out condensing steam turbine 145 145 144 143 143
11. 11 Total coal 194 193 184 176 176
12. 12 Fuel oil
13. 13 Back pressure steam turbine 7 7 7 6 6
14. 14 Gas turbine 0 0 0 10 10
15. 15 Combined cycle 68 60 63 48r 34
16. 16 Reciprocating engine 16 16 15 14 11
17. 17 Pass out condensing steam turbine 10 12 12 8 8
18. 18 Total fuel oil 101 94 97 87r 70
19. 19 Natural gas
20. 20 Back pressure steam turbine 47 37 39 36r 36
21. 21 Gas turbine 502 488 501 482r 486
22. 22 Combined cycle 3,004r 2,978r 3,081r 3,413r 3,393
23. 23 Reciprocating engine 520r 537r 584r 641r 680
24. 24 Pass out condensing steam turbine 39 39 39 41 40
25. 25 Total natural gas 4,113r 4,079r 4,244r 4,613r 4,635
26. 26 Renewable fuels (1)
27. 27 Back pressure steam turbine 16 37 35 37r 38
28. 28 Gas turbine 0 - 0 0 0
29. 29 Combined cycle 8 3 3 3 3
30. 30 Reciprocating engine 115r 119 131 135r 175
31. 31 Pass out condensing steam turbine 23 45 71 85r 85
32. 32 Total renewable fuels 162r 203 240 260r 300
33. 33 Other fuels (2)
34. 34 Back pressure steam turbine 109 109 109 109 109
35. 35 Gas turbine 119 114 117 123 112
36. 36 Combined cycle 497r 522r 483r 558r 580
37. 37 Reciprocating engine 4 3 5 24r 23
38. 38 Pass out condensing steam turbine 99 93 93 102 104
39. 39 Total other fuels 828r 842r 807r 917r 929
40. 40 Total - all fuels
41. 41 Back pressure steam turbine 207 210 210 209 209
42. 42 Gas turbine 623 604 618 616r 609
43. 43 Combined cycle 3,598r 3,588r 3,650r 4,035r 4,024
44. 44 Reciprocating engine 655r 676r 735r 814r 889
45. 45 Pass out condensing steam turbine 315 333 359 379r 380
46. 46 Total all fuels 5,398r 5,410r 5,573r 6,053r 6,111
47. 47
48. 48 (1) Renewable fuels include: Biomass; sewage gas, other biogases, municipal solid waste and refuse derived fuels.
49. 49 (2) Other fuels include: process by-products, coke oven gas, blast furnace gas, gas oil and refinery gas.
50. 50
51.  
52. 16 3. Regional Energy
53. 17 Fuel unit kWh / unit kg- CO2 / kWh Cent / kWh
54. 18 Natural gas Therms 29.3 0.203 4.3 Change the cost cent / kWh
55. 19 Natural gas Cubic feet 0.3 0.203 4.3 based on local conditions
56. 20 Natural gas Cubic metres 10.8 0.203 4.3
57. 21 Natural gas kWh 1.0 0.203 4.3
58. 22 Liquid petroleum gas (LPG) Litres 7.0 0.232 7.2
59. 23 LPG Tonnes 13,900.0 0.232 7.2
60. 24 Kerosene (28 sec) Litres 10.2 0.272 5.6
61. 25 Heating Gas oil (35 sec) Litres 10.6 0.272 5.4
62. 26 Light fuel oil (290 sec) Litres 11.2 0.282 5.0
63. 27 Medium fuel oil (950 sec) Litres 11.3 0.292 4.5
64. 28 Heavy fuel oil (3500 sec) Litres 11.4 0.35 3.0
65. 29 Coal Tonnes 7,600.0 0.361 3.3
66. 30 Anthracite Tonnes 9,200.0 0.361 4.0
67. 31 Peat Sod Tonnes 4,002.0 0.375 3.0
68. 32 Peat Briquette Tonnes 5,363.0 0.377 4.5
69. 33 Peat Briquette Bale 67.0 0.377 4.5
70. 34 Wood chip (Moisture content 35%-50%) Tonnes 3,500.0 0.025 2.4
71. 35 Wood chip (Moisture content >50%) Tonnes 2,800.0 0.025 2.4
72. 36 Wood pellets Tonnes 4,800.0 0.025 4.5
73. 37 District Heating kWh 1.0 0.025 4.5 Assumes heating by biomass (wood chip)
74. 38 Combined Heat & Power {HEAT} kWh 1.0 0.025 4.5 Assumes heating by biomass (wood chip)
75. 39 Combined Heat & Power {POWER} kWh 1.0 0.025 13.6 Assumes generation by biomass (wood chip)
76. 40 Electricity-Renewable kWh 1.0 0.025 13.6 Assumes generation by biomass (wood chip)
77. 41 Electricity-Grid kWh 1.0 0.643 13.6 Based on fuel mix to national grid
78. 42
79. 43
80. 44 4. NACE code applicable to industry C - Manufacturing
81. 45 manufacturing is section "C" *Please select from drop down list
82.  
83. 4 CLUSTER -
84. 5 1. Company Details
85. 6 Name:
86. 7 Address
87. 8 Telephone
88. 9 Email
89. 10
90. 11 2. Identify ANNUAL Renewable Energy generated & exported to others / Grid.
91. 12 Meter Source kWh T-CO2 avoided Sales - €
92. 13 Electrical Energy - 1
93. 14 Electrical Energy - 2
94. 15 Thermal Energy - 1
95. 16 Thermal Energy - 2
96. 17
97. 18 3. Convert your energy use into kWh units
98. 19 Add your quarterly or monthly use over one year for each fuel and enter below Annual Est. Annual
99. 20 Fuel Qty kWh T-CO2 Cost - €
100. 21 Natural gas Therms =
101. 22 N.G. Cubic feet =
102. 23 N.G. Cubic metres =
103. 24 N.G. kWh =
104. 25 Liquid petroleum gas (LPG) Litres =
105. 26 LPG Tonnes =
106. 27 Kerosene (28 sec) Litres =
107. 28 Heating Gas oil (35 sec) Litres =
108. 29 Light fuel oil (290 sec) Litres =
109. 30 Medium fuel oil (950 sec) Litres =
110. 31 Heavy fuel oil (3500 sec) Litres =
111. 32 Coal Tonnes =
112. 33 Anthracite Tonnes =
113. 34 Peat Sod Tonnes =
114. 35 Peat Briquette Tonnes =
115. 36 Peat Briquette Bale =
116. 37 Wood chip (Moisture content 35%-50%) Tonnes =
117. 38 Wood chip (Moisture content >50%) Tonnes =
118. 39 Wood pellets Tonnes =
119. 40 District Heating* kWh =
120. 41 Combined Heat & Power {HEAT} kWh =
121. 42 Combined Heat & Power {POWER} kWh =
122. 43 Electricity-Renewable* kWh =
123. 44 Electricity-Grid* kWh =
124. 45 *emissions determined from primary fuel mix
125. 46 Total energy & emissions use for the year - - €0 A
126. 47
127. 48 4. Find your space-heating energy use. Apply (A) OR (B)
128. 49 (A) If you can identify any of the fuels above used for space heating only, enter the total energy use in kWh
129. 50 Select Fuel from menu kWh T-CO2 Cost - €
130. 51 1.
131. 52 2.
132. 53 3.
133. 54 Sub Total = B
134. 55
135. 56 (B) For fuels used for space heating and hot water, where they not separately metered, use 60% of thermal
136. 57 energy used. This figure may also be used for all electrically heated buildings
137. 58 Select Fuel from menu
138. 59 a.
139. 60 b.
140. 61 c.
141. 62 Sub Total = C
142. 63
143. 64 Annual space heating energy (B or C) = D
144. 65 Annual non-space heating energy (A-D) = - - € - E
145. 66
146. 72 5. Your business type (leave blank if not listed)
147. 73 Your business category is given opposite. C - Manufacturing *
148. 74
149. 75 6. Normal Operating hours, per year.
150. 76 Enter here the number of hours you are normally open per year. 2500 Hours *
151. 77
152. 82 7. Normalised annual energy use
153. 83 Energy & CO2 kWh T-CO2
154. 84 Normalised for Weather & Operating hours is = - - G
155. 85
156. 86 8. Performance Parameter (Treated Floor Area etc.)
157. 87 (A) Factory (building) E.P.I. = Treated Floor Area [m2] Y ηy
158. 88
159. 89 (B) Production (output) E.P.I. (select unit then quantity of that unit) = kg Z ηz
160. 90
161. 91 9. Find the Normalised Performance Indicator (NPI)
162. 92 (A, B) Energy Performance (kWh / m2) kWh / Treated Floor Area (m2) Y
163. 93
164. 94 kWh / Z
165. 95
166. 98 (C) Carbon Performance CO2 kg CO2 / Treated Floor Area (m2) Y
167. 99
168. 100 kg CO2 / Z
169. 101