o_191ln0gpf9pgfdj4601afj5gva.pdf

Recommendations

Info

270 Gas Turbine Handbook: Principles and Practices cubic feet per minute of landfill gas. In 2001, RMT and the Antioch Community School District began exploring the option of using this landfill gas to generate electricity and heat for the nearby high school. In April 2002, the Antioch Community School District applied for and received a $550,000 grant from the Illinois Department of Commerce and Community Affairs’ (DECCA’s) Renewable Energy Resources Program (RERP) to construct a cogeneration system to use the landfill gas to produce electricity and heat at the high school. On December 24, 2002, construction of the system began. The design and construction of the energy system posed a number of challenges, including resolving local easement issues, meeting local utility requirements, connecting to the existing school heating system, crossing under a railroad, and meeting the USEPA’s operational requirements. One-half mile of piping was installed to transfer approximately 200 cubic feet per minute of cleaned and compressed landfill gas to the school grounds, where 12 Capstone MicroTurbines are located in a separate building. The 12 Capstone MicroTurbines produce 360 kilowatts of electricity and, together with the recovered heat, meet the majority of the energy requirements for the 262,000–square foot school. The system began operating in September 2003. This use of landfill gas proved beneficial to all parties involved. It provides energy at a low cost for the high school; clean, complete combustion of waste gas; decreased emissions to the environment by reducing the need for traditional electrical generation sources; public relations opportunities for the school and community as being the first school district in the U.S. to get electricity and heat from landfill gas; and educational opportunities in physics, chemistry, economics, and environmental management for Antioch High School students, as a result of this state-of-the-art gas-to-energy system being located at the school. INTRODUCTION In 2001, RMT contacted Antioch Community High School (ACHS) to inquire as to their interest in using landfill gas as an energy source. In 2002, RMT and ACHS entered into an agreement to develop the landfill gas into the primary energy source for the high school. The
Case History #4 271 $1.9 M project became operational in October 2003, designating the high school as the first in the country to use landfill gas for both heat and electrical production. The landfill gas is now used to power 12 microturbines, providing 360 kilowatts of electricity and enough heat to meet the majority of the energy requirements for the 262,000– square foot school. The design of the energy system included tying into the existing gas collection system at the landfill, installing a gas conditioning and compression system, and transferring the gas 1/2 mile to the school grounds for combustion in the microturbines to generate electricity and heat for the school. A schematic layout of the landfill gas-toenergy system is shown on Figure 17-1. This work presented many challenges, including resolving easement issues, meeting local utility requirements, connecting to the existing heating system, crossing railroads, cleaning the landfill gas, and meeting the USEPA’s operational requirements to control landfill gas migration. RMT staff worked with the local government, school officials, and the USEPA, in addition to leading the design efforts and managing the construction activities throughout the project. RMT also provided public relations assistance to ACHS by attending Antioch Village Board meetings to describe the project and to answer any questions from concerned citizens and Village Board members. The HOD Landfill is located Figure 17-1. Layout of Landfill Gas-to-energy System.
Page 2 and 3:
Gas Turbine Handbook: Principles an
Page 4 and 5:
Gas Turbine Handbook: Principles an
Page 6 and 7:
Dedication This book is dedicated t
Page 8 and 9:
Contents PREFACE ..................
Page 10 and 11:
Chapter 13—BOROSCOPE INSPECTION .
Page 12 and 13:
Preface to the Third Edition The ne
Page 14 and 15:
Acknowledgments I wish to thank the
Page 16 and 17:
2 Gas Turbine Handbook: Principles
Page 18 and 19:
Page 20 and 21:
Page 22 and 23:
Page 24 and 25:
Page 26 and 27:
Page 28 and 29:
Figure 2-3. Courtesy of United Tech
Page 30 and 31:
Page 32 and 33:
Page 34 and 35:
Page 36 and 37:
Page 38 and 39:
Page 40 and 41:
Page 42 and 43:
Page 44 and 45:
Page 46 and 47:
Page 48 and 49:
Page 50 and 51:
Page 52 and 53:
Page 54 and 55:
Page 56 and 57:
Page 58 and 59:
This page intentionally left blank
Page 60 and 61:
Page 62 and 63:
Page 64 and 65:
Page 66 and 67:
Page 68 and 69:
Page 70 and 71:
Page 72 and 73:
Page 74 and 75:
Page 76 and 77:
Page 78 and 79:
Page 80 and 81:
Page 82 and 83:
Page 84 and 85:
Page 86 and 87:
Page 88 and 89:
Page 90 and 91:
Figure 5-4. Courtesy of United Tech
Page 92 and 93:
Page 94 and 95:
Page 96 and 97:
Page 98 and 99:
Page 100 and 101:
Page 102 and 103:
Page 104 and 105:
Page 106 and 107:
Page 108 and 109:
Page 110 and 111:
Page 112 and 113:
Page 114 and 115:
100 Gas Turbine Handbook: Principle
Page 116 and 117:
Page 118 and 119:
Page 120 and 121:
Page 122 and 123:
Page 124 and 125:
Page 126 and 127:
Page 128 and 129:
Page 130 and 131:
Chart 8-1 Gas Turbine Environments
Page 132 and 133:
Page 134 and 135:
Page 136 and 137:
Page 138 and 139:
Page 140 and 141:
Page 142 and 143:
Page 144 and 145:
Page 146 and 147:
Page 148 and 149:
Page 150 and 151:
Page 152 and 153:
Page 154 and 155:
Page 156 and 157:
Page 158 and 159:
Page 160 and 161:
Page 162 and 163:
Page 164 and 165:
Page 166 and 167:
Page 168 and 169:
Page 170 and 171:
Page 172 and 173:
Page 174 and 175:
Page 176 and 177:
Page 178 and 179:
Page 180 and 181:
Page 182 and 183:
Page 184 and 185:
Page 186 and 187:
Page 188 and 189:
Page 190 and 191:
Page 192 and 193:
Page 194 and 195:
Page 196 and 197:
Page 198 and 199:
Page 200 and 201:
Page 202 and 203:
Page 204 and 205:
Page 206 and 207:
Page 208 and 209:
Page 210 and 211:
Page 212 and 213:
Page 214 and 215:
Page 216 and 217:
Page 218 and 219:
Page 220 and 221:
Page 222 and 223:
Page 224 and 225:
Page 226 and 227:
Page 228 and 229:
Page 230 and 231:
Page 232 and 233:
Page 234 and 235: 220 Gas Turbine Handbook: Principle
Page 270 and 271: Figure 15-4. Corinth Motor Oil Refi
Page 318 and 319: Appendix A-2 304 Gas Turbine Handbo
Page 334 and 335:
Page 336 and 337:
Page 338 and 339:
Page 340 and 341:
Page 342 and 343:
Page 344 and 345:
Page 346 and 347:
Page 348 and 349:
Page 350 and 351:
Page 352 and 353:
Page 354 and 355:
Page 356 and 357:
Page 358 and 359:
Page 360 and 361:
Page 362 and 363:
Page 364 and 365:
Page 366 and 367:
Page 368 and 369:
Page 370 and 371:
5. Weather Hood Material __________
Page 372 and 373:
Appendix C-6 Air/Oil Cooler Specifi
Page 374 and 375:
9. Drive Requirements A. Hydraulic
Page 376 and 377:
22. Packaging For Shipment Per Spec
Page 378 and 379:
Parameters Units NH 3 CO H 2 CH 4 C
Page 380 and 381:
.055 Parameters Units 1/0 .88/.12 .
Page 382 and 383:
Koppers Foster Blue Coal Gas Winkle
Page 384 and 385:
Page 386 and 387:
Page 388 and 389:
Page 390 and 391:
Page 392 and 393:
Page 394 and 395:
Page 396 and 397:
Page 398 and 399:
Page 400 and 401:
Page 402 and 403:
Page 404 and 405:
Page 406 and 407:
Page 408 and 409:
Page 410 and 411:
Page 412 and 413:
Page 414 and 415:
Page 416 and 417:
Page 418 and 419:
Page 420 and 421:
Page 422 and 423:
Page 424 and 425:
Page 426 and 427:
Page 428 and 429:
Page 430 and 431:
Page 432 and 433:
Page 434 and 435:
Page 436 and 437:
Page 438 and 439:
Page 440 and 441:
Page 442 and 443:
Page 444 and 445:
Page 446 and 447:
Page 448 and 449:
Page 450 and 451:
show all

o_191ln0gpf9pgfdj4601afj5gva.pdf

You also want an ePaper? Increase the reach of your titles

Delete template?

Save as template?