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AEA Heat Recovery Case Study AVEC Projects Vol. 1 & 2 2005
AEA HEAT RECOVERY CASE STUDY AVEC PROJECTS VOLUMES 1 & 2 on™ AEA Heat Recovery Case Study Community Questionnaire Community/Utility: l set au oe a ani C ¢ Ang Contact name’ Contact number: FU ee eo A. Does your power plant have a heat recovery system? Y N_ (if no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Alaska Energy and Tai chenEE Inc. Mailing Address - P.O. Box 111405 Anchorage, AK 99511-1405 (907) 349-0100 349-8001 fax February 28, 2006 Mr. Peter Crimp, Project Manager Alaska Energy Authority 813 West Northern Lights Blvd. Anchorage, AK 99503 Re: Distributed Generation and Combined Heat and Power Case Study (aka: 2005 Heat Recovery Case Study) — Draft Deliverables Dear Mr. Crimp: Please find enclosed the draft deliverables for the above referenced project. The data is presented in two volumes. Volume 1 contains Contact/Metadata (all communities except AVEC), Eight brief CHP case studies, and one detailed review of an existing CHP project (Ambler). Volume 2 contains Contact/Metadata for AVEC communities. Due to time and funding constraints, minimal contacts were made for AVEC communities. It is assumed that the contact data will be obtained and Volume 2 combined into Volume 1 prior to completing the final deliverables. Please review and call me with any questions at (907) 349-0100, or fax your comments to (907) 349-8001. Thin?” Inc. vol Sincerely, Alaska Stévén J. Stas President 2005 Heat Recovery Case Study Scope of Services The purpose of this project was to provide the following: e identify and prioritize future potential heat recovery project efforts, e review recently renovated / upgraded combined heat and power (CHP) systems and the effects / results of the upgrades, e provide a more detailed review of existing heat recovery systems with recommendations for renovations / upgrades ¢ provide information regarding the impact to CHP systems due to SCAC engines, as well as remotely relocating a CHP plant from its end-users (this was not completed) the report is organized as follows: Section 1: RPSU database review and contacts - METADATA e Existing CHP facilities (from the RPSU database, etc) were identified and an effort was made to contact each community to obtain current information (NOTE: AVEC communities were not contacted) o alist of questions regarding the system was developed to identify * owner / operator contact names and numbers * status of system - works / does not work = number and type of end-user buildings "approximate distance to from power plant to end-users o arough guesstimate was made of potential fuel savings — the calculation is based on annual power plant fuel use (from RPSU & PCE data), multiplied by an estimated utilization factor . Section 2: Brief case studies of existing recent CHP upgrades / renovations — using a modified Case Study Report B format: e 8 case studies of existing recently installed and/or upgraded heat recovery systems are included. Case Study includes: o brief history / description of CHP system - and recent upgrades o estimated annual fuel savings (gallons), based on excel spreadsheet calculations o simple site plan and system schematic (no detailed data) Section 3: Detailed review of existing CHP systems: e Case Study of the Ambler CHP system includes a detailed review of system status with findings, recommendations, estimated costs, and savings SECTION 1 « Heat Recovery Fuel Saving Estimate ¢ Contacts/Meta Data Gross Estimated Recovered Heat Available and Potential Value based on Utility Fuel Cost fuel | Recc ‘ |Fuel_ POTENTIAL |_usage _ te ice| Date _| Populati VALUE 2005 97587 1.9822 $34,819 Akiak 2005 71092 12797 2.3468 6/1/2005 337 $30,031 Akutan 2005 44832 8070 1.97 12/16/2004 787 $15,897 Alakanuk 2005 130500 23490 1.8152 9/20/2004 666 $42,639 Allakaket/Alatna 2005 51394 9251 3.14 6/7/2005 161 $29,048 Ambler 2005 95800 17244 2.427 8/20/2004 291 $41,851 Anaktuvuk Pass 2005 351766 63318 2.11. 8/30/2004 319 $133,601 Angoon 2005 150832 27150 2.0959 5/27/2005 505 $56,903 Aniak 2005 190988 34378 2.0547 6/1/2005 551 $70,636 Anvik 2005 38093 6857 2.0865 6/23/2004 108 $14,307 Atka 2005 36491 6568 251 6/1/2004 95 $17,735 Atmautluak 2005 49017 8823 2.2958 5/29/2005 279} - $20,256 Atqasuk 2005 255712 46028 3.2264 8/30/2004 228 $148,505 Beaver 2005 28556 5140 2.83 6/6/2005 65 $14,546 Bethel 2005 3134918 564285 2.8655 6/30/2005 5899 $1,616,959 Bettles/Evansville 2005 53962 9713 1.88 3/31/2005 54 $18,261 Brevig Mission 2005 68951 12411 1.6459 7/12/2004 314 $20,428 Buckland 2005 112719 20289 2.0139 11/4/2004 410 $40,861 Central 2005 46374 8347 1.91 4/29/2005 113 $15,943 Chefornak 2005 69582, 12525, 2.3414 6/15/2005 434 $29,325 Chenega Bay 2005 23588 4246 2.7915 6/10/2005 99 $11,852 Chevak 2005 189794 34163 1.7912, 10/4/2004 884 $61,193 Chignik 2005 66765 12018 2.33 5/30/2005 92 $28,001 Chignik Lagoon 2005 47313 8516 2.6663 5/3/2005 92 $22,707 Chilkat Valley 2005 1377 248 2.219 3/2/2005 219 $550 Chistochina 2005 27210 4898 2.023 6/9/2005 85 $9,908 Chitina 2005 35604 6409 2.22. 6/24/2005 132 $14,227 Chuathbaluk 2005 22935 4128 =—2.2858 ~— 6/10/2005 102 $9,436 Circle 2005 35831 6450 1.98 6/16/2005 96 $12,770 Coffman Cove 2005 60092 10817 1.7367 6/2/2005 163 $18,785 Cold Bay 2005 213109 38360 3.06 7/8/2005 95 $117,380 Cordova 2005 496064 89292 2.0045 7/14/2005 2372 $178,985 Craig 2005 84632 15234 1.7868 6/14/2005 1495 $27,220 Crooked Creek 2005 24155 4348 2.2858 6/11/2005 146 $9,938 Deering 2005 56084 10095 2.2101 7/26/2004 131 $22,311 Dillingham 2005 1242522 223654 1.5418 8/4/2004 2373 $344,830 Diomede 2005 44797 8063, 2.4141 = 7/19/2004 129 $19,466 Dot Lake 2005 0 0 1.9118 3/17/2005 70 4 $0 Eagle/Eagle Village 2005 58449 10521 2.01 6/1/2005 185 $21,147 Eek 2005 52639 9475 1.853 6/21/2004 290 $17,557 Egegik 2005 64196 11555 2.05 6/13/2004 84 $23,688 Ekwok 2005 34357 6184 2.6626 5/24/2004 128 $16,466 Elfin Cove 2005 31063 5591 2.79 6/23/2005 32 $15,600 Elim 2005 85456 15382 1.853 6/8/2004 341 $28,503 Emmonak 2005 196790 35422 1.8152 9/17/2004 763 $64,298 False Pass 2005 36137 6505 Zia) 4/6/2005 69 $14,310 Fort Yukon 2005 185154 33328 2.4978 6/23/2005 574 $83,246 * Heat Available = Annual Fuel * 0.3 (1/3 to cooling system) * 0.6 (estimated useability factor for buildings within 400' of power plant) Gambell Golovin Goodnews Bay Grayling Gustavus (Suspended 08/05) Haines Healy Lake Hollis Holy Cross Hoonah Hooper Bay Hughes Huslia Hydaburg Igiugig lliamna/Newhalen/ Nondalton Kake Kaktovik Kaltag Karluk Kasigluk Kiana King Cove Kivalina Klawock Klukwan Kobuk (Suspended 08/05) Kokhanok Koliganek Kongiganak Kotlik Kotzebue Koyuk Kwethluk Kwigillingok Larsen Bay Levelock Lime Village Lower Kalskag Manley Hot Springs Manokotak Marshall 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 Gross Estimated Recovered Heat Available and Potential Value based on Utility Fuel Cost 145072 55938 55145 47085 140822 6153 15849 0 50506 361688 179609 37750 69440 111534 21000 29543 193700 353330 52086 15035 6555 115773, 127246 82875 0 0 0 34612 37410 81967 152160 1529486 99763 100090 57839 38826 34800 11110 43652 26478 97052 81173 26113 10069 9926 8475 25348 1108 2853 9091 65104 32330 6795 12499 20076 3780 5318 34866 63599 9375 2706 1180 20839 22904 14918 0 6230 6734 14754 27389 275307 17957 18016 10411 6989 6264 2000 7857 4766 17469 14611 1.8152 2.2803 1.853 2.0865 2.29 1.8779 1.4045 1.1247 2.0365 2.01 1.6459 2.4892 2.2355 1.979 2.95 2.1536 1.992 1.8303 2.0695 2.18 1.8152 2.2872 1.32 2.2872 2.5138 2.7603 2.1245 2.065 1.6334 1.8152 2.759 2 2.38 2.92 4.73 1.853 1.92 1.1158 1.853 9/24/2004 8/31/2004 5/26/2004 6/23/2004 7/1/2005 10/7/2004 4/1/2004 2/10/2004 6/24/2004 6/16/2005 6/30/2004 2/18/2005 9/18/2004 6/7/2005 9/3/2004 10/1/2004 6/9/2005 8/30/2004 6/22/2004 9/1/2004 9/3/2004 8/16/2004 4/16/2004 7/20/2004 9/20/2004 11/22/2004 6/30/2005 9/14/2004 9/1/2004 9/7/2004 1/25/2005 6/9/2004 3/21/2005 6/9/2005 6/2/2005 6/4/2004 3/23/2005 6/17/2005 9/13/2004 438 1715 33 178 209 851 1115 72 291 370 50 476 682 295 229 24 529 408 737 388 851 114 1255) 182 200 401 609 3076 340 709 343 96 71 43 267 73 405 368 | POTENTIAL VALUE $47,400 $22,960 $18,393 $17,684 $58,047 $2,080 $4,007 0) $18,514 $130,859 $53,211 $16,914 $27,942 $39,731 $11,151 $11,452 $69,453 $116,406 $19,403 $5,900 $2,142 $47,663 $30,234 $34,119 $0 $0 $0 $15,661 $18,587 $31,345 $56,558 $449,687 $32,596 $49,707 $22,592 $16,633 $18,291 $9,459 $14,560 $9,151 $19,492 $27,074 * Heat Available = Annual Fuel * 0.3 (1/3 to cooling system) * 0.6 (estimated useability factor for buildings within 400' of power plant) Community_Names| McGrath Mekoryuk Mentasta Minto Mt. Village Naknek Napakiak Napaskiak Naukati Nelson Lagoon New Stuyahok Newtok Nightmute Nikolai Nikolski Noatak Nome Noorvik Northway/ Village Nuiqsut Nulato Nunam Iqua Nunapitchuk Old Harbor Ouzinkie Pedro Bay Pilot Point Pilot Station Pitkas Point Point Hope Point Lay Port Alsworth Port Heiden (Susp Pend) Quinhagak Red Devil Ruby (Susp 11/05) Russian Mission Sand Point Savoonga Scammon Bay Selawik Shageluk Shaktoolik Shishmaref Shungnak Skagway Fiscal_Ye | an ar 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 Gross Estimated Recovered Heat Available and Potential Value based on Utility Fuel Cost 216901 65555 28761 56902 194045 1462824 0 102979 42817 35769 102978 38636 43316 35320 25837 109529 1887981 146226 111555 365916 83227 53868 190827 59412 38662 25327 35293 128213 0 375672 247891 49556 47885 125633 16260 60771 59304 300584 148463 97260 199610 28472 58441 120151 107285 14640 _ [est'd avail.| 34928 263308 0 18536 7707 6438 18536 6954 7797 6358 4651 19715 339837 26321 20080 65865 14981 9696 34349 10694 6959 4559 6353 23078 0 67621 44620 8920 8619 22614 2927 10939 10675 54105 26723 17507 35930 5125 10519 21627 19311 2635 1.853 2.023 2 1.7912 1.5109 2.739 1.702 2.7235 2.4506 1.9565 1.6459 3.0258 2.6 3.1 1.4392 2.427 1.9984 1.07 2.0765 2.2365 1.8152 2.316 2.28 3.276 2.86 1.7912 1.8112 1.83 1.8303 3.17 2.18 1.7912 1.9335 2.8 1.7912 2.56 1.7912 1.7912 2.42 2.0765 1.6459 1.7132 2.427 1.9587 4/7/2005 5/26/2004 6/20/2005 4/14/2005 9/8/2004 6/22/2005 2/1/2005 6/8/2005 5/3/2005 10/3/2004 6/20/2004 6/21/2004 6/21/2005 11/30/2004 2/1/2005 7/19/2004 6/17/2004 6/22/2005 3/31/2004 6/21/2004 6/19/2005 9/3/2004 4/23/2005 6/28/2005 6/29/2005 6/1/2005 9/9/2004 9/9/2004 8/30/2004 8/30/2004 5/3/2005 6/17/2005 10/4/2004 9/15/2004 8/1/2004 9/13/2004 6/23/2005 9/24/2004 10/1/2004 7/23/2004 6/26/2004 7/8/2004 8/13/2004 8/17/2004 5/27/2005 190 310 947 704 470 821 146 223 594 264 845 | POTENTIAL VALUE $76,281 $21,865 $10,473 $20,485 $62,563 $397,833 $0 $50,771 $13,117 $17,535 $45,424 $13,606 $12,833 $19,237 $12,092 $61,117 $489,093 $63,880 $40,128 $70,475 $31,108 $21,686 $62,350 $24,768 $15,867 $14,935 $18,169 $41,338 $0 $123,746 $81,669 $28,277 $18,790 $40,506 $5,659 $30,629 $19,121 $138,509 $47,867 $31,358 $86,950 $10,642 $17,314 $37,052 $46,869 $5,162 * Heat Available = Annual Fuel * 0.3 (1/3 to cooling system) * 0.6 (estimated useability factor for buildings within 400' of power plant) Gross Estimated Recovered Heat Available and Potential Value based on Utility Fuel Cost Slana Sleetmute St. Mary's/Andreafsky St. Michael St. Paul Stebbins Stony River Takotna Tanana Tatitlek Teller Tenakee Springs Tetlin Thorne Bay/Kasaan Togiak Tok Toksook Bay Tuluksak Tuntutuliak Tununak Twin Hills Unalakleet Unalaska Upper Kalsag Wainwright Wales Whale Pass Yakutat Community_Names| i 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 9) 26562 98842 418484 105526 15419 22508 102472 37329 35192 34045 0 196250 1690975 120300 74752 61357 62618 18706 290801 2257559 42329 384510 48673 30201 433162 2635 4781 17792 75327 18995 2775 4051 18445 6719 6335 6128 0 35325 304376 21654 13455 11044 11271 3367 52344 406361 7619 69212 8761 5436 77969 1.7535 1.9553 1.7912 2.07 2.2958 1.6459 1.6416 2.1646 1.853 1.8303 1.7132 2.0677 2.112 6/20/2005 6/12/2005 9/9/2004 9/29/2004 4/19/2005 9/29/2004 6/13/2005 6/15/2005 6/10/2004 4/28/2005 9/30/2004 6/30/2005 6/17/2005 9/30/2004 6/22/2005 10/1/2004 6/25/2005, 4/18/2005 6/21/2004 6/1/2405 .7/12/2004 5/4/2005 6/4/2004 8/30/2004 7/23/2004 5/11/2005 6/28/2005 _| POTENTIAL VALUE $0 $10,929 $0 $32,968 $188,318 $34,023 $6,344 $10,331 $36,551 $17,651 $0 $20,207 $14,033 $0 $61,942 $595,145 $38,787 $27,853 $25,355 $18,551 $10,101 $85,928 $879,608 $14,118 $126,678 $15,010 $11,240 $164,671 * Heat Available = Annual Fuel * 0.3 (1/3 to cooling system) * 0.6 (estimated useability factor for buildings within 400' of power plant) AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Akh ole Evaluator:_ Priaw Grau Contact name: Contact number: A. Does your power plant have a heat recovery system? Y (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer ~ Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat ote from being constructed? Small electric load, Plart '* remote ocak tory E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? YD G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, paataniant nee (1200, 1800) | Individual Radiators, Piped Manifold) Piped Mauifeld Y Evaluator Comments on Potential for Heat Recovery in the Community: The electric load ig very amall and the power fle T is (emete from at bvildings that Zovld vee Pees Community Scoring: Potential (0Q=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): f AEA Heat Recovery Case Study Community Questionnaire X Community/Utility: OK (a0 \wek Led Flea. | Me Evaluator: Q NZ \ g Contact name: v uUaAn LOOSE Contact number: 5-4 ul ' rere ALOR. A. Does your power plant have a heat recovery system? Y WN) (If no cri woe contthue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yo No C. Is there interest in the community to have a working heat recov. system? Y) N (blank for no answer) Answer | Comments Yes a rr ek a ea No D. Do you know of any issues that would prevent a recovered heat system from being constructed? wok At Enis Lime E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant | 3 [uoi oe Cokin dQ! af New PP Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (N) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Peni | Mabe sical (1200, 1800) | Individual Radiators, Piped Manifold) { ek S496 ( $00 Tndividva| Radiatol> “au Cae Bap LY 10 4 Ze Evaluator Comments on Potential for Heat Recovery in the Community: Concept des; “u being alse leaped for New fewer plant. ComMun ity has faicly Jarge electric. load So there ehould be 4ood pet ential For heat (Ecovely * Community Scoring: Potential (0Q=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | AEA Heat Recovery Case Study Community Questionnaire Community/Utility: AY Canser \iikes Evaluator: Brian Grey Contact name:__ yay SOE Contact number: 4O")- 7105 -1Y II A. Does your power plant have a heat recovery system? fy) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y (N ) Answer | Comments Yes No We Alem. tO + Dos crak UAima C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant l Youilk Conwole veaes badk Washeteria a) School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Motel (1200, 1800) | Individual Radiators, Piped Manifold) 2 >< oA? | LC Evaluator Comments on Potential for Heat Recovery in the Community: Td. yoo 1S Over 10 Years old z In addition foe Te placing the heat Cxchourg er other fePaitS aud upetadeg> ghovld be performed. rod Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ae AEA Heat Recovery Case Study Community Questionnaire Community/Utility: DK san Eles trie Uru - Evaluator: Q) ¢ Contact name:_YOEr Perescin Contact number: led ie at Imes uo Uaevuetialole A. Does your power plant have a heat recovery system? Y N (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Moxlel (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Rakes APY Evaluator:_2Ct acy Gra Contact name:_( av. \) \ahorn Contact number: 23 i O/ A. Does your power plant have a heat recovery system? Cy) N_ (Ifno skip to C and continue) b&ui\t 19 27 oR B. Does the power plant heat recovery equipment work? @) N a8 Answer | Comments Yes Taside tre YO Souk St trol hut it” off” foe UAL Oe Péasabis No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria a School i Shuck of P fe aloe REANS Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y SD) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make ein (1200, 1800) | Individual Radiators, Piped Manifold) Coed Meola V7 Evaluator Comments on Potential for Heat Recovery in the Community: The austen. is Fairly eld aud a atertly ovt of Service, There iS Prebably” geod patoatal fae a Fen ovation T or vpa Tade_ Prefect. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 4 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: \ Pnakhivuk PASS — Contact name: Marin Olsemnoe DELL, Voolnil A. Does your power plant havea he B. Does the power plant heat recovery equipment work? Q (> Evaluator: AG Contact number: BS : f at recovery system? (y) N_ (Ifno skip to C and continue) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N _ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic Water Treatment Plant Washeteria School Fi b 24 Oo Ts Community Bldg SI Other Bldg | Stoeroe + Vint ULoneeRousé (Indicate the appropriate number in the rank cohimn — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (N) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make nore) (1200, 1800) | Individual Radiators, Piped Manifold) totus Asa & Adiatce~< Magic Weeder Cepsets, aly Evaluator Comments on Potential for Heat Recovery in the Community: { Pts 716 HEAT Dp (#COURRY f Sy STEM 1S OPDERATA MAL Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): —— AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_ A” qoon Evaluator: Brian Gray Contact name: Contact number: A. Does your power plant have a heat recovery system? @D N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? SD N Answer Comments Yes No Old inefficienf systene thaf werks bet has Probie $ C. Is there interest in the community to have a working heat recov. systemY¥ N (blank for no answer ~ Answer Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Venue E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School | 5 Schoo!) bldas congected_ Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, cae nee) (1200, 1800) | Individual Radiators, Piped Manifold) / Catergi| lor 219 |zoo Fipe d Manifold Z Ky y 2506 J Y Evaluator Comments on Potential for Heat Recovery in the Community: The existing Syste 1s old aud has Some design Flaws. A New Susten has been desiquect for jnstellation as pact of aA Powe ousten vp rade that will be. dene as Soon as Finding 19 Quailable . Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): > AEA Heat Recovery Case Study Community Questionnaire balk & ee Evaluator: Be ian Gray Community/Utility: and ¢ Contact name: A eleske Contact number: A. Does your power plant have a heat recovery system? Y N) (if no skip tec 19 con B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y Q) (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Finan Ci Mey ¥ Va i iE enn Le E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ®) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Mods (1200, 1800) | Individual Radiators, Piped Manifold) Skid Cadiaboes { Vv Evaluator Comments on Potential for Heat Recovery in the Community: A parently the owner 1S net interested, Mex be if there Was Q feed Cinauce package they wovla consider. There is a large electric load” and several bvildongs inthe vicinity oo there is probably very high Potantial 2 Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ea AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Acetic Village - Evaluator: Brioue ome Contact name: Contact number: A. Does your power plant have a heat recovery system? &@® N_ (ifno skip to C and continue) B. Does the power plant heat recovery equipment work? QD N Answer | Comments Yes New laut with HA susten wil Jo ow line ft Zool No C. Is there interest in the community to have a working heat recov. system? (W) N (blank for no answer) Answer | Comments Yes No D. 3 you know of any issues that would prevent a recovered heat system from being constructed? Aud E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg { Airpert Epuip Beoildi “nw (Indicate the appropriate number in the rank column — add comments if ere or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make mace (1200, 1800) eee Piped Manifold) || Lh Deere | Goo! lpoo | Piped Mawrfold 2 6068 4 I £068 t { 4 4045 Evaluator Comments on Potential for Heat Recovery in the Community: The new fewer plout will Provide. Troered heat to the only ad vSer building Zlose Cxrovg h to vse heat. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Sa AEA Heat Recovery Case Study Community Questionnaire Community/Utility, AL pn autb\ oak Teioel Usuevaluator: Rie Contact name:_\39\ Contact number: 99) - $5.3 -S449 Fexf Pron FAxed 1HI3(05 b00 oe A. Does your power plant have a heat recovery system? Y N (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No 2 C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg _ . ‘| Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make sie (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: NO INFORMATION AvVAILARLE Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Transmissi on Report Date/Time Local ID Local Name Company Logo This document was confirmed. (reduced sample and details below) Document Size Letter—-S ABA Heat Recovery Case Study Commumity Questionnaire Community/Uthity: ManPVSLAAK TROdAL UkILEES Project Summary: Hi; Tam Tam with AB&E. We are warking with the Alaska Energy Authority/Rural Energy Group to develop « database of recovered heat systems in communities throughout Alaska. ‘The purpose of this database is to identify and prioritize future heat recovery project efforts. Questions: Contact name: A. Does your power plant have a heat recovery system? 1. Yes 2. No (ENO, skip fo C and continue) B. Does the power | Contact number: 99? + heat recovery equipment work? 5535494 fix Answer ‘Comments 1. Yes 2. No C. Is there interest in the community to have a working heat recovery system? Answer Comments i. Yes 2. No. D. Do you know of any issues that would prevent a recovered heat system from being constructed? B. What buildings are connected to the recovered heat system? And do they receive heat? 1. end user - heat recovery works 2, end user - heat recovery does not work (reason / comments) ‘not connected, are they within 400” of the power plant,? 3. not an end user~ bldg is within 400" of power plant (has potential) 4. not an end user — bldg is further than 400" from power plant (poor potential) Ranking End User Building — | Nam Comments —— ‘Water Treatment Plant Washeteria School | Community Big, Other Bldg. (Indicate the appropriate number in the boxes above — add comments if not working) F. Do youhave an energy meter to record heat provided from the heat recovery system? G. Describe the power plant radiators in the table below (used back if more space required): Ag age, meee Cool! item Generator | Make Model Gaonasteye (sud Mauer 7, fest 1 Sane Neeee | rioacaia | 1250 2. Soon Deece. | uakiarcor | (860 3 Sonn Decee | HONS TE oO/ | 1800 Evaluator Comments on Potential for Heat Recovery in the Community: ‘Community Scoring: Potential (0 None, | Poor, 2 Low, 3 Moderate, 4 Good, 5 Excellent): 5 1 12-23-05;10:58PM 907 349 8001 ALASKA ENERGY AND EN Total Pages Scanned 1 Total Pages Confirmed No. |Doc|Remote Station Start Time Duration|Pages Mode |Comments|Resuits 1 771 19075535429 12-23-05;10:S57PM 1'4g" 7 1 G3 cP 14.4 lotes Cc: Error Correct Resend PD: Polled by Remote MB: Receive to Mailbox 1¢: Broadcast Send Multi-Poll PG: Polling a Remote Pl: Power Interruption P: Completed Receive to Memory DR: Document Removed Ti: Terminated by user Si st Scan Host Print FO: Forced Output WT: Waiting Transfer FF Ist Fax Host Receive FM: Forward Mailbox Doc. WS: Waiting Send AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_ At GAS aK Evaluator: (U2 Contact name:_(V\AR 1A ( Noten of Contact number: - R54 - OL PF OOY3\}, i OReRw & any a . A. Does your power plant have’a heat recovery system? Y) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? yy) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria | School { Community Bldg { Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y Q) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make = (1200, 1800) | Individual Radiators, Piped Manifold) Teta d al Rediatoes | Evaluator Comments on Potential for Heat Recovery in the Community: Ens Lin heat YE cau ches Sy STEM [5 OPERATIONAL Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): _ a AEA Heat Recovery Case Study Community Questionnaire Community/Utility: 2. Yoiy Le ih ‘e/€sEvaluator: ( cw Contact name: Contact number: 907 - WF - 914 Vo Lore v\ 211" A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) Setorde B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make aiede (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: NO Coniacy MApYy Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_Cye X&\ AY EL Evaluator: Er [ac Gra 4 _ Contact name:_\Dox MW alhod Contact number:_. t)/ A. Does your power plant have a heat recovery system? ww) N_ ([fno skip to C and continue) B. Does the power plant heat recovery equipment work? (Y Answer | Comments Yes On fae VP No ~ C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Mode (1200, 1800) | Individual Radiators, Piped Manifold) Deed Menlblg U Evaluator Comments on Potential for Heat Recovery in the Community: Agperently the chee| i5 closed aud there are fo eee lovi |ding 6 close ecto.ug te vse the heat. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): tL Community/Utility: AEA Heat Recovery Case Study Community Questionnaire A Contact name:_\ fe \E Ve 4 [ % yall A. Does your power plant have a heat recovery system? Y) N_ (ifno skip to C and eantinue) huslk Rio B. Does the power plant heat recovery equipment work? Y) N ~ AV (ULkoe Ele, Evaluator: ria Gray _ “ - Contact number: - Answer | Comments Yes Renu’ \ ask Sune k Lee iE Cr A‘ Axe No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Q otk E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic Water Treatment Plant Washeteria School Community Bldg | affine Bide. J stag losile ‘Bo Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (N) Cautd ur Se ore, G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen # Make Model Gen RPM (1200, 1800) Cooling System (Skid Radiators, Individual Radiators, Piped Manifold) Pioed Manifold | b Evaluator Comments on Potential for Heat Recovery in the Community: = hz Sy stem is old bot Ap patente stil| works. er eae Zovld iM Prove re liabTt: ity aud eK Ficheucy « Community Scoring: Potential (0@=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 3 A Feuovat nN AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Boe laud Evaluator: Be tat Grex Contact name: Contact number: A. Does your power plant have a heat recovery system? © N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? © N Answer | Comments Yes iotin + is old + works WO Plaut qorng on Ime 2006 i Ais 4 24ST eur 15 be ‘oO , Me Plon foing a } C. Is there interest in the community to have a working heat recov. system? &) N (blank for no answer ~~ Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? None E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria l Lorcent oy stent heeds to be ceCurbished_ School Z| Net ermvqh” heat available te justify addi Community Bldg d 4 ra Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, oe ee (1200, 1800) | Individual Radiators, Piped Manifold) lL | &4 ter pi llar| 3456 1$00 Fi ped Manifold “ 3456 L M eee Vv Evaluator Comments on Potential for Heat Recovery in the Community: The new (laut Will. be close fo Washeteria., New arctic Pigin Quad HX repuiced. Not Cough heat available 2 foot fy adding Coanection fo Seheo| Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 2 AEA Heat Recovery Case Study Community Questionnaire - OMA Community/Utility: Ona ile < Epek >) aluator: Q {2 Contact name: Paul Eduist nr ii Contact number: ae (orl am RUD My Tbloelos A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and eankie 19/30/05 120 ce 2 B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Medel (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: WO Cont Act mrbdge Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Lhefom ak Evaluator: Bricour G rey Contact name: Contact number: A. Does your power plant have a heat recovery system? @ N_ (ifno skip to C and continue) B. Does the power plant heat recovery equipment work? ) N Answer | Comments Yes Extremely com lex aystem with Zeoutte| problems, pare ly work No C. Is there interest in the community to have a working heat recov. system? ®@ N (blank for no answer ~ Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? None E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School =S Community Bldg Other Bldg _ l Cirevlating Water leor (Indicate the appropriate number in the rank column —add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, i ane sina (1200, 1800) | Individual Radiators, Piped Manifold) Pipe d Manifel d fb Evaluator Comments on Potential for Heat Recovery in the Community: nee existing nuotent Geovides heat to the Cicevlating potable Water Systenr but the controls are very Complex amd de Not Work reliably. A New Power Plant will be Ltoupleted id Z006 or 2007 and covld Peovide heat toe the sxeheo/, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): if AEA Heat Recovery Case Study Community Questionnaire Community/Utility: One EEO Dau Elea \ hea LA, . Evaluator: AN 2 E Paheeken QD SI3-S! du Contact name: Contact number: 2573 -S1¢ A. Does your power plant have a heat recovery system? 6 N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Cy) N Answer | Comments Yes | Has hooked! wap ba 40" (lonex lida No C. Is there interest in the community to have a working heat recov. system? (Y) N (blank for no answer) Answer | Comments Yes No E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Y Water Treatment Plant 3 Washeteria q School a €ommunity Bidg ohipeg | { 4 onex Ys Shop Other Bldg 3 eri Shap (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y CW) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Care) Mae Motel (1200, 1800) | Individual Radiators, Piped Manifold) Piped Manifold t Evaluator Comments on Potential for Heat Recovery in the Community: Dokegest wo Hoden Fisn hahtiheen within 1 Mile e Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: ch i 4 Pi \ ( Bax ) Evaluator: Bri au Gran Contact name: Contact number: A. Does your power plant have a heat recovery system? eo) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work?(¥) N Answer | Comments Yes Vers old ineSSichent System that werks No C. Is there interest in the community to have a working heat recov. system? @) N (blank for no answer) Answer | Comments Yes Community Warts te Move Plot te remote [ocetionr No D. Do you know of any issues that would prevent a recovered heat system from being constructed? frepe sed New location pweold Tedvce vtilizatrern E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School l Community Bldg | Shoe Other Bldg L Fire Hell (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, fen | italics Moe (1200, 1800) | Individual Radiators, Piped Manifold) Individual Radiaters Evaluator Comments on Potential for Heat Recovery in the Community: Existing cy uton bare ly works and shovid be reforbished. Lf plant i$ Moved to View Jocationu Neat will go to fo few LomMvnity later, Sch vol May self generate te be able to abel fecoveted heat . Thig would deanatically reduce electric /oads. Community Scoring: Potential (Q@=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): e- AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Chig nike Lagoon Evaluator: Brinn Grae Contact name: Contact number: A. Does your power plant have a heat recovery system? @nN (If no skip to C and continue) B. Does the power plant heat recovery equipment work? @ N Answer | Comments Yes Syste pas installed jr 199% aud May reguire Maintenance. No ~ C. Is there interest in the community to have a working heat recov. system? @ N_ (blank for no answer Answer | Comments Yes No D. mae know of any issues that would prevent a recovered heat system from being constructed? one E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School i Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y &D G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, eal aed (1200, 1800) | Individual Radiators, Piped Manifold) Fi ged v Evaluator Comments on Potential for Heat Recovery in the Community: bAkbalwa Sys teu is B Years oldand Probebly due for Maier Maintenrauce, mM be able to improve fe 3 =. P Performoncce with upztade . Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): i= AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_ C///6M//k (Ad cE. Evaluator: S TS Contact name: VINCE WELSTES Contact number:__2Y6-Y 292 A. Does your power plant have a heat recovery system? (v) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? @) N Answer | Comments Yes LOY Powth BOT UPGRADE te Shad HE, No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant 3 Washeteria — School } Community Bldg Y Other Bldg. (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y &) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, ore || Make Pee (1200, 1800) | Individual en Piped Manifold) | TD iver! ¢02/ ZA MANLAD Lt thd-lsrel G OS) fal 1200 7 a TD-Vtw| GO6BTEoll 1400 - 7 | tp- som TY 0b ate Evaluator Comments on Potential for Heat Recovery in the Community: NEL) Powe PART wiry WEA kEtavE Ry fe Schaal, WTP NOT BPNWG6#H Aiépt LARCE HEAT fve Community Scoring: Potential @=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): C ) whoo AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Q skiing Flest.. Tri Evaluator: Q \2 Contact name: Maekin Ci OMNES AL yA Contact number: 97 - &4 2 } SIO A. Does your power plant have a heat recovery system? CY) N_ (ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Yy) N Answer | Comments Yes \ Enaine Qa LPFy ew Chien No ~ i C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic | Water Treatment Plant Washeteria School Community Bldg \ QAx., Wart Other Bldg 3 Rae of (7 hide) Teailee land off. (1 bide) Eraire (Indicate the appropriate number in the rank column — add comments if not working or not feasible) : m1) F. Does the system have an energy meter to record the recovered heat provided? vy) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | individual Radiators, Piped Manifold) aso Lod 1800 arid Pedipbors Cat 3304 L&0 < sackucnit ina Evaluator Comments on Potential for Heat Recovery in the Community: Very _| little. infocmation quailable , Syston Should be De te S22 if an upgrade 19 reguired Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): iz AEA Heat Recovery Case Study Community Questionnaire (VK Community/Utility: Cove s> ery Evaluator: (iz Contact name: Don, 1 W\elhar Contact number:_g83 >5/O) A. Does your power plant have a heat recovery system? Y (N) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No ~ C. Is there interest in the community to have a working heat recov. system? Y 1) (blank for no answer Answer | Comments Yes 1 No hoot Wie enouolh D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gena | Make ao (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: 4 4 Sauls rc “ VN A aif -S \ PEA Vm AON LE wou VOCED AUASSE, 163 2 Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): vil AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Lh wast balole Evaluator: rian Gro Contact name: Contact number: A. Does your power plant have a heat recovery system? Y @® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Small ¢@ lectrite load , “lo e@ud vsers Nears “ E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building — Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y > G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make ee (1200, 1800) | Individual Radiators, Piped Manifold) | | Noha Deore | F045 [poo Fiped Manifold eS CATT seo TT Y Evaluator Comments on Potential for Heat Recovery in the Community: The electric load is fairly Small cud there ase fo buildings Near by that gould Utilize the heat. Community ne Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): { AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Q Leeks Foink Eleot . Evaluator: (| 2 Contact name: Ste AE Contact number: 9q] = 3(o- 19h I Vik ofO. | ETE i (iPno s A. Does your power plant have a heat recovery system? y) N kip to C and continue) B. Does the power plant heat recovery equipment work? Y Q) Answer | Comments Yes No line bo StWagl van asked C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic il Water Treatment Plant Washeteria School 4 ine. OOK E. Community Bldg KS) ‘ gz Other Bldg | ~ (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (N) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Piped Mani old Wi 4 ak LZ0Q, lise. in EMEPOENM Onli, Evaluator Comments on Potential for Heat Recovery in the Community: IN i ee system Ahouvld be evaluated to see if feplacement Wevld le justifiable. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): & AEA Heat Recovery Case Study Community Questionnaire Community/Utitity:Q 9% NAN ie - AP eT Evaluator: O12 Contact name: Q Peo WiKi el<on Contact number:_]99- 4 #3 A. Does your power plant have a heat recovery system? Y @) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? (y) N (blank for no answer) Answer | Comments } > 7 Yes LP desrxetonoment of? Gammunitu ¥ agcecmemesee AT No : D D. Do you know of any sages 0 would prevent a recovered heat system from being constructed? DBS E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg ¢ SWnd Maric ey | (Indicate the appropriate number in the rank column — add comments‘f not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make te (1200, 1800) | Individual Radiators, Piped Manifold) J J } i Keronte Kedinboes { N/ Evaluator Comments on Potential for Heat Recovery in the Community: Teivien slo Sarena, Ceirel npmnes pepulligy Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | AEA Heat Recovery Case Study Community Questionnaire Ay | Evaluator: @ | 2 Community/Utility: Q PAU 7 | Contact name: ( are Ls Ee E ects A501) Contact number: - 5.39 -K A. Does your power amt have a heat recovery system? (y) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work?) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg | aie (Cz 4 Shap Other Bldg { lank eal Poem + Stoemot + PP (Indicate the appropriate number in ie meet column — add comments ee not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? 9) N Wok LOORK j ro . G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make or (1200, 1800) | Individual Radiators, Piped Manifold) iz | WT Evaluator Comments on Potential for Heat Recovery in the Community: eAttle bo Fiy Loar ine Vof Oarteolled farce? in i — | 7 ce Enee®o iVW+ ey” Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | Contact name: AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Crooked Creel _ Evaluator: Per tac S Vict Contact number: A. Does your power plant have a heat recovery system? & N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? N Answer Comments Yes No Brand New pec Plot with HR fm Zoos C. Is there interest in the community to have a working heat recov. system? @ N (blank for no answer) Answer Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic Water T: reatment Plant Washeteria 3 Lesiqn couplete , install in _Zo06 if Foadat School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y i) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, pene ore pious (1200, 1800) eee Piped Manifold) | [Jew Deer | 4068 [p02 | Piped Maui Sold a b 4045 | v7 3% 4045 Vv Evaluator Comments on Potential for Heat Recovery in the Community: The new ower plant Nas heat [covery eg uipilout . A desion has Weer lonplete A for Connection te (A WES eteria . Le fouding is Qailable the Susteur Laur. be justelled in 2006. Community Scoring: Potential (@=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 5 AEA Heat Recovery Case Study Community Questionnaire ERIC Ce. 0 Community/Utility: Qe< 21 vo - Coneka \i aa Si atuaiari re Contact name: Als) in TueBs 0 a Contact number:_. 3 (0.3 - 4 |lolo A. Does your power plant have a heat recovery system? () N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? © N Answer | Comments Yes CQaod See Venkina Suskem No ale liiad C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria | \co Inewk ever s School 3 hanikiin Uaey! Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, neat Motel (1200, 1800) | Individual Radiators, Piped Manifold) % \ W Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): i AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Piomede Evaluator: Br ior Gran Contact name: Contact number: A. Does your power plant have a heat recovery system? N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? N Answer | Comments Yes Sustem is eld bof still werke . No a i C. Is there interest in the community to have a working heat recov. system?(D N (blank for no answer LS Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Pp one E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant I Washeteria { School l Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @®) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, eal eer ea (1200, 1800) | Individual Radiators, Piped Manifold) fiped | Vv Evaluator Comments on Potential for Heat Recovery in the Community: flue System design 1S Marginad aud the Lexpenents are. elde A Malor fenevation ghevld be performed to Cursure_ rejiable Servite Quad. increase efficiency. Marine. jacket Gouerat ors would ipcrease avnjlable heat. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 5 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Exale - AP YT Evaluator: Cy fe Contact name: Dow \V YR pov Contact number:_8. 83-5 (OQ | A. Does your power plant have a heat recovery system? (y) N_ (if no skip to C and continue) B. Does the power plant heat recovery equipment work? (Y\ N Answer | Comments | Yes Ws kine. onli, Mebe eed one No dj oS C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School | Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided Y) N G. Describe the power plant generators (if different than shown in AEA database) and radiators: GenRPM __ | Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Pine A_Wyani Ce id | WT Evaluator Comments on Potential for Heat Recovery in the Community: Youoe ¢ Less ‘ Es : Pe Fy OCW J idiina NAL New ieee! (Neel IT i RON eel | ( Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | AEA Heat Recovery Case Study Community Questionnaire k Cy Evaluator: ( 42 Contact name: Contact number:9407 - 2 3,3 4) ff A. Does your power plant have a heat recovery system? ) N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Gy) N Community/Utility: Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building _ Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg [ Other Bldg { (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ®) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, cuit | iaake oa (1200, 1800) | Individual Radiators, Piped Manifold) Remoke, Ladiators V7 Evaluator Comments on Potential for Heat Recovery in the Community: Exiore Go Heer \ECOuwEY Sy siem 1S operenanat Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): / AEA Heat Recovery Case Study Community Questionnaire Community/Utility: E Kiok Eleote id Evaluator: G 2 Contact name: Q anne d St ERNE Contact number: 89 1- UloY- 4 31/ A. Does your power plant have a heat recovery system? y) N_ (Ifno skip to C and continue) ok. ( Asire re B. Does the power plant heat recovery equipment work? (y) N Answer | Comments Yes eine Pelo@ated Next UEAR No ~ a C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg 8 Stabon Other Bldg 3 ous peed SEAL (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y )) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gina) Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Pioed (Y) yA Lol d to. acisioes ee Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): a AEA Heat Recovery Case Study Community Questionnaire Community/Utility: a lf in Cove Evaluator: jan G Contact name: Contact number: A. Does your power plant have a heat recovery system? @ N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? @& N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Nene E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg l Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y © G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen # | Make Model Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped. Manifold) Pi ged Maunifeld V7 Evaluator Comments on Potential for Heat Recovery in the Community: Bu ate Shoold be veqgraded te iMprove ec entey aud euseore el tab le Service, Re p. lacement of me |lect 9 eacrator with Martine Jacket udould increas @ available heat Community Scoring: Potential (0@=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ~ AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_-¢ _ Pass itP YG Evaluator: C M22 Contact name: a enkor \yAikson Contact number: 907) - 5Y, C- Fal 3) g A. Does your power plant have a heat recovery system? (y) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? ) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg | & hae (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, enon no (1200, 1800) | Individual Radiators, Piped Manifold) Todivithasl Keadeatoes | + Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): / AEA Heat Recovery Case Study Community Questionnaire. _ Lain ar One® Ussliey, Oo - Community/Utility:_(-5 ¢'> Youlorn: Yusikil wh Evaluator:___ (1 °% Contact name: Contact number: 40) - (olod) - 9389 _ WO ArSwse Hos oF A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) (9/ 2/05 B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No [ C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make sae (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: NO_ Cosi Act MpRDE Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: GA LENE Etec ON ury Evaluator: SI S$ Contact name: WALT Witdox Contact number:_ G27 @S 6 /SO 5 A. Does your power plant have a heat recovery system? @® N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? ) N Answer | Comments Yes DVSTALLED Mid - G2? , UPGRADED GF- 200 No C. Is there interest in the community to have a working heat recov. system? ® N (blank for no answer) Answer | Comments Yes LYUD bike TO EXPAND FO Sk CENTER. No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic I Water Treatment Plant l Washeteria / School | Community Bldg Y NEW) <P CENTER — ROT Con s7hugeh\ Other Bldg | fire Hall | PAL (Indicate the appropriate number in the rank column — add cémments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y Q) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) Gen # | Make Model Y Of - 1050 ead 3$/2 B [2a MAMEELDED — TWAc Evaluator Comments on Potential for Heat Recovery in the Community: Existiaa Ue Syste wsrnceo Cleca 1960"? Pact, LTP Md Qty HAI AODED Circ 20 UTieiry Waers 7? ExOavs HR sys7em 72 NEW SEMCR CEATZ2 Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): If AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Ge | eVvih. Contact name: Evaluator: Br eee 6 a Contact number: A. Does your power plant have a heat recovery system? @D N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? N Answer | Comments Yes Dew ays tem stalled ‘mM Zoo 4- No C. Is there interest in the community to have a working heat recov. system? & N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Neve E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria l ANTHC has beew vas en He Byte - $til( vet School Community Bldg l Other Bldg lt ¢ s Shep 4 fest off&e _ F. Does t ne: (Indicate the appropriate number in the rank column — add comments if not working or not feasible) he system have an energy meter to record the recovered heat provided? @ N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Sour | Make aie (1200, 1800) ieee Piped Manifold) { tohn Mere| Goel] /e00 fiped Zz Gon | + C0og AF t + 6069 Evaluator Comments on Potential for Heat Recovery in the Community: New sy stend that w heat rq how te oces Mery well. ANTHC oysteu foc 3 Yeats aud 1% Still vuclear 2 a interface. A feo Cima installation could Coupromise has been Werking ov the System operations Lou siderativn should be given ° rep la coment of onaller gererat ors with Marine jacket. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): OC AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_( suste VYS Evaluator: f2r 14 Gi ee Contact name: Contact number: A. Does your power plant have a heat recovery system? Y @® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y CN) (blank for no answer) Answer | Comments Yes No Majority of fewer to be provided by hydro D. Do you know of any issues that would prevent a recovered heat system from being constructed? Liaited diesel Gquceretion, No @ud vbers close to rer p Gar E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School 4 Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, ea pode (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: The uti te develo pin a hydro-electric project that wil ( Previde @ Merori te of the Power « Diesel will ouly be vsed te Supplement lydre s0 heat fecoversy poten tiel 1S wet low. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 4 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: HATA lé S \ A p a al: Evaluator: a7 S Contact name: Le V Contact number: 90 jz 166 = S266 A. Does your power plant have a heat recovery system? Y (N) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y QAblank for no answer) Answer | Comments Yes No HypkO Paw ER D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg | Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F, Does the system have an energy meter to record the recovered heat provided? Y ® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) Gen # | Make Model Evaluator Comments on Potential for Heat Recovery in the Community: LLAWEE REZCEZIVES WIRTUALL y ALL PEWEP Fleam ttyl > Community Scoring: Potential None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ( a) AEA Heat Recovery Case Study Community Questionnaire Community/Utility: ake - SP % Evaluator: “\_2 > “ = ARK Sa) O04 1. Contact name: (Dorn \\\eVray Contact number:_§ 6 5 “> /() } A. Does your power plant have a heat recovery system? Y (N) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y ® (blank for no answer) Answer | Comments Yes No» Qrrommnrarikas ‘en Small Dokdai na ne ee. ~~) ~~ D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant .Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, cele | ee nae (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: 7 \ \ 7 \ ) or moi wib, HOt Mig Enon aso } KO WASDSEA‘LU > ) ~ ~~ Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 1 AEA Heat Recovery Case Study Community Questionnaire Ne 0, Community/Utility: Ha! lis- Ae x7 Evaluator:__\! 2 Contact name: CO pro Di\itkeleoyn Contact number:_7) SY - 4 83 | A. Does your power plant have a heat recovery system? Y (N) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen ff, | Male Mats (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: t adler, - Emme roe onlu ~ ~ ~ \. veg Wallis iS oe AY is oved i we \ Ve ) \ XY AK ) Ne d tese| few er ; oO Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Hox nah Evaluator: Q Q Contact name: Kerrey Ke RO QhEs \ Contact number:_7) 89 yt Gin K 33) A. Does your power plant have a heat recovery system? Y WW) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? ) N (blank for no answer) Answer | Comments Yes Nout Lo Rr ante No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Vode E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg 2 Ci Sia? (Indicate the appropriate number in the rank column — ddd comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) > - 7 Ke ory re Ky s(\ isto 4 | \\ J Evaluator Comments on Potential for Heat Recovery in the Community: Cn © Sens uenes gona bo inteebve - Neende \ A ¥ Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): / AEA Heat Recovery Case Study Community Questionnaire Community/Utility: H v4 he S Evaluator: Bri on Ore 4 Contact name: Contact number: A. Does your power plant have a heat recovery system? Y ® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y CW ibtank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Electr. Joad Smell, no eud uvgers Veo by E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ®) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) { Johu D A045 [Boo Piged Manifold St 5 4045 tes A 3029 Evaluator Comments on Potential for Heat Recovery in the Community: Tre communi ry bdve, has a snall electric load $0 there ib very lithe heat awailable. There are uo buildings Near by Hist covld vSe the heat. Gen# | Make Model Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Evaluator: (2 ) Contact nameXcn@ Contact number:_ 1.5.5 = 4&3 | A. Does your power plant have a heat recovery system? Y W) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system?¥) N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? WD E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic 3 ) Water Treatment Plant Washeteria School Community Bldg 3 Se Paing Center Other Bldg 3 El deplix Nousino (Indicate the appropriate number in the rank column — add comments if not working or not feasible) ’ F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Bion (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: -> ~ 4 C > \ N/nalae tHucelo: seQ LOAD Nac HAAS OW St Ad lou ek AS DN LAK 1 IS — 7 \ \ YA \ wt cr 5 va \ Yous onsla A WAS E LOT e yA AP \ f Community Scoring: Potential (Q=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Lg ‘4 t 4 Evaluator: Briauw G i Contact name: Contact number: A. Does your power plant have a heat recovery system? ® N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? ® N Answer | Comments Yes Older System, not very effictent bot works No C. Is there interest in the community to have a working heat recov. system?(¥> N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant / Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working ai feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) Lndiviel Radiaters | J Evaluator Comments on Potential for Heat Recovery in the Community: Gen# | Make Model The existing heat fecovery Syste is old aud vet ver eS at okt it does ae A fencvation govld ase Performance . Instelletion of marine jacket Aeneratore could increase available heat. Additione| bvild ings Lovld be Zoanected to inageace vtilizetion, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 3 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Losool f Bean Elecke ia Evaluator: © (2? SS Contact name: Contact number: teint -8A@ AL, Uartaits JOASY Goerubin A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Genz | Blake fain (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: lonmunite iS dK to only A Few feople « Uslathnlly Extreme|4 ortedl eu a load, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): O AEA Heat Recovery Case Study Community Questionnaire Community/Utility:__(Ca\< & Evaluator: (| 2. Contact number:_~ Z —) + a a a Contact name: Keky Ye PookREN A. Does your power plant have a heat recovery system? Ww) N_ (Ifno skip to C and continue) Won bu 4 ; B. Does the power plant heat recovery equipment work? Y CN) 4" Answer | Comments Yes No Ce C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria : School Community Bldg Other Bldg 2 Fran Plank (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (a) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gait | Make niece (1200, 1800) | Individual Radiators, Piped Manifold) e Mote Ly dv akors \ Evaluator Comments on Potential for Heat Recovery in the Community: There ig & fairly large electric load so high heat available, 24s few ale el d be evalvated te sve iL Fenovatis a io Feasible, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 2 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Keak Ovi i Contact name: OERPI A. Does your power plant rap\ a B. Does the power plant heat recovery equipment work? Y) N Evaluator:_ (2 Contact number: 9) - 85D - Q/PY Tete recovery system? (y) N_ (Ifno skip to C and continue) Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments ‘| Clinic Water Treatment Plant | Washeteria eo) put ou School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ®) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen # | Make Model Gen RPM (1200, 1800) Cooling System (Skid Radiators, Individual Radiators, Piped Manifold) Ladle duce Radiators Ny Evaluator Comments on Potential for Heat Recovery in the Community: er SYSTEM 1S OPERATIONAL ExSTING His ! 2 Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 2. AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Kar tuk Evaluator: Br tard a Contact name: Contact number: A. Does your power plant have a heat recovery system? Y (ur no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Very gnell load , pee Flaunt mamteraree, seid tadiaters E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Mn ae aT (1200, 1800) | Individual Radiators, Piped Manifold) Sid HMta a a Evaluator Comments on Potential for Heat Recovery in the Community: The small electric loads Make +the furutiter of heat Gai lable. a euall, The ¢ lant has a history of ver fren eke ee Ae eet etl syste insta/lafien would be hard te jvoti fy. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): { AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Kae Aan - WP Evaluator:__(\.\2 Contact name: Oven Mr ielson Contact number: 7)5-5 -U 22 A. Does your power plant have a heat recovery system? Y WN) (Ifno skip to C and — B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y (> (blank for no answer) Answer | Comments Yes No Noden aeid D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make hore (1200, 1800) | Individual Radiators, Piped Manifold) Reine & e Racks wo eS | U Evaluator Comments on Potential for Heat Recovery in the Community: Primary Power 16 from Huelre - elective. System. _ Vresel only for backups So no potential. Community Scoring: Potential (0@=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Cc AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Aw Covk Evaluator: ST 3 Contact name: Gary B fl - S Contact number:_927 Y?? ZSPY A. Does your power plant have a heat recovery system? @® N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y) N Answer | Comments | es) Pow HAASE, awly =NO Erb BESS No C. Is there interest in the community to have a working heat recov. system? @w) N (blank for no answer) Answer | Comments No D. Do you know of any issues that would prevent a recovered heat system from being constructed? NEW PP NOT Lovs7PuUcTED E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic 3 NEw) PP TO BF LocATED AZAR Ginic Water Treatment Plant 4 Washeteria uf School 2 NEL PP To RE LOCATED Ab 4E SCHeol Community Bldg Ly Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @D> G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen# | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) LY lar 6Deuy Sse 120 SHID RAO [Aree Evaluator Comments on Potential for Heat Recovery in the Community: Mel! PP JO BE conSTR CED (VEAR ALL) HS HS sll WI2£ ALL AVAILABLE RECOUERED HEAT Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Bxcellent): i AEA Heat Recovery Case Study Community Questionnaire Community/Utility: K 1 OW Kk Li ol a ant Evaluator: Oy ie Contact name: fe LIVE ey Onn Contact number: Gg ) -89 lo -S44*) A. Does your power plant have a heat recovery system? Y r)N (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y) N Answer | Comments Yes ooeks Real Qasd No ae C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Te No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Ofte Cold os 30 hapl) i: Other Bldg as Hous: na REdbas (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y) N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Ce “satin (1200, 1800) | Individual Radiators, Piped Manifold) Wok, Suge l Vv Evaluator Comments on Potential for Heat Recovery in the Community: The Sy oteus 1% ever lO Yeors old and aac be ig! fe Miner (enevation. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ] AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Ko bu ke Evaluator: Brio G rat Contact name: Contact number: A. Does your power plant have a heat recovery system? Y ® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No ~ C. Is there interest in the community to have a working heat recov. system? Y () (blank for no answer Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Ne potential E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, seria | Make ee (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: Power 19 ovided by Un. tut ectie From Phueguade.. There 1S ne diesel Generation in Mebot., Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Oo AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Ke Lb haune bE Evaluator: B rian G a Contact name: Contact number: A. Does your power plant have a heat recovery system? (@ N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? @ N Answer | Comments Yes Brand New installation in Zoot No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Vv One E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School | Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @ G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make ian (1200, 1800) Tohial eae Piped Manifold) | dein Veer! AOA 1300 Figed Manifold 2. GOES 4 Gob\ t 4 vy Gos\ v Evaluator Comments on Potential for Heat Recovery in the Community: New syste installed as Pact of New Power Zlawt In Zeor, Werks Jood . ‘ Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): © WELD AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Evaluator: 0 Az Contact name: Contact number: 90) = 9 Uy -.34.34 { A. Does your power plant have a heat recovery system? Y (nN) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No hess (eee Kw ik yak & MEARS AAO C. Is there interest in the community to have a working heat recov. system? y) N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Cock E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Pe} Water Treatment Plant Washeteria School 3 Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Pined Manctdtd | = SO t £0 Ku ) i §Q0 marae Se pA Pal U%MedioAed Have! Cantrolled use e-Senttle Evaluator Comments on Potential for Heat Recovery in the Community: Very small electry load se limited potential, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): % AEA Heat Recovery Case Study Community Questionnaire Community/Utility: K } ng ie anna Evaluator: Briaw Gr ae Contact name: Contact number: A. Does your power plant have a heat recovery system? ® N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? ® N Answer | Comments Yes New Plank with HR 2006 No S C. Is there interest in the community to have a working heat recov. system? @® N (blank for no answer Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Nera E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant i Washeteria 1 | fartially served py water pleut boilers School a oS Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? @® N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, eae ae (1200, 1800) | Individual Radiators, Piped Manifold) Soha Deere | 6IZS 1820 Figed Manifold | It - oot Cos, Evaluator Comments on Potential for Heat Recovery in the Community: Braud new sy5 Ten That works very well, Wher Geuerntors We ar er Zovld Consider “upgrading to Mac me jacketed onits, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Q AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Kot [ vk Evaluator: Pcio+t Gr Be Contact name: Contact number: A. Does your power plant have a heat recovery system? 69) N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? (D N Answer | Comments No Yes New 24 stene iW _ Zoot C. Is there interest in the community to have a working heat recov. system? (@2N (blank for no answer eS Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? poue E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic Water Treatment Plant | Washeteria School Community Bldg Other Bldg oho (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen # | Make Model Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) Fiped Manle(d | Evaluator Comments on Potential for Heat Recovery in the Community: The Sustem is relatively new aud works well. There & boue potential te Cx Paurd to additional ZouMunity evi ldings. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 3s AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Kou vke . Evaluator: for ia Grier Contact name: Contact number: A. Does your power plant have a heat recovery system? @® N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? GDN Answer | Comments Yes system old, new plat te go ou Trae ju 206 No ~ C. Is there interest in the community to have a working heat recov. system? (~~) N (blank for no answer Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Nerve_ E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, aan | eke mnt (1200, 1800) | Individual Radiators, Piped Manifold) (cha Deere | 40454 1B00 Peed Maourifoid \ z ne: A045 + f 7) [ { 4 3029 Evaluator Comments on Potential for Heat Recovery in the Community: ‘lke. existing syste is old and bacely works, A newd 4 ewer Plat with heat pecovery will be completed eG il s Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 5 AEA Heat Recovery Case Study Community Questionnaire helb ouvir ‘ SKIN Community/Utility: K rofEIW AK Kuso Evaluator: (\ 12 om Contact name: 2 eh Ren Suen. Qn \ Contact number: vial )- Ls }- Wl 3 ——a oe SRevoConts Weve ore OAL ord. “1S7 - WAS g A. Does your power. plant itive a heat recovery system? Y (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes [Lagat Sues if breege was Comoran (nt eegst No = D. Do you know of any issues that would prevent a recovered heat system from being constructed? WO E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Y Water Treatment Plant \ Washeteria \ School L Community Bldg a Other Bldg ow (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen# | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) L800 Tadin x diy al Kadralnes ; | | 4 Ok of Sepuoite Mv VU Evaluator Comments on Potential for Heat Recovery in the Community: Lt appears that there are vo bildmgs in the Vicinity. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 4 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Kw i Q i) } i v4 ok Evaluator: Briace eres Contact name: Contact number: A. Does your power plant have a heat recovery system? 42) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes New Syntenr 7“ 205 No C. Is there interest in the community to have a working heat recov. system? ® N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? ANTH ZC las delayed Completion of end vser bldqs. E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant % Washeteria > School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? &@ N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, il mv ieee (1200, 1800) raividial atielome, Piped Manifold) L |toha Deere! Gos! [@00 | Fiped MinFol a %™ G08\4 > Cosi [ 4 J Go6emM Evaluator Comments on Potential for Heat Recovery in the Community: WY the New Povec vlaut Nas Very hi bi heat out pot with 3 Macine [ yecket Genera fors 7 Aste has delayed couplefion of water plant aud washeteria Yor Severa| years So heat Zannt be vtilized. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_\: a epveseoe vats (2c 11100111) 11 Contact name: _ Contact number: 90) - Lo 14 “a0 O REtordins to VY DiCEkoky Asoitk. Ad Dumbee) 2 A. Does your power plant have a heat recovery system?~ Y N_ (Ifno skip’to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: NO Con tT Acer ys BY Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: larsen Eee Evaluator: Bri oe Gra Contact name: Contact number: A. Does your power plant have a heat recovery system? Y @ ar no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y (NYlank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? M ajority oF fower Front hydre. E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (NO G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, net fia (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: rive mejor of ewer” [9 produced by a hydroplectric _plauf. iese [ ib only ySed for Suppleneata( Powel So there is Ile heat argjleble, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Levelek Evaluator: Bria. Gra { Contact name: Contact number: A. Does your power plant have a heat recovery system? 2) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? @® N Answer | Comments Yes Very old aud ine ficient No C. Is there interest in the community to have a working heat recov. system? @ N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School | Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Oita Make Mens (1200, 1800) | Individual Radiators, Piped Manifold) Figed Manifold \ Vv Evaluator Comments on Potential for Heat Recovery in the Community: The existing systent is old and imeficiert bt it does work. Au veqrade could iM Prove Per form once ond reliability. Marine jacket q enerafors Would increase owailable heat. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ai AEA Heat Recovery Case Study Community Questionnaire Community/Utility, Lime. Village oe Evaluator: Foci ace Gray Contact name: Contact number: A. Does your power plant have a heat recovery system? Y SD) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer ~ Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Ver anal electric load E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Sete | MaRS Mode (1200, 1800) | Individual Radiators, Piped Manifold) Tudividval Raditaters e. 4/ Evaluator Comments on Potential for Heat Recovery in the Community: The electric lead i$ 50 Small that there i Met etova heat available to jesfify installing a oy stent. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): { AEA Heat Recovery Case hea Community Questionnaire Community/Utility: Male | be ku UN Evaluator: ( Lite Contact name: Nex Les Wr AS i Contact number:.99) -47 35 SI! 9 lo tal A. Does your power plant have a heat recovery system? gy) N_(lf no skip to C and continue) a P P A iting CAL Lag ONS kyo00 Baas racked B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y CD (blank for no answer) Answer | Comments Yes No TRied bo Sell ko Giku Souk toege tt wkerestec/ ud) D. Do you know of any issues that would prevent a recovered heat system from being constructed? N90 E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School 4 Community Bldg | Senter Sb ee Other Bldg i (R0OPE heanae.c (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y wn) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, cate || ae bdovel (1200, 1800) | Individual Radiators, Piped Manifold) Bi Ped Man fold yi Evaluator Comments on Potential for Heat Recovery in the Community: Extrenely Zell electric load Se very little Potential. heat aveil able, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): l AEA Heat Recovery Case Study Community Questionnaire Community/Utility: M. 4uno ke t ay Contact name: Evaluator: Brice S r aa Contact number: A. Does your power plant have a heat recovery system? @® N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? &) N Answer | Comments No Yes___ [New plant will 40 ou lime in 2e0h C. Is there interest in the community to have a working heat recov. system? @ N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? None E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg \ Firehall ¢ Z@ Sheps (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) t_ [Jehan Deer | CiI2z5 leeo Fiped Hanrifot A Zz | G\2z6 | | 3 i Go| an 4 4 Go| Evaluator Comments on Potential for Heat Recovery in the Community: & Te existing heat Lecovery Syste No longer operates, The New power Zlout wil have a heaf fecovery¢ Ss fea Gud will 9o ih service in Zoo, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): , AEA Heat Recovery Case Study Community Questionnaire Community/Utility: (Oe a eck ¢ ‘se -y\PYT Evaluator: (4.2 Contact name:_Oar WNalnor Contact number:_ 253 -S/O/ A. Does your power plant have a heat recovery system? y) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y) N Answer | Comments — Yes ae VPP anu, No ~~ C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does. not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic q Water Treatment Plant ci Washeteria ly School uU Community Bldg qf Other Bldg Uf (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (N) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gent —| Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Ps pec Maanital { WW Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): a AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Met laa ie (aoe gx io \ Evaluator: @U2 Contact name:_|= ua a Ry wssell Contact number:7Q) - -33 A. Does your power plant have a heat recovery system? Y W) (If no skip to C and canner) / B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y 9) (blank for no answer) Answer | Comments Yes No Thee. WoAs woe by Hee fA WoileR Suskenn Sout Kinda uoent toy Ere woepside Gober SALoOMil We, ADuon D. Do you‘khow of any issues that would prevent a recovered heat system from being constructed? WO E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Y Water Treatment Plant Y Washeteria q School im Community Bldg u Other Bldg 4 (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gee | Mae aoe (1200, 1800) | Individual Radiators, Piped Manifold) Pided Many Cold evo. Que 3 old Jao Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 1 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Mcbpet wf MLé p Evaluator: CJ S Contact name: wy ATEN Contact number:_907.524370/ __, 38970 : s 2. he A. Does your power plant have a heat recovery system? 2) N_ (Ifno skip to C and continue) 3°55 ¢ Sficr B. Does the power plant heat recovery equipment work? @) N Answer | Comments FAR SHUT Dow — No FAD BEE No C. Is there interest in the community to have a working heat recov. system? Y N _ (blank for no answer) Answer | Comments No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works . 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic A] Water Treatment Plant Lu Washeteria = School u Community Bldg u Other Bldg “3 | Wfeél, AC Sek, Landi BODE (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (ND G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) Gen# | Make Model Evaluator Comments on Potential for Heat Recovery in the Community: Eyisrig hbk, Sys7ém 7? FAA HAS AsEW ABAMOANED, AkR¢CNe Pipin6 TO FAA wag AeT DBRAWED AWO 1s BRESumED TO KAve Prope MLAaP HAS Fuabing FRom 203% Foe BR TO HAE , Ac siaeé AD Wolo bldg - Funding Truariguett Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good,=Excellent): 5 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Dakine Elen. Psson . ivenbdsabiprre! Ieee NL Contact name: Dae cae Contact number:9Q7 - M4Ilo- Lol A. Does your power plant have a heat recovery system? Gy) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4, ee! cgnne ected et is eg et 400’ from power plant (Poor potential) Rank # | Comments reo User mailing /| Clinic ! | Water Treatment Plant a / | Washeteria Y po? | School L Nian Sdhant Me ‘ Community Bldg L Susemumni va onl \| Other Bldg BI < oe Eleo, Dida. (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y QW) Biued oy Sq, ¢t , G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, pan i na (1200, 1800) Taal acua Piped Manifold) t-lo | Cap 4514 tQOO Poed Mani ld 71-9 | Cet 3510 1909 al 10 Ldnite, SupeRine UOS x1 bo L090 : BL Aloue OFS PRE HEAD & a bv eS torthin | Month Evaluator Comments on Potential for Heat Recovery i in the Community: Ma be seme petentiaA foc efFiciency iMprovenete. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): t AEA Heat Recovery Case Study Soe Questionnaire Q Community/Utility: Da 2a \ ©) Oink agrorry i vatuaton: 012 Contact name:_\ Day: ec! son Contact number: “ee SR9- <4 D7 A. Does your power plant have a heat recovery system? Y (N) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y) N (blank for no answer) Answer | Comments Yes TO bnew tan aet Hath to Gereenting Flea berveiky No J S YY ¥ =) D. Do you Ow of any issues tha at would-prevent a om ed heat.system from being constructed? Rureterkhy Cretnast ELEC. FRO B ONC deo st) E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School 3 Community Bldg Other Bldg i) Shaty Reaund PF (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual are Piped Manifold) Kio Ex i ‘\y AM iC ( 0 Ost 2320le L500 Ouk obec Vv Evaluator Comments on Potential for Heat Recovery in the Community: fower avyplied Pu intectie te Bethel se diesel ouly toe backup. Ne heat fecovers. potential — Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): © AEA Heat Recovery Case Study Community Questionnaire Community/Utility: NApasE1AK/ MEV Evaluator: SiS Contact name: Contact number: 727 737 7987 A. Does your power plant have a heat recovery system? Y OD) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Fumbwe E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic 4 Water Treatment Plant qd Washeteria School Z Community Bldg Lf Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) Gen # | Make Model Evaluator Comments on Potential for Heat Recovery in the Community: WASHETELIA 16 LESS Thaw 32a9° From PP ADOQIDOVAL EmnunitTy RULD NES LTH pe'ot pP Community Scoring: Potential (0=None, 1=Poor, 2=Low, SeMademtevasGaed, 5=Excellent): lee AEA Heat Recovery Case Study Community Questionnaire Community/Utility: U p ay Evaluator: . ty G Contact name: 6 rea /' y lickel Sans Contact number: 9e 2 oe 4s | A. Does your power plant have a heat recovery system? Y WM) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that ue prevent a recovered heat system from being constructed? HL HAS MOT DOME AUY SHINE E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic 2 Water Treatment Plant 1 Washeteria Y School | Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y oD) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) Gen # | Make Model Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good,(59Excellent): 5 AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_\ Dw. Contact name: yp co N\iUce Lsanh _ A. Does your power plant have a heat recovery system? Y CD) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Evaluator: Contact number:_7)'5% ( \ at 3 Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? ly) N (blank for no answer) Answer | Comments Yes The R¢ Sroutd De, No D. Do you know of any issues that would prevent a recovered heat system from being constructed? WOO E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg Ge SD Fige, Hau (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y OD) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen# | Make Model Gen RPM (1200, 1800) Cooling System (Skid Radiators, Individual Radiators, Piped Manifold) Cordividaal Kadiataes | WT Evaluator Comments on Potential for Heat Recovery in the Community: Aba Arma «oO a of cot * Should be. Nee lara Ook ¢ a\vated. ctial Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 4 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: LAO Coop Evaluator: Qy zx Contact name: Solar WDE S31 s Se Contact number:9¢’7 - 989-I 904 Susking Gunderson ; A. Does your poner piaat ave'a heat recovery system? Y () (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? wy) N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? OO E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg 3 | Staewag, Camden (Indicate the appropriate number in the rank columin — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Mowe! (1200, 1800) | Individual Radiators, Piped Manifold) SUSei ne V2AS tans’ G Evaluator Comments on Potential for Heat Recovery in the Community: Faicly mall electric [pad and atently only a storaqe Dull within a vasoneble (retouch, J ~ Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Z AEA Heat Recovery Case Study Community Questionnaire buger Vo. Community/Utility: Nhe wk ok - Un QUDEAG valuator:__(\ U2 So took vscek Contact name: , Contact number:-40) -) “A oD - 14 Wewkok A. Does your power plant have a heat recovery system? Y N_ (Ifno skip OC ai confirue) uilLae WO ANSWER = B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make oe (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: Zommuany Wauts te P76 Ve dve tb Cresievr—o Fotore ef eration oO a heat (ecover4 oysteur is very pusstioneble.. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): { a AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_ Niko \a\ Evaluator: feriact Gray Contact name: Contact number: A. Does your power plant have a heat recovery system? @ N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? &® N Answer | Comments Yes Very old THeSTictedt systent bot Seeus to week. No C. Is there interest in the community to have a working heat recov. system?(Y) N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg l she Z (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y &® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gere | Make Mou (1200, 1800) | Individual Radiators, Piped Manifold) 4 skid Mounted Evaluator Comments on Potential for Heat Recovery in the Community: Existing Power generation Modules are old and beyoud a — fe pate The long Tonge loan (5 to install vew G enscaters IM: a Near by building. The Newr plant Cour continve. to Provide. heat te the She. T Community Scoring: Potential (0@=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): s AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Ni beloki Evaluator: ria. Gr Contact name: Contact number: A. Does your power plant have a heat recovery system? Y @® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y ® (blank for no answer ~~ Answer Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Very onall elec load # No vidas Nearby E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not 4. not connected — bldg is within 400’ of power plant (has potential) connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y & G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen # | Make Model Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) z t | Sohn Deer! 4045 (Se0 Lipod Mouifotd % vse v $ Evaluator Comments on Potential for Heat Recovery in the Community: The electric load i$ very small 40 there 15 little heat dyatlable. and Mo bvitd ings in # the Vicinity - Community Scoring: Potential (Q=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): L AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Ut9 SA Contact name:_ (agus Chaen of Evaluator: (i200 Contact number:9) 254 - O44 go Deer Toaywit : A. Does your power plant hava a heat recovery system? (¥) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? CYy N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic Water Treatment Plant Washeteria School Ookla Ehivng 4 A LASE Enouals ko doanctt Community Bldg ~~ wal ~ Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ®) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen # | Make Model Gen RPM (1200, 1800) Cooling System (Skid Radiators, Individual Radiators, Piped Manifold) Cyndinyi de o Radinkn e< Evaluator Comments on Potential for Heat Recovery in the Community: Fyust woe KeatT | TCIV Ry / Sve Fos i) Oy» ZEATION A Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Nunam TL qua Contact name: Evaluator: Brian Gr an Contact number: A. Does your power plant have a heat recovery system? @DnN (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Ce N Answer | Comments Yes New Suystenr installed in Zoos No C. Is there interest in the community to have a working heat recov. system? @D N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant f Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y GND G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen | Make Motel (1200, 1800) | Individual Radiators, Piped Manifold) don Dee | GIZS 1 eo Tiped Manifold 4“ “ GOD “ Evaluator Comments on Potential for Heat Recovery in the Community: Replacement of one or more vuits witl. Marine jacketed RemeraKers Would increase heal availeble. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ] AEA Heat Recovery Case Study Community Questionnaire Community/Utility: 7 Evaluator: (\ 2 Contact name: TA Casa “ Contact number: 407] - 80 -§.95 7 of. Eneerne Ukiliku, ULERK < Leh “994 A. Does your fone ‘ant have a heat recovery system? Y @) (If no skip ib Cand 69 oe \ FS ‘ith 8 os: B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? &) N (blank for no answer) Answer | Comments Yes__[\ dsecl bo have, Moe Siete Wek Naooe nec) No D. Do you know of any issues that would prevent a recovered heat system from being constructed? OO E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg f' Shoe woe + OFF LE, (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Medel (1200, 1800) | Individual Radiators, Piped Manifold) Kaeeing Uneuret } Tam OVA s 7 Evaluator Comments on Potential for Heat Recovery in the Community: A vouer leat vpyrade. design will be Frepeced in 2006, Fhe, etanrfial foc heat recovery Shovld be evaluated iy_ develap ment of the desi Us Not Enovsla Jaformation at this tue + be able to *xere. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Yed Se. pe “ Contact name: Evaluator: Brian Gai au Contact number: A. Does your power plant have a heat recovery system? @ N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? @® N Answer | Comments Yes New Plot with. He installed Zoos No C. Is there interest in the community to have a working heat recov. system? (YN (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Nene_ E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, ee ties (1200, 1800) | Individual Radiators, Piped Manifold) | don Deer! 6068 loo Figed Manife Id Se + A045 + p > A045 Evaluator Comments on Potential for Heat Recovery in the Community: New) ay ote ay that works well Covld increase teat arai\al le by (eplacing seraller ¢ enerators with Marine jacketed out os Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Z AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Yelicawr Evaluator: Bc (or Of a Contact name: Contact number: A. Does your power plant have a heat recovery system? Y ® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y MreIank for no answer) Answer | Comments Yes No D. Do, you know of any issues that would prevent a recovered heat system from being constructed? Vast Majority of power i» liuydro E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @& G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, iil nd nT (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: Pika Tue vas] ia jen ot Power iS produced by tc Ze hudco - electric Geaecator. Diesel iS on| Deo ‘oO supplement 40 thefe is very little heat ava; lable. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): l AEA Heat Recovery Case Study Community Questionnaire Community/Utility: & Qe ile EL eA Ub, Evaluator: M2 Contact name: oF geld “Ks SoQ Iie Contact number: -853- A. Does your power plant have a heat recovery system? y) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? y) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Ps! Muti Rovonse + Cinit 3 Hd J Water Treatment Plant Washeteria School l Sovait ODER pion Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? @) N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Te Ascoi dis el Ladiatnes ay \ a orl £.d D Evaluator Comments on Potential for Heat Recovery in the Community: Puoten should be auelyred +, See if Vere § i> potentiod kL \W crease Aygoteur Capacity aed Eicrensey. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 2 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: { ilet Ton Evaluator: Brio Gran Contact name: Contact number: A. Does your power plant have a heat recovery system? &@® N_ ([fno skip to C and continue) B. Does the power plant heat recovery equipment work? N Answer | Comments Yes__|Old_imefFiciewt sustenrt but werk< No C. Is there interest in the community to have a working heat recov. system? > N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School ] Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, ener ||| ake Mines} (1200, 1800) | Individual Radiators, Piped Manifold) ah a Moy ated | VU Evaluator Comments on Potential for Heat Recovery in the Community: The existing system is old aud vot very effictact, A lew Power plart will We wwetlled when Fonde are Qvaiiarole. Marine jacket Generators Are prepesed| 40 there will be very geod heat (ecovers” potential. Community Scoring: Potential (O=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): = AEA Heat Recovery Case Study Community Questionnaire Ass. Evaluator: 2 Community/Utility: i ft LEM. QGo7- 180 90 Brae in Seeu. Contact name: Contact number: Go* - 97) 4 : gi um 80-97 4- Fire City A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to-€ and continue) ~ ; 19/20/05 no ANSWER B. Does the power plant heat recovery equipment work? Y N 130/05 no i Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, erate ena hry (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: NO CONTRACT WMVAdbE Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Cos as Hoe Evaluator:_QiQ Oks SED ok Contact number: GQ) - 6.54 - a¢P9 Contact name: Magioin 1 PRL BO A. Does your power plant Realy heat recovery system? yy) N_ ([fno skip to C and continue) B. Does the power plant heat recovery equipment work? ® N Answer | Comments Yes No C. Is there Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? interest in the community to have a working heat recov. system? Y N (blank for no answer) E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic ( Water Treatment Plant Washeteria I School [ Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y Q®) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, M cients | Make ote! (1200, 1800) | Individual Radiators, Piped Manifold) Lndiidisel Radiates \y Evaluator Comments on Potential for Heat Recovery in the Community: Ee ting Kear \ee coubey SysTen L> OperrmTrevat 5 Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): = AEA Heat Recovery Case Study Community Questionnaire Community/Utility: 2 Oink \ aus Evaluator: _Q..2 2 Contact name: ss Q\stc ok Contact number: -&§5S4- SERB Omo\nslh 7 : : A. Does your power plant havea heat recovery system? ‘y) N_ (If no skip to C and continue) —_ B. Does the power plant heat recovery equipment work? Yy) N Answer | Comments Yes No C. Is there Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? interest in the community to have a working heat recov. system? Y N (blank for no answer) E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant { Washeteria I School i) Community Bldg A | Shite Sakion OC es 2ina, Paone tbe | Other Bldg \ Se oer beer ment = 4 (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (N) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Pit (1200, 1800) | Individual Radiators, Piped Manifold) Trina deal Radiatoes b Evaluator Comments on Potential for Heat Recovery in the Community: Eyionee Wear \ Ft 0 Eng Qs TEM 18 Oderanoval , May Be CARROT Foe | ExDANS sond Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 3 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: fet Alswor 4 l Evaluator: Br taw Cran Contact name: Contact number: A. Does your power plant have a heat recovery system? &® N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? ) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? @ N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? None E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School / Community Bldg _ Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (ND G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) fiped Manifold 4 Evaluator Comments on Potential for Heat Recovery in the Community: The oyster i$ Severed Yyeors wld | wane some ime ictesct- Kel iaboili ty and efficacy Zayld) De Proved) with an, vparade. Tastallatier of Marine. jackefed geuccators Wovld jncfease ovtput. Gen # | Make Model Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): a. AEA Heat Recovery Case Study Community Questionnaire san Elet. Cosf- Taner ~ Community/Utility: Re | Wiusuanetin - ‘ Evaluator: (Ora Contact name: {Y\aek \ ara Contact number:Gq) - 712) - 2400 A. Does your power plant have a heat recovery system? Y) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? ) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N _ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic Water Treatment Plant Washeteria School { Sthaol + Buseelv ASL Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @®) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen # | Make Model Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) Trdinat decal 'AKD RS Mans Fatal s Ex pans tory banks Evaluator Comments on Potential for Heat Recovery in the Community: Brcbeuer tet 49 improved hi and Capacity Zool possibly be On pg Ss Cx Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent); 2_ AEA Heat Recovery Case Study Community Questionnaire ee E és". Evaluator: Cz Ss F Contact name: Tam FuaAns Contact number: - = ELAINE ANS - (D/B0/05 5 A. Does your hore ant ee a heat a! sy Y N= (ifno skip toC tha Sontag’ Community/Utility: \ sek ids B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N _ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, ee et nr (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: No CONT AOT WADE Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Bed Peui| Evaluator: Prieur Grok Contact name: Contact number: A. Does your power plant have a heat recovery system? Y ® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y (N_)(blank for no answer ~ Answer Comments Yes No D. Do you Sue know of any issues that would prevent a recovered heat system from being constructed? Ul Joad, Atr c5oeled geus, No eud users Nearby E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not 4. not connected — bldg is within 400’ of power plant (has potential) connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (> G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen # | Make Model Gen RPM Cooling System (Skid Radiators, (1200, 1800) | Individual Radiators, Piped Manifold) Voetz Alc Ceeled y y Evaluator Comments on Potential for Heat Recovery in the Community: The clechiz Load is vers Aviad ie latte set generators ave at Looled, Ther ofe no bvildings Nearloy . Long term plas a@ te get Power Fro QUA. intertre te Sleetmvte - Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): oO AEA Heat Recovery Case Study Community Questionnaire Community/Utility: c : Evaluator: ) ie Contact name: a Ob a’ a isteg ) Aron Ht \ Contact number: 4q) - GtoX -4Y4Ol of ~e(¢ A. Does your power plant have a heat recovery system? Cy) N_ ([fno skip to C and oat ; B. Does the power plant heat recovery equipment work? Y ®) Answer | Comments Yea No Kook Vance t bed \nuk usoekina bo Canne.gt+ laun d os ment C. Is there interest in the community to have a working heat recov. system? yy) N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? WO E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria 5 Caundugs, frat — School Community Bldg Other Bldg a Ferezver Umit (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Modes (1200, 1800) | Individual Radiators, Piped Manifold) i Adan diew Cibretmas dal. Anne Kook Suge = % Evaluator Comments on Potential for Heat Recovery in the Community: i aera be Potential Ge a 34 stent. it Sigal Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): > AEA Heat Recovery Case Study Community Questionnaire Cite. \ Community/Utility: ; Q eos, N 10i Ded Re Evaluator: q Lae 5 —_; (HOES Contact name: Contact number: -8S59- 49 ym Wo Go E 18/20/05 A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C ahd continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, cnn | Sas ica (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: NO COonTAct MADE Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: - iW Wonidipal OE yatuator: Cy 2 Contact name:__ SOON UD _ Contact number: Gon - 5SHo- of 33 A. Does your power plant have a heat recovery system? (y) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N _ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg { Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y WN) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, raat fu (1200, 1800) | Individual Radiators, Piped Manifold) Qaune Radial es \ a Wi Evaluator Comments on Potential for Heat Recovery in the Community: A large 34 5tour uns installed in 199 and is apparently _ Wocki well. tect May be otetial foc ent Sionw as i buildings ee uo Ww” ae Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): a AEA Heat Recovery Case Study Community Questionnaire Ayo a Evaluator: 7 Community/Utility: SAqq Contact name: Sui (A ‘ ait HEL Contact number: 4d) - -40¢ nb & td mw AN: A. Does your power plant have a heat recovery system? ) N_ ([fno skip i haa Seta pare ie B. Does the power plant heat recovery equipment work? Y) N Answer | Comments Yes Rrork onus onlu Peaks Ore Pekina + Cael Wao uf offer ¥ ANaghinent No an Prank. Side of Alda. an = C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg HULA ea Other Bldg i Fish t (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y W) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, re ine (1200, 1800) | Individual Radiators, Piped Manifold) Tadivi das vl Kad: akoes uv Evaluator Comments on Potential for Heat Recovery in the Community: There 1s large ele ic [oad amd considerable react avoul able. An eValvation Shovld be performed oun the poten Viol for Ee Pima oes Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 2 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: a eetmute. Evaluator: Por tau Grand Contact name: Contact number: A. Does your power plant have a heat recovery system? @ N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? @® N Answer | Comments Yes Braud new Plot with He justalled 20065 No C. Is there interest in the community to have a working heat recov. system? @® N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? No ead vser bidgs im ee this ttme_ E. What buildings are connected and do they receivé heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building — Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make ai (1200, 1800) folate: Piped Manifold) | u Dee | 60LR [Por Fiped Manifold Zz Gold \ 5 r 4o46 | +; 4 4toAD Evaluator Comments on Potential for Heat Recovery in the Community: The New) Power Plaut has a heat recover oyster . There ACE Not aur bvildings there ase las For a Future clinic that could utilize lhe f aOlT - nea at —this time bet Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Gq AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Stwewrs ve Hage. Evaluator: Wer tae Gr Bt Contact name: Contact number: A. Does your power plant have a heat recovery system? ( : N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? N Answer | Comments Yes New flaunt wit HI Zoo4 No C. Is there interest in the community to have a working heat recov. system? (YN (blank for no answer S Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Nere_ E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria | School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ®w G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen# | Make oe (1200, 1800) Fane Piped Manifold) \ cere | COL% goo | Fiped Monifeld 2 4045 3 t 4045 | | i A 30t9 Evaluator Comments on Potential for Heat Recovery in the Community: Proud new oyster Hat Werks well. Is only liatited bx Sral| electric load. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): oO Comm AEA Heat Recovery Case Study Community Questionnaire unity/Utility: Stony River Evaluator: Pricee Grane Contact name: Contact number: A. Doe: s your power plant have a heat recovery system? Y & (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is th ere interest in the community to have a working heat recov. system? Y (ND (blank for no answer ~ Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Very smell elec load » No end user bldas Nearly E. Wha' 1. 2; 8; 4. t buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) connected - heat recovery works connected - heat recovery does not work (reason / comments) not connected — bldg is within 400’ of power plant (has potential) not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y (SD G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make = (1200, 1800) Seas Piped Manifold) | [| Sekn Deere | 4046 1@00 | Fiped Manifold z \ Set? { 4, ce 3029 Evaluator Comments on Potential for Heat Recovery in the Community: The electric load fs very small and ther is very little heat available. There are so ud véer building s close uo ug te be able + effectively otilize the heat, Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | AEA Heat Recovery Case Study Community Questionnaire Community/Utility: TalLotnea Evaluator: Br (OA Gi = Contact name: Contact number: A. Does your power plant have a heat recovery system? @ N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? @ N Answer | Comments Yes Only ved to heat #2 del teh No C. Is there interest in the community to have a working heat recov. system? Y CS (blank for no answer ~ Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat ae from being constructed? Very small glee load, already vse haat for fre E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg i Fuel tan. (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, eae | Paes oa (1200, 1800) hie Piped Manifold) } WV Deere. Ao /@o00 fied Maunifeld Zz tots | a i 302? it 4 Boz9 Evaluator Comments on Potential for Heat Recovery in the Community: Wi Ha the $mMa Il é lectric_ load there cS very litle heat aQuailable, The vtility borns #2 diesel ~ Fuel al( Yeu S0 vS$eS heat fears Sy oteat to heat Storage darks Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 7) AEA Heat Recovery Case Study Community Questionnaire Pad TA a. Evaluator: Contact name:_ Ly Eh Lek Contact number: ArceR Nol CAR® ~ ooltody Else 65 Sone Until aie A. Does your power plant have: a heat recovery system? Y N ~(fno skip to C and continue) Community/Utility: B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Moder (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: UN coo tu Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility7 AL ib Lek El 24 Uk 4. Evaluator: Qu 2 Contact name: Cox Tok emote Contact number: * -a tf KEEP MNSSINa” “AN For AB Mig. AROund A. Does your power plant have a heat recovery system? Y N_ (Ifno skip-to C and continue) % am B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer. | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Morel (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: NO Cowract WAGE Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): - AEA Heat Recovery Case Study Community Questionnaire Community/Utility1€ | ida ay ROE \ Mus. Evaluator: Q \ 72. Contact name: i a aa number: Sign )- 84 2 - & a} hee ‘oad TOUS Cangtankl A. Does your power plant have a heat recovery system? Y N_ (Ifnoskip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No 7m C. Is there interest in the community to have a working heat recov. system? Y N _ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: NO ComTaAcrT MABE Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Touakoe 2p EHES Evaluator: Bf four Gray Contact name: Contact number: A. Does your power plant have a heat recovery system? Y &® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No New laut ZOOG S C. Is there interest in the community to have a working heat recov. system? Y CN Xblank for no answer Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? The location oF new Plat is (emote from Cad vsers E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gent | Make Moc (1200, 1800) eee Piped Manifold) NU oi ae een (900 | Piged Mauifeld z | C06, + t; = Vv 4045 Evaluator Comments on Potential for Heat Recovery in the Community: A new Goyer plat will go ev line in 2006, Its Jocation is remete from Asay pettutie| end vser buildings Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 1) AEA Heat Recovery Case Study Community Questionnaire /) Community/Utility: fed lin - w Px Evaluator:__\' |? @ Contact name:_ Lda \\Yyalnats Contact number: 22.4755 10 | A. Does your power plant have a heat recovery system? wy N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y W) Answer | Comments Yes No wom XO COKE cd LAND v C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic @ Water Treatment Plant Washeteria School 2 Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an ener, eter to record,the recovered heat provided? Y / y TRA + | Cee oA Module . re W) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Geni) Make cans (1200, 1800) | Individual Radiators, Piped Manifold) Rice a WYaex tala NS Evaluator Comments on Potential for Heat Recovery in the Community: The electric. lead 5 Sme!( 2o Poteutial heat avo lable 15 cr omMel|. Aa analysis Should be Per formed x the Ve Fe ential » Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): a AEA Heat Recovery Case Study Community Questionnaire 0 Community/Utility: Tok - QP 1 Evaluator:_\! NC e@ Contact name:_\_ Jon \\ Veron Contact number:_ _- A. Does your power plant have a heat recovery system? WY N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y) N Answer | Comments Yes Laenkés No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic @ Water Treatment Plant Washeteria School Community Bldg \ lO, OE Other Bldg I Teg ae (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y Gy) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen# | Make Mace (1200, 1800) | Individual Radiators, Piped Manifold) Voed Mani hte Evaluator Comments on Potential for Heat Recovery in the Community: ye ee larae electric. load aud very high potentiol heat gvatilable. A Study Was performed on _Conthectin to the Sclioo | bef Never followed th cough. A News 6 Walvotion Shovld be performed on Syste QEPOUA SiON: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): LiL AEA Heat Recovery Case Study Community Questionnaire New rR | vad bionm ~ Evaluator: Contact name: Contact number: 9g )- (995 - (oY 40 sq ACSUWIER A. Does your power plant have a heat recovery system? @ N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? GON Answer | Comments Yes - No C. Is there 2 / ('; > Vi Community/Utility: interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant > uture Greil ry = not coustructed yet Washeteria School Community Bldg Other Bldg l (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make aaa (1200, 1800) ee Piped Manifold) i" jaa eer, | eee [gee Piped Mou rf id Z if 6063 f | 2 6Goe\ 4 Go | W Evaluator Comments on Potential for Heat Recovery in the Community: A heat fecovery Syste was installed in the Hew Plow iA eos bet there was No building el Cutrough p ceaidel oA Water treatment plat is Flea Med for installation Near the Power Plot in ZeOT7e Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): = AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Contact name: A. Does your power plant have a heat recovery system? Y (N) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No | C. Is there interest in the community to have a working heat recov. system? Y) N (blank for no answer) Answer | Comments Yes In kus Oak No ; D. Do you know of any issues that would ac a recovered heat system from being constructed? Lotels Upnternecd Aloouk dhe END itaonment E. What buildings are connected and do they receive heat? (1, 2) What-buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments ] Clinic Y¢ Water Treatment Plant q Washeteria Y 800! School u Community Bldg ee Other Bldg at £00’ (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Meds! (1200, 1800) | Individual Radiators, Piped Manifold) Vee Mantata i 4 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): i AEA Heat Recovery Case Study Community Questionnaire . ene, ; , \ AL {\ Vie Community/Utility: i ele@ Us. Evaluator:_U\ 2 Contact name:_— SQ Shaeve Contact number: 9c?) - S95 - Y RI! A. Does your power plant have a heat recovery system? Y @) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y) N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Wo E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School 2 Community Bldg Other Bldg K 3 Gamat (Indicate the appropriate number in the rank coktmn — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ®) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Todividuesl Caliatoaes \ NI Evaluator Comments on Potential for Heat Recovery in the Community: The electric load is wey Smell se it ‘is dovbHh | that installs fiovy of a Syston woo (d be wotifiable . Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): L AEA Heat Recovery Case Study Community Questionnaire C1 dk. (O. Ven 0 es aor ME Oe aA Contact name: Contact number:_{07}) - 4-3177 Plant - 04d - 3494 ‘ A. Does your power plant have a heat recovery system? (2) N., (Ifno skip. to Cand eon t off ' ° NE B. Does the power plant heat recovery equipment work? YY) N Answer | Comments @...\di yo Woe ud TAAK Laem Yes [weeds ko oe. Lda PRded - § Usk : $ A No i C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Community/Utility: Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic 3 Water Treatment Plant Washeteria i School / Community Bldg } Ld - Plex Other Bldg Lr3 loPide se / Seveeal Sm ae =,3 (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y Mout of See by OR G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make a (1200, 1800) | Individual Radiators, Piped Manifold) Todividual Padialbes | fe Evaluator Comments on Potential for Heat Recovery in the Community: The existing susten should be analyzed fe determmne if exon sion aud impreveme at is feasible. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Zl AEA Heat Recovery Case Study Community Questionnaire Community/Utility:\ Jenne ic \)\\ aoe Ele. Evaluator: 2 ~ Contact name] in\ Thr .rae Contact number: 4Q) - ey 9 - 259 9 A. Does your power plant have a heat recovery system? Y) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? &) N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments | Clinic 3 LOectina bo luild thea Chynie Water Treatment Plant L i Washeteria School Community Bldg Other Bldg es Re x dental (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @ G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) Prod (Nan fold b Evaluator Comments on Potential for Heat Recovery in the Community: New sustent (Wes installed in 1297 and is (ported fo be Werkiu ‘ Marine docket Generators could INCfea se heast estput aud Eu fondion te New clinic May be Seasible. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ie AEA Heat Recovery Case Study Community Questionnaire Community/Utility: LOA} puciiete Evaluator:_(Q\ 2 Contact number: - 45.4 - Contact name: senic ( Loa Ok A. Does your power p plaat hav yf eat recovery system? WY) N_ (Ifno skip to C and conitinue) B. Does the power plant heat recovery equipment work? QO Y) N Answer | Comments Yes 1 No C. Is there Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? interest in the community to have a working heat recov. system? Y N (blank for no answer) E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments ] Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg E 4 Lorem St (Indicate the appropriate number in the r: tama an comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y &) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make — (1200, 1800) | Individual Radiators, Piped Manifold) Tadaidue Kadistce; | Ly Evaluator Comments on Potential for Heat Recovery in the Community: Tarstwe Hear (kcourey System 18 ODCRA TONAL | Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Ona <= ra 55 - ALS Evaluator: we Contact name: Clean Vitel son Contact number: 1.55- 4&3] A. Does your power plant have a heat recovery system? Y QW) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y CQ) (blank for no answer) Answer | Comments Yes No Wooblning Clase Enoualh D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Geniff | Maks Motel (1200, 1800) | Individual Radiators, Piped Manifold) Ws SKA Trounbe d ®nenis Sweee YEmogte PaAdiakor ~y Evaluator Comments on Potential for Heat Recovery in the Community: blectric load 19 = Small aud dicord ng to vtiliby ther oe No beildings ear by So very, low Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | AEA Heat Recovery Case Study Community Questionnaire Community/Utility: WH) 1é M1 LW Me U Evaluator:_ ep) | SK - 2 Contact name: Wor QPown Cnolas_ Contact number: /{ cir “ offhte A. Does your power Aaa fa Ott have a heat recovery system? = N_ (Ifno skip de Gee: tinue B. Does the power plant heat recovery equipment work? N Answer | Comments Yes {Only iat Provinep td PP [SHR Facieity No C. Is there interest in the community to have a working heat recov. system? (vy) N_ (blank for no answer) Answer | Comments Yes Soo\ RE No D. Do you know of any issues that would prevent a ences heat system from being constructed? \yad ano ety CO) Remodel Arkh had OPaLems a EXQINEERS ¥ & ON hold. E. What buil nat are opeahy ss d do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400° from power plant (poor potential) End User Building Rank # | Comments Clinic 3 WELO\ You Le Water Treatment Plant wo - Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, | ae aa (1200, 1800) | Individual Radiators, Piped Manifold) Priced Wecu bald \ V7 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good 5=Excellent): cay AEA Heat Recovery Case Study Community Questionnaire Community/Utility: VA. KEvtAT /_Y p Ds Evaluator: a Contact name: SF i Ue lope Contact number:_ 92 7-724- 324 2 A. Does your power plant have a heat recovery system? @) N_ (if no skip to C and continue) B. Does the power plant heat recovery equipment work? ) N Answer | Comments es 0 C. Is there interest in the community to have a working heat recov. system? (¥) N (blank for no answer) Answer | Comments Yes | WOULD Like 7 ADD Biba S No D. Do you know of any issues that would prevent a recovered heat system from being constructed? DisTawe C tO Rodi Moa Exh usée BLOG"? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Yu Water Treatment Plant uy Washeteria Y School i IFIG-1+_SCHoot » ELEM SCHL, SHOP Community Bldg Other Bldg 4 Sore AM) once Ribe'> (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @® G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, pr ite Moet (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: YPE to umspajy) Mew 25/46B ScAC OF SET we placte 9€ UM #l, ANN Connect TO HR SysTem, Community Scoring: Potential (0Q=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 3 SECTION 2 Selected Heat Recovery Case Studies « Angoon e Anvik ¢ Grayling ¢ Golovin ¢ Kokhanok ¢ Kongiganak ¢ Kwigillingok « Stevens Village Northwest CHP Application Center Combined Heat and Power for the states of Alaska, Idaho, Montana, Oregon and Washington in cooperation with the U.S. Department of Energy ‘recycling « ; nergy “ CHI It's time APPLICATION eee ‘CENTER. - «==> ALASKA MSC ENERGY AUTHORITY ANGOON, ALASKA, POWER PLANT AND RECOVERED HEAT FACILITIES Facility Description The Inside Passage Electric Cooperative (IPEC) operates the electric utility in Angoon, Alaska. The power plant is a 60’x30’ pre-engineered steel building with concrete perimeter foundation and slab on-grade floor that was constructed in 1984, see Figure 1. The existing generation heat recovery system was installed in 1990. Much of the existing generation and heat recovery equipment is now due for replacement. A generation equipment and heat recovery system renovation design has been completed and an upgrade project is scheduled for 2007. This report is based on the proposed new renovated system which will include one new generator and a complete new engine coolant system as well as all new generation heat recovery equipment and piping. The power plant will be equipped with three diesel generators for a total capacity of 1,585 kW. Power will be generated at 480V and provided to the community via three phase 7.2/12.47kVA step-up transformers and a three-phase overhead distribution system. The 2005 annual electric generation was approximately 2,021,000 kWh, see Figure 2. Heat from the diesel generator cooling system is used to heat the power plant control room and is pumped through below grade insulated arctic pipe from the power plant to five separate school facility buildings, refer to Figure 3 and attached site plan and schematic. A total of six heat exchangers, one located in the power plant and one in each of the remote buildings, isolate the generator cooling system from the arctic piping and remote building hydronic heating systems. Combined Heat and Power (CHP) Equip. Power Plant e Generators (#2 diesel fuel engines) o Caterpillar 3456ATAAC 475 kw o Caterpillar 3508DI 550 kW (existing) o Caterpillar 3508DITA 560 kW (existing) e Heat Exchanger (HX-1), plate & frame, 400 MBH, Ameridex X-35-69 e Circulating pump (P-HR1, P-HR2), 35 gpm @ 21’ TDH, 3/4 hp, 230V, 1 phase, Grundfos UPS40-80/2 Figure 1: Angoon Power Plant 925 Plum St SE, Bldg 4 ® P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 @ Fax (360) 236-2004 @ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy ANGOON ALASKA COMBINED HEAT DECEMBER 30, 2005 AND POWER REPORT ALASKA ENERGY and ENGINEERING End Users o Heat Exchanger (HX-4), brazed plate, e Elementary School 60 MBH, Ameridex o Heat Exchanger (HX-2), brazed plate, o 1 existing boiler - ao nl i e High School Gymnasium SU scl o Heat Exchanger (HX-5), brazed plate, e Teacher Housing 105 MBH, Ameridex o Heat Exchanger (HX-3), brazed plate, o 2 existing boilers (B-1 & B-2) bp ble * High School ol existing ‘potel: o Heat Exchanger (HX-6), brazed plate, e Elementary School Gymnasium 95 MBH, Ameridex o 4 existing boilers (B-1, B-2, B-3, B-4) Estimated Fuel Savings The renovated heat recovery system will provide heat to five school facility buildings. After the power plant upgrade project is complete the prime community generator will be the new Caterpillar 3456. This unit will have an air cooled charge air cooling system and will therefore reject less heat to the jacket water than the Caterpillar 3508 generators that are currently in use. This will decrease the amount of heat available to the generation heat recovery system slightly but will generate net overall fuel savings due to the increased generation efficiencies expected at normal community loads. The renovated heat recovery system is expected to save the school an estimated 16,800 gallons of heating fuel per year, see Figure 4. 250000 200000 150000 = = 100000 50000 Figure 2: Electric Generation Profile 16886 Gal Recovered Heat 8113 Gal Boiler Heat 4500 § 2500 % 2000 Figure 3: Recovered Heat System 1500 8 1000 Additional Considerations 6 500 The community should operate the older of the two existing 3508's (Gen #2) as the second unit to save hours on the newer - . 3508 (Gen #1). When Gen #2 is ready for Figure 4: Thermal Energy Provided replacement a second 3456 should be considered for installation to maximize generation efficiency. 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 @ Fax (360) 236-2004 ¢ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy EXISTING GRADE *103r0ud COMPACTION MIN. CAUTION TAPE SUVL3G % NWid 3LIS WALSAS LV3H G3Y3A003N NOOONVY sw AGNLS LV3H G3Yx3A003N V3IV ELEMENTARY SCHOOL GYMNASIUM SCHOOL 2” BURIED ARCTIC PIPE, 400’ ONE WAY TEACHER HOUSING co/oc/z) ava 3” BURIED ARCTIC PIPE, 1,100’ ONE WAY Dysory “eBovoyouy HIGH SCHOOL HIGH SCHOOL GYMNASIUM AUMOHLOY ADYANS: PISA SL onary quouidojensg 91 = BACKFILL WITH EXCAVATED SILT AND/OR GRAVEL, 95% BED PIPES IN CLEAN SAND BARROW + FAIRBANKS ANCHORAGE ag” LOCATION MAP eS *L03r0ud EL. SCHOOL GYM TEACHER HOUSING ELEMENTARY SCHOOL FROM ENGINES #2 & #3? HEATING ones te FROM ENGINE #1 HEAT EXCHANGER HEAT EXCHANGER HEAT EXCHANGER TO POWER HXx-4 HX-3 HX-2 PLANT UNIT HEATER SILVNSHIS W3LSAS 1V3H G3Y¥3A0939Y NOOONY PUMP P-HR3 AGNLS LV3H G3Y3A09RY V3V PUMP_P-HR1 | HEAT EXCHANGER PUMP_P-HR2 HX=t 2” ARCTIC PIPE 2 S mi s iS S a HIGH SCHOOL HIGH SCHOOL GYM HEAT EXCHANGER HEAT EXCHANGER HX-6 HX-5 WYN OM CLE youny al Rrnuucg 10 rT) Be vay, NO itoly quowdoyoneg 3” ARCTIC PIPE —— ALINOHINY ADEN: VaSV1V Northwest CHP Application Center Combined Heat and Power for the states of Alaska, Idaho, Montana, Oregon and Washington in cooperation with the U.S. Department of Energy NORTHWEST CHP APPLICATION - f= ALASKA @EED ENERGY AUTHORITY ANVIK, ALASKA, POWER PLANT AND RECOVERED HEAT FACILITIES Facility Description Alaska Village Electric Cooperative (AVEC) operates the electric utility in Anvik, Alaska. The existing power plant is a 15’x36’ insulated metal building on a wood post and pad foundation, see Figure 1. The power plant building was constructed in the mid 1970’s and was relocated to its present site in the late 1990’s. The power plant is equipped with three diesel generators with a total capacity of 495 kW. Power is generated at 208/120V three phase, and is provided to the community via 208/7.2kVA step-up transformers, and a three-phase overhead distribution system. The 2005 annual electric generation is approximately 461,500 kWh/year, see Figure 2. Heat from the diesel generator cooling system is used to heat power plant facilities and is pumped through below grade insulated arctic pipe from the power plant to the nearby school building boiler module, refer to Figure 3 and attached site plan and schematic. Heat exchangers isolate the generator cooling system and school hydronic systems from the below grade arctic piping. Combined Heat and Power (CHP) Equipment Power Plant e Generators (#1 diesel fuel engines) o Detroit Diesel Series 60 rated 207 kW o Cummins LTA-10 rated 168 kW o CAT 3304B rated 120 kW e Heat exchanger (HX-1), brazed plate, 200 MBH, Ameridex SL140TL-KK-80 e Circulating pump (P-4), 30 gom @ 11' TDH, 1/6 hp, 115V, 1 phase, Grundfos UP50-75F End Users e¢ School Boiler Module o Heat exchanger (HX-2), brazed plate, 200 MBH, Ameridex SL140TL-KK-80 Figure 1: Anvik Power Plant o Circulating pump (P-3), 30 gom @ 11' TDH, 1/6 hp, 115V, 1 phase, Grundfos UP50-75F 0 2 each boilers (B-1, B-2), oil fired 400 MBH, Weil McLain BL478WF, Beckett CF500W oil burner, 3.4 GPH 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 ¢ Fax (360) 236-2004 ¢ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy DECEMBER 30, 2005 ANVIK ALASKA COMBINED HEAT ALASKA ENERGY and ENGINEERING AND POWER REPORT Estimated Fuel Savings The heat recovery system was installed in 1999 to provide heat to the school and saved the school approximately 5,000 gallons of heating fuel per year, see Figure 4. Figure 2: Electric Generation Profile 5011 Gal Recovered Heat 9990 Gal Boiler Heat 2500 Figure 3: School Boiler Module Gallon #1 Heating Fuel Figure 4: 1999 Thermal Energy Provided Additional Considerations In circa 2004, the plant cooling system was modified to provide heat to two uninsulated 8’X20’ storage containers and one insulated 8’x20’ crew living quarters. Due to the high heat demand of the uninsulated storage containers there is no longer any recovered heat available to the school, see Figure 5. Should the storage containers be insulated equivalent to a minimum R13 envelope, it is estimated there would be enough recovered heat available to save the school approximately 3,200 gallons of diesel fuel per year, see Figure 6. 98 Gal Recovered Heat #14902 Gal Boiler Heat 3242 Gal Recovered Heat 11759 Gal Boiler Heat 2500 2500 $ s © 2000 © 2000 oD 2 s § § 1500 % 1500 3 8 eo <= x 1000 3_ 1000 < = 2 500 2 500 3c 3 5 6 0 4 on S x Ss Ss & § we se Ss Ss & xs se et * s we = VP Fe SF Ss re oO re Figure 5: 2005 Thermal Energy Provided Figure 6: Potential Thermal Energy Provided 925 Plum St SE, Bldg 4 ® P.O. Box 43165 © Olympia, WA 98504-3165 (360) 956-2004 e Fax (360) 236-2004 ¢ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy <03r0ud .E A— BACKFILL WITH EXCAVATED SILT AND/OR GRAVEL, 95% COMPACTION MIN. —— CAUTION TAPE POWER PLANT STORAGE CONTAINER } BED PIPES IN CLEAN SAND al lee leslie SUPPLY & RETURN PIPES (2\ TYPICAL BURIED PIPE DETAIL Sw ae CREW QUARTERS S1IVL30 % NVid 3LIS W3LSAS LV3H G3YN3A003Y YIANV AGNLS LV3H G3Y3A0ISY V3V 3” BURIED ARCTIC PIPE, 300’+ ONE WAY SAWN Td OMG'MIANY SCHOOL co/oc/zt =v =/ oe AUMOHINY ADUANA! VASV IV CONTAINERS & CREW QUARTERS HEAT EXCHANGER POWER PLANT STORAGE POWER PLANT ARCTIC PIPE HEAT EXCHANGER SCHOOL HYDRONIC PROJECT: AEA RECOVERED HEAT STUDY ENERGY AUTHORITY MANVIK RECOVERED HEAT SYSTEM SCHEMATIC Northwest CHP Application Center Combined Heat and Power for the states of Alaska, Idaho, Montana, Oregon and Washington in cooperation with the U.S. Department of Energy NORTHWEST Gian CHP ae APPLICATION CENTER => ALASKA @E_ ENERGY AUTHORITY GRAYLING, ALASKA, POWER PLANT AND RECOVERED HEAT FACILITIES Facility Description Alaska Village Electric Cooperative (AVEC) operates the electric utility in Grayling, Alaska. The existing power plant is a 15’x36’ insulated metal building on a wood post and pad foundation, see Figure 1. The power plant building was constructed circa mid 1970's and is equipped with three diesel generators with a total capacity of 546 kW. Power is generated at 240/120V single phase, and is provided to the community via 240/7.2kVA step-up transformers and a single phase overhead distribution system. The 2005 annual electric generation is approximately 589,600 kWh/year, see Figure 2. The heat recovery system was originally designed to capture heat from the diesel generator cooling system, and pump it through below grade insulated arctic pipe from the power plant to the nearby school building, refer to Figure 3 and attached site plan and schematic. Heat exchangers isolate the generator cooling system and school hydronic system from the below grade arctic piping. Currently, the heat recovery system to the school is not holding pressure and is not operating. Combined Heat and Power (CHP) Equipment Power Plant/Heat Recovery Module e Generators (#1 diesel fuel engines) o Cummins LTA-10 rated 203 kW o Cummins LTA-10 rated 168 kW o Allis Chalmers 6851 rated 175 kW e Heat exchanger (HX-1), plate and frame, 350 MBH, APV SR350-T End User(s) e School o Heat exchanger (HX-2), plate and frame, 225 MBH, APV SR15 o Circulating pump, estimated 24 gpm @ 14.5' TDH, 1/6 hp, 115V, 1 phase, Grundfos UP43-75F o Boilers (B-1,B-2), oil fired 1892.2 ' 5 5 MBH, Weil McLain BL98sSW, 18.8 ei. Grayling Power Plant/Heat Recovery GPH oil burner 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 @ Fax (360) 236-2004 © TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy GRAYLING ALASKA COMBINED HEAT DECEMBER 30, 2005 AND POWER REPORT ALASKA ENERGY and ENGINEERING Estimated Fuel Savings If the heat recovery system to the school was operational, it is estimated that it would save the school approximately 6,800 gallons of heating fuel per year, see Figure 4. Figure 2: Electric Generation Profile 6871 Gal Recovered Heat 8130 Gal Boiler Heat B 2500 a @ 2000 io § 1500 x x 1000 ad 5 500 - nee a0 Figure 3: School Building ES A A A FHP FHF VHF FH A Pek Coe Owe < & wg Figure 4: Thermal Energy Provided Additional Considerations Presently, the power plant does not utilize recovered heat, however, the Utility intends to modify the plant cooling system to provide heat to one existing and one new uninsulated 8’X20’ storage containers, and one insulated 8’x20’ crew living quarters. Due to the high heat demand of uninsulated or inadequately insulated storage containers, the estimated recovered heat available to the school will be reduced to approximately 1,100 gallons of heating fuel per year, see Figure 5. Should the storage containers be insulated equivalent to a minimum R13 envelope, the estimated recovered heat available to the school will be approximately 5,700 gallons of diesel fuel per year, see Figure 6. Due to the high cost of heating fuel in rural Alaska, careful consideration should be given to putting the heat recovery system into operation and to properly insulating the storage vans and generator cooling system piping manifold. 1160 Gal Recovered Heat 13840 Gal Boiler Heat 5708 Gal Recovered Heat 9292 Gal Boiler Heat 2500 2500 Gb B @ 2000 © 2000 2 2 = 1500 = 1500 3 3 x= = x 1000 = 1000 5 g 3 500 3S 500 °o o 0 0 SPF FS VP FC SS ¢ FS S SBP Fe F Be SSF ¥ SS S FFP FM HM oF SF SF SS FF OF MK & & FS EF ee i sé we Fe Figure 5: Expected Thermal Energy Provided Figure 6: Potential Thermal Energy Provided 925 Plum St SE, Bldg 4 @ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 @ Fax (360) 236-2004 @ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy =03an0ud EXISTING GRADE BARROW ; BACKFILL WITH EXCAVATED SILT AND/OR GRAVEL, 95% COMPACTION MIN. = CAUTION TAPE KOTZEBI BED PIPES IN CLEAN SAND a) + FAIRBANKS SUPPLY & RETURN PIPES 0 (2 TYPICAL BURIED PIPE DETAIL \SHY) ¥0 sexe & S1VLI0 % NVid JLIS W3LSAS LV3H G3Yu3A0034N ONMIAVED nw AGNLS LV3H GIY3AONRY V3IV ag” n S i a Ss ms S a POWER PLANT 2-1/2" BURIED ARCTIC PIPE, 425'+ ONE WAY +. CREW QUARTERS & STORAGE CONTAINER SCHOOL psidlicia * young div = queuidojeroq oqmouesa Pun Ayununued WATER TREATMENT PLANT) ysory “ebav0youy WeyVON 380M C18 BURIED ARCTIC PIPE, TYP AUMOHLNY ADUANS: VASV1V HEAT EXCHANGER POWER PLANT ARCTIC PIPE HEAT EXCHANGER SYSTEM | SCHOOL HYDRONIC PROJECT: DRAWN BY: TDK AEA RECOVERED HEAT STUDY ALASKA (mm ENERGY AUTHORITY GRAYLING RECOVERED HEAT SYSTEM SCHEMATIC Northwest CHP Application Center Combined Heat and Power for the states of Alaska, Idaho, Montana, Oregon and Washington in cooperation with the U.S. Department of Energy NORTHWEST Qe oP, CHP "8 tine CENTER | = ALASKA ED _ENERGY AUTHORITY GOLOVIN, ALASKA, POWER PLANT AND RECOVERED HEAT FACILITIES Facility Description The City operates the electric utility in Golovin, Alaska. The power plant is a 30’x48’ foam-core panel building on a steel post and pad foundation, see Figure 1. The power plant building was constructed new in 2004. The power plant is equipped with four diesel generators with a total capacity of 570 kW. Power is generated at 480V and is provided to the community via three phase 7.2/12.47kVA step-up transformers and a three-phase overhead distribution system. The 2005 annual electric generation is approximately 690,000 kWh, see Figure 2. Heat from the diesel generator cooling system is used to heat the power plant building and is pumped through combination above and below grade insulated arctic pipe from the power plant to the nearby washeteria, City hall, shop building and post office, refer to Figure 3 and attached site plan and schematic. Heat exchangers located in the power plant and washeteria isolate the generator cooling system from the arctic piping and washeteria hydronic heating systems. Combined Heat and Power (CHP) Equip. Power Plant e Generators (#1 diesel fuel engines) o John Deere 6081 190 kW o John Deere 6081M 150 kW (marine jacketed) o John Deere 6068 115 kW o John Deere 6068 115 kW e Heat Exchanger (HX-1), brazed plate, 350 MBH, Ameridex SL140TL-LL-80 e Circulating pump (P-HR1), 50 gom @ 6’ TDH, 1/3 hp, 115V, 1 phase, Grundfos UPS50-40 e Circulating pump (P-HR3), 60 gom @ 13’ TDH, 3/4 hp, 115V, 1 phase, Grundfos UPS50-80/40 End Users Figure 1: Golovin Power Plant e Washeteria o Heat Exchanger (HX-2), brazed plate, 350 MBH, Ameridex SL140TL-LL-80 0 Circulating pump (P-HR4), 40 gpm @ 5’ TDH, 1/3 hp, 115V, 1 phase, Grundfos UPS40-40 o 2each boilers (B-1, B-2) 925 Plum St SE, Bldg 4 @ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 ¢ Fax (360) 236-2004 © TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy GOLOVIN ALASKA COMBINED HEAT DECEMBER 30, 2005 AND POWER REPORT ALASKA ENERGY and ENGINEERING e = City Hall ¢ Shop & Post Office o 2 Circulating pumps o Shop Unit Heater (UH-3) o 1 Boiler o Post Office Unit Heater (UH-4) Estimated Fuel Savings The heat recovery system was installed in 2004 to provide heat to four City-owned buildings. The washeteria is not complete at this time and does not utilize recovered heat yet. When the washeteria is complete the heat recovery system will save the City an estimated 11,250 gallons of heating fuel per year, see Figure 4. 80000 Figure 2: Electric Generation Profile 11251 Gal Recovered Heat 5750 Gal Boiler Heat 2500 3 2 2000 2 3 1500 r 3; 1000 Figure 3: Energy Meter Display < § = 500 oO 0 SAF A A OCS FS SSS S vs SF W'S S s SEF SE SF rE Ne v e oe MEF g = Figure 4: Thermal Energy Provided Additional Considerations The community should operate one of the smaller (115kW) units as a lead unit to build up hours. When this unit is ready for replacement a marine manifold unit of similar capacity should be installed to increase the amount of jacket water heat available for recovery. Alaska Native Tribal Health Consortium (ANTHC) has been working on the washeteria heat system for 3 years and is still unclear on the final configuration. Improper interface of the washeteria boilers with the heat recovery system could limit the effective utilization of recovered heat. The final washeteria heating design should be coordinated by a consultant with heat recovery expertise to ensure the heat recovery system operates as intended and provides maximum benefit. 925 Plum St SE, Bldg 4 @ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 @ Fax (360) 236-2004 © TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy : é EXISTING GRADE BARROW | 8 oe fo 5| = A BACKFILL WITH EXCAVATED <| 5 SILT AND/OR GRAVEL, 95% 4=| 2 COMPACTION MIN. a mal 8 CAUTION TAPE ROTZES So] mi we ee 75| & | rie BED PIPES IN CLEAN SAND ea| o dE eet le = y + FAIRBANKS S| - =| F mz m eer Te eer Net) 1a 25] 2 SUPPLY & RETURN PIPES 0 =A by| 3 (2 \ TYPICAL BURIED PIPE DETAIL < a] S| Gites ve = Q NEW 5 i POWER 70 2 Fe |? PLANT oo & |slg 2 [Fs ad LOCATION MAP Nels —ril* | —|2 » tse 3 BURIED ARCTIC PIPE, 100’ ONE WAY POST oe \\ Gee : NEW iz g WASHETERIA ra Heed Ee Hi 2-1/2" BURIED 1 SHOP 2 ARCTIC PIPE, i 200" ONE WAY 2 x> 2 aX > ee a} 8 3 > g| & “2! 2 42! 8 ER a 62| 5 Bu] = SHOP_& POST OFFICE CITY HALL ___ WASHETERIA__ cs POWER PLANT eo! 2 HEATING Sz] uv POST RETURN TO POWER FROM = Sl a MAIN TO PLANT UNIT ENGINES o— “1 § a a BOILER HEATERS UNIT HEATER PUMP HR-2 UH-3 | | f HEAT a i HEAT EXCHANGER HX-1 1 iP = ee ARCTIC PIPE young Iv OD JO ee "PNG SIYBT] WORION 380m CLE dnaig vay, ome Sitoly 3 Wisrivsl quewdojeneq, AUHOHLNY ADUaN3! Northwest CHP Application Center Combined Heat and Power for the states of Alaska, Idaho, Montana, Oregon and Washington in cooperation with the U.S. Department of Energy “CHP que 2 3 ce f It's time APPLICATION CENTER «=> ALASKA QED ENERGY AUTHORITY KOKHANOK, ALASKA, POWER PLANT AND RECOVERED HEAT FACILITIES Facility Description The City operates the electric utility in Kokhanok, Alaska. The power plant is a 30’x48’ foam- core panel building on a concrete slab foundation, see Figure 1. The power plant building was constructed new in 2004. The power plant is equipped with four diesel generators with a total capacity of 495 kW. Power is generated at 480V and is provided to the community via three phase 7.2/12.47kVA step-up transformers and a three-phase overhead distribution system. The 2005 annual electric generation is approximately 420,000 kWh, see Figure 2. Heat from the diesel generator cooling system is used to heat the school complex and is pumped through below grade insulated arctic pipe from the power plant to the nearby school mechanical building, refer to Figure 3 and attached site plan and schematic. A single heat exchanger located in the power plant isolates the generator cooling system from the arctic piping and the school hydronic heating systems. Combined Heat and Power (CHP) Equip. Power Plant e¢ Generators (#1 diesel fuel engines) o John Deere 4045 60 kw o John Deere 6068 115 kW o John Deere 6081 160 kW o John Deere 6081 160 kW e Heat Exchanger (HX-1), brazed plate, 300 MBH, Ameridex SL140TL-LL-80 e Circulating pump (P-HR1), 35 gpm @ 7’ TDH, 1/6 hp, 115V, 1 phase, Grundfos UP50-75F End User e School o Circulating pump (P-HR3), 40 gom @ 8’ TDH, 1/3 hp, 115V, 1 phase, Grundfos UPS40-40 o Boiler (B-1), oil fired 408 MBH, Weil Figure 1: Kokhanok Power Plant McLain BL676SW o Boiler (B-2), oil fired 886 MBH, Weil McLain BL878SW 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 @ Fax (360) 236-2004 ¢ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy KOKHANOK ALASKA COMBINED HEAT DECEMBER 30, 2005 AND POWER REPORT ALASKA ENERGY and ENGINEERING Estimated Fuel Savings The heat recovery system was installed in 2004 to provide heat to the school and saved the school approximately 4,900 gallons of heating fuel per year, see Figure 4. Figure 2: Electric Generation Profile 4934 Gal Recovered Heat @ 15066 Gal Boiler Heat 3500 $ 3000 a 2500 § 2000 x= . x 1500 Figure 3: Heat Recovery System § 1000 §& 500 0 Ss As eS ss SS SS * S we es we sv es & se & we R é ye Po oe se” og Sf wig Figure 4: Thermal Energy Provided Additional Considerations When either of the smaller units is ready for replacement a marine manifold unit of similar capacity should be installed to increase the amount of jacket water heat available for recovery. 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 @ Fax (360) 236-2004 © TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy +Loaroud EXISTING GRADE . ATT A BACKFILL WITH EXCAVATED SILT AND/OR GRAVEL, 95 % COMPACTION MIN. CAUTION TAPE . Tt BED PIPES IN CLEAN SAND + FAIRBANKS SUPPLY & RETURN PIPES (_2\ TYPICAL BURIED PIPE DETAIL SH sa S1VL30 % NVid 3LIS W3LSAS LV3H G3u3AO003N MONVHAOM sm AGNLS LV3H G3Yx3A00RY V3V Sn 7 909 *A8 GaNSIS3. LOCATION SCHOOL MECHANICAL BUILDING | 433HS z 3 za = > Zz S zs 3 = n <= = | z 40 *y aa 2-1/2” BURIED ARCTIC PIPE, 260° ONE WAY oe | IWIOD 40 7 £0S86 OySDIy ‘eSoU0YoUy “PNG SOT] WEJON 399m CLE =/ ALMOHINY ADUaN VHSV IV TO RADIATORS — POWER PLANT FROM ENGINES &— TO POWER HX-1 PLANT UNIT HEATERS HEAT EXCHANGER MAIN TO BOILERS HEATING RETURN ARCTIC PIPE SCHOOL MECHANICAL BUILDING PROJECT: AEA RECOVERED HEAT STUDY Depa es Vt aa Development * ‘2 nee Co ‘Norther rues (BASSISA * TILE: KOKHANOK RECOVERED HEAT SYSTEM SCHEMATIC FILE NAME ‘SHEET KOKHANOK.oWdS H{ 2 Northwest CHP Application Center Combined Heat and Power for the states of Alaska, Idaho, Montana, Oregon and Washington in cooperation with the U.S. Department of Energy _ a energy CH it's time re : @EED ENERGY AUTHORITY KONGIGANAK, ALASKA, POWER PLANT AND RECOVERED HEAT FACILITIES Facility Description The Village Council operates the electric utility in Kongiganak, Alaska. The power plant is a 30’x48’ foam-core panel building on a steel piling foundation, see Figure 1. The power plant building was constructed new in 2004. The power plant is equipped with four diesel generators with a total capacity of 755 kW. Power is generated at 480V and is provided to the community via three phase 7.2/12.47kVA step-up transformers and a three-phase overhead distribution system. Based on reported kWh sold in 2005, the annual electric generation is estimated at 916,500 kWh, see Figure 2. Heat from the diesel generator cooling system is used to heat the power plant building and is pumped through above grade insulated arctic pipe from the power plant to the nearby water treatment plant, refer to Figure 3 and attached site plan and schematic. Heat exchangers located in the power plant and water treatment plant isolate the arctic piping from the generator cooling system and from the water treatment plant hydronic heating system. Combined Heat and Power (CHP) Equip. Power Plant e Generators (#1 diesel fuel engines) o John Deere 6125 235 kW o John Deere 6081 190 kW o John Deere 6081 190 kw o John Deere 6081 140 kW e Heat Exchanger (HX-1), brazed plate, 350 MBH, Ameridex SL140TL-LL-80 e Circulating pump (P-HR1), 50 gom @ 7’ TDH, 1/3 hp, 115V, 1 phase, Grundfos UPS40-40 e Circulating pump (P-HR3), 45 gum @ 19’ TDH, 1/2 hp, 115V, 1 phase, Grundfos UPS40-80/4 End User e Water Plant Figure 1: Kongiganak Power Plant o Heat Exchanger (HX-1), brazed plate, 350 MBH, Ameridex SL140TL-LL-80 o 3 each boilers (B-1, B-2, B-3) 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 ¢ Fax (360) 236-2004 ¢ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy DECEMBER 30, 2005 KONGIGANAK ALASKA COMBINED HEAT ALASKA ENERGY and ENGINEERING AND POWER REPORT Estimated Fuel Savings The heat recovery system was commissioned in 2005 to provide heat to the water treatment plant and is estimated to save the City approximately 12,900 gallons of heating fuel per year, see Figure 4. kWh Figure 2: Electric Generation Profile 12934 Gal Recovered Heat #2067 Gal Boiler Heat 2500 N S$ Ss S 1500 1000 Figure 3: Heat Recovery System 500 Gallon #1 Heating Fuel Figure 4: Thermal Energy Provided Additional Considerations When generators are ready for replacement, consideration should be given to installation of marine manifold units of similar capacity to increase the amount of jacket water heat available for recovery. 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 ¢ Fax (360) 236-2004 © TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy S1VL30 % NVid 3LIS W3LSAS LV3H G3Y3A0938 AVNVOIDNOM ssw 9MG"9NOM *L03r0ud AGNLS LV3H G3Y3A003YN WIV 3AVN TY: 90 *A8 GGNSISIC HS so/oc/zi sauva TWOS ON Bas £0968, DBDIy ‘eBovoyouy “PAG SYN WELBON OM CLE = ALINOHLNY ADUSNS| dnoig Vay, VUSV1V WATER TREATMENT PLANT LAUNDRY FACILITY 2-1/2” ABOVE GRADE ARCTIC PIPE, 250° ONE WAY WATER STORAGE TANK dAL “WIVMGYVOE ONILSIXA (2 TYPICAL ABOVE GRADE PIPE DETAIL \SH{/ to seu TWO-HOLE PIPE STRAP, TYP © \ \ KOTZEBY. 3/8"x3” LAG, TYP 4"x12” TREATED TIMBER SLEEPER BARROW FAIRBANKS LOCATION MAP *L03r0ud OILVNSHOS W3LSAS 1V3H G343A093YN AVNVSIONOM AGNLS 1LV3H G3Y3A00RY V3V HEAT EXCHANGER x 3 z 2 3 = 3 909 *A8 GGNSIS30 so/oc/e1 awa | WATER PLANT HEATING RETURN MAIN TO BOILERS POWER PLANT TO POWER FROM PLANT UNIT ENGINES ¢ HEATERS HEAT EXCHANGER HX-1 fd PUMP HR—1 *eBavoyouy “pay eer we =/ AUMOHLOV ADYU3INS aD VHSV 1V RADIATORS Northwest CHP Application Center Combined Heat and Power for the states of Alaska, Idaho, Montana, Oregon and Washington in cooperation with the U.S. Department of Energy Gen” SS nergy ™ CH It's time => ALASKA Ss i @EED ENERGY AUTHORITY KWIGILLINGOK, ALASKA, POWER PLANT AND RECOVERED HEAT FACILITIES Facility Description The Village Council operates the electric utility in Kwigillingok, Alaska. The power plant is a 30’x48’ foam-core panel building on a steel piling foundation, see Figure 1. The power plant building was constructed new in 2004. The power plant is equipped with four diesel generators with a total capacity of 585 kW. Power is generated at 480V and is provided to the community via three phase 7.2/12.47kVA step-up transformers and a three-phase overhead distribution system. The 2005 annual electric generation is approximately 712,000 kWh, see Figure 2. Heat from the diesel generator cooling system is currently used to heat the power plant building. Insulated arctic pipe was installed above grade from the power plant to the vicinity of the future water treatment plant. An existing heat exchanger located in the power plant isolates the generator cooling system from the installed arctic piping. When the water plant is completed recovered heat will be provided, refer to Figure 3 and attached site plan and schematic. A new washeteria may also be constructed in the vicinity of the new water treatment plant and could be connected to the recovered heat system as well. Combined Heat and Power (CHP) Equip. Power Plant e Generators (#1 diesel fuel engines) o John Deere 6081 190 kW o John Deere 6081M 150 kW (marine jacketed) o John Deere 6081M 150 kW (marine jacketed) o John Deere 6068 M 95 kW (marine jacketed) e Heat Exchanger (HX-1), brazed plate, 350 MBH, Ameridex SL140TL-LL-80 ¢ Circulating pump (P-HR1), 60 gum @ 8 TDH, 1/3 hp, 115V, 1 phase, Grundfos UPS50-40 ¢ Circulating pump (P-HR3), 65 gpm @ 17’ TDH, 3/4 hp, 115V, 1 phase, Grundfos UPS50-80/2 Figure 1: Kwigillingok Power Plant 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 © Fax (360) 236-2004 ® TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy KWIGILLINGOK ALASKA COMBINED HEAT DECEMBER 30, 2005 AND POWER REPORT ALASKA ENERGY and ENGINEERING End User e Water Treatment Plant (future) . o Heat Exchanger (HX-2), brazed plate, i ee 350 MBH, Ameridex SL140TL-LL-80 9 o Boilers 0 Estimated Fuel Savings The heat recovery system was installed in 2005 to provide heat to the planned community water treatment plant. The water plant is not complete at this time and does not utilize recovered heat yet. There is also a possibility that a new washeteria may be constructed near the water treatment plant. If both the water treatment plant and the washeteria are connected to the heat recovery system it could save an estimated 13,000 gallons of heating fuel per year, see Figure 4. 100000 ae 90000 80000 70000 60000 50000 kWh Figure 2: Electric Generation Profile @ 12934 Gal Recovered Heat @ 2067 Gal Boiler Heat 2500 o wz 2000 > S 1500 zr x 1000 Figure 3: Heat Recovery System © § = 500 oO 0 Ra ¥ Figure 4: Thermal Energy Provided Additional Considerations A combination of “marine jacketed” and “non-marine jacketed” generators are used to meet the electric demand and to maximize recovered heat potential, and provide excellent fuel economy. Completion of the water plant and washeteria and connection to the heat recovery system should be a high priority for the community. 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 © Fax (360) 236-2004 ¢ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy S1VL30 % NVid 3LIS WALSAS LV3H G3YSA003Y NOONITHOIMY su 9Ma*SIMy ALINOHINY ADU: Dxsory “ebou0youy ‘WOON YOK C1 young Daa NUIWOD jo ~p pray ener dnaig Vay, oquouesa pu Na = quowdojensg VWASV1V *L03r0ud AGNLS LV3H G3YN3A00R3N V3IV co/oc/z1 =va TWIS ON BWws WATER TREATMENT! PLANT (FUTURE, OLD WASHETERIA WATER STORAGE TANK EXISTING 2-1/2” ABOVE. GRADE ARCTIC PIPE, 250° ONE WAY POWER PLANT TWO-HOLE PIPE STRAP, TYP | \ Sr LAG, TYP 4"x12" TREATED TIMBER SLEEPER : f jt: ABOVE GRADE PIPE DETAIL NO SCALE BARROW tt KWIGILLINGOK ANCHORAGE n 3 < eg n ly 35 a bl Ee hy) Sz << at a & pi kt Ni &G Bf z Y 2Sy By} UAr0y S| RSH az = 2% ax eas = i f — a S49 > a& am at { ar Dae at — ge eS a as wn Lee — Pepa a ees ez = a w e a ~~ —- a is aoe pone 2 = ™ | | 2 & ! | a SCA ey io =elLAAAS I = ti tl ! EB = BZirvvy)! oe = ea rrr 1 ! ZS 1 Ot £bexnn-------- a4 I DRAWN BY: = TDK PROJECT: AEA RECOVERED HEAT STUDY Departgent of Comin ft Bebnomi Development esowen Br: BCG | ox: 12/30/05 | *» AIDEA/AEA t, Rural Group wee ‘i 813 Weat Nerthem, Lights Bhd BALARSS! ames KWIGILLINGOK RECOVERED HEAT SYSTEM SCHEMATIC Northwest CHP Application Center Combined Heat and Power for the states of Alaska, Idaho, Montana, Oregon and Washington in cooperation with the U.S. Department of Energy “CHP. RS CH It's time é CENTER ae = ALASKA iS ENERGY AUTHORITY STEVENS VILLAGE, ALASKA, POWER PLANT & RECOVERED HEAT FACILITIES Facility Description The Village Council operates the electric utility in Stevens Village, Alaska. The power plant is a 30’x48’ foam-core panel building on a steel piling foundation, see Figure 1. The power plant building was constructed new in 2003. The power plant is equipped with four diesel generators with a total capacity of 260 kW. Power is generated at 480V and is provided to the community via three phase 7.2/12.47kVA step-up transformers and a three-phase overhead distribution system. The 2005 annual electric generation is approximately 202,000 kWh, see Figure 2. Heat from the diesel generator cooling system is used to heat the power plant building and is pumped through above grade insulated arctic pipe from the power plant to the nearby washeteria, refer to Figure 3 and attached site plan and schematic. Heat exchangers located in the power plant and washeteria isolate the generator cooling system from the arctic piping and washeteria hydronic heating system. Combined Heat and Power (CHP) Equip. Power Plant e Generators (#1 diesel fuel engines) o John Deere 6068 95 kW o John Deere 4045M 64 kW (marine jacketed) o John Deere 4045M 64 kW (marine jacketed) o John Deere 3029 37 kW Heat Exchanger (HX-1), brazed plate, 200 MBH, Ameridex SL140TL-LL-52 e Circulating pump (P-HR1), 29 gpm @ 11’ TDH, 1/6 hp, 115V, 1 phase, Grundfos UP50-75F e Circulating pump (P-HR3), 29 gum @ 11’ TDH, 1/6 hp, 115V, 1 phase, Grundfos UP50-75F End User e Washeteria o Heat Exchanger (HX-2), brazed plate, 200 MBH, Ameridex SL140TL-LL-52 0 2each boilers (B-1, B-2) Figure 1: Stevens village Power Plant 925 Plum St SE, Bldg 4 ¢ P.O. Box 43165 © Olympia, WA 98504-3165 (360) 956-2004 ¢ Fax (360) 236-2004 ¢ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy STEVENS VILLAGE ALASKA COMBINED HEAT DECEMBER 30, 2005 AND POWER REPORT. ALASKA ENERGY and ENGINEERING Estimated Fuel Savings The heat recovery system was installed in 2003 to provide heat to the washeteria and has saved the Village approximately 2,000 gallons of heating fuel per year, see Figure 4. EAR ek Figure 2: Electric Generation Profile @ 1936 Gal Recovered Heat & 8065 Gal Boiler Heat Figure 3: Heat Recovery System Figure 4: Thermal Energy Provided Additional Considerations A combination of “marine jacketed” and “non-marine jacketed” generators are used to meet the electric demand and to maximize recovered heat potential, and provide excellent fuel economy. 925 Plum St SE, Bldg 4 @ P.O. Box 43165 ¢ Olympia, WA 98504-3165 (360) 956-2004 ¢ Fax (360) 236-2004 ¢ TDD: (360) 956-2218 Cooperating agencies: Washington State University Extension Energy Program, U.S. Department of Energy, Alaska Energy Authority, Idaho Department of Water Resources Energy Division, Montana Department of Environmental Quality Energy Program and Oregon Department of Energy *Lo3roud O-HOLE PIPE STRAP, TYP | Nt aes LAG, TYP 4"x12" TREATED TIMBER SLEEPER (2 \ TYPICAL ABOVE GRADE PIPE DETAIL oe S1V130 % NVId 3LIS anw nu] W3LSAS LV3H G3Y3A00RN JOVTIIA SN3ARLSw AGNLS LV3H G3Y3A00RN VAV 9SMG°SN3AILS WASHETERIA JG3HS so/oc/z) =uva LHS i : ag” LOCATION MAP COMMUNITY CENTER 2-1/2" ABOVE Q GRADE ARCTIC PIPE, ji 2 320’ ONE WAY ieee Hace: a POWER t PLANT Pen zt FROM ENGINES POWER PLANT TO POWER PLANT UNIT HEATERS HEAT EXCHANGER HX-1 MAIN TO BOILERS WASHETERIA HEATING RETURN HX~-2 ARCTIC PIPE HEAT EXCHANGER PROJECT: AEA RECOVERED HEAT STUDY one: 12/30/05 ‘SHEET OF 2 SH2 * Rural Group PN 813 West Norther Bhd. ALASKA mE: STEVENS VILLAGE RECOVERED HEAT ner SYSTEM SCHEMATIC SECTION 3 Detailed Heat Recovery Analysis ¢ Ambler ¢ Galena — Not Completed Ambler Heat Recovery Analysis December 31, 2005 Alaska Energy and Engineering 1.0 INTRODUCTION Alaska Energy and Engineering, Inc. was retained by Rural Energy Programs/AEA to review the feasibility of providing available recovered heat from the existing AVEC power plant to the proposed new city water plant and washeteria in Ambler, and provide a budgetary project cost estimate based on Force Account Construction, including Design Engineering and Construction Oversight. There is an existing heat recovery system in Ambler that used to provide recovered heat to the existing water plant and the school Teachers Quarters (old school). It is reported that the heat recovery system has been out of service for many years, due in part to failed heat exchangers and possibly failed arctic piping. For purposes of this report, it has been assumed that the existing heat recovery module at the power plant will be reused with minor modifications, including refurbishing or replacing the existing heat exchanger and installing new circulating pumps. Additional assumptions have been made in the development of this report including but not limited to the proposed arctic piping route, building heating loads, and flow rates and pressure drops of the existing power plant cooling system and heat exchanger. It is anticipated that refinements in arctic pipe size and routing, pump and heat exchanger sizing, and other design elements will be required if the project progresses to final design. However, unless significant changes are required, the project cost is not expected to exceed the estimate contained herein. Available as-built information was obtained from the Alaska Village Electric Cooperative (AVEC) regarding the existing generators cooling system and heat loads of the AVEC power plant. Available heat load and design information were obtained from Larsen Consulting Group for the proposed water plant and washeteria. No site visits were made to confirm accuracy of information obtained. 2.0 OVERVIEW ANTHC is currently developing a new water plant and washeteria in Ambler. The purpose of this study is to provide an estimate of the heat that can be recovered from the jacket water of the AVEC power plant diesel engines and used to offset heating oil consumption at nearby public buildings. Useable recovered heat is quantified in gallons of heating fuel saved using a heating value of 134,000 BTU per gallon of #1 arctic diesel fuel and an overall boiler efficiency of 73%. This analysis only considers the potential to provide recovered heat to the new water plant and washeteria. The straight-line distance from the AVEC plant to the new water plant (adjacent to the existing water plant) is approximately 570-feet. The new washeteria will be located in a new addition to the existing City Office and is approximately 550-feet from the AVEC plant. Based on a Business Plan prepared by CRW Engineering Group, the estimated water plant and washeteria average annual heating fuel consumption is approximately 9,600-gallons and 3,700-gallons, respectively. It is estimated the existing City Office uses about 2,000-gallons of heating fuel, annually (fuel records were not provided). The combined annual fuel use of the washeteria/City Office is estimated at 5,700- galons/year, of which 2,800-gallons is for space heating and 2,900 gallons is for non- seasonal loads (showers, washing machines, and dryer make-up air hydronic heat). A spreadsheet has been developed to estimate the recoverable heat based on monthly total electric power production, engine heat rates, building heating demand, heating degree days, and passive losses for plant heat and piping. The spreadsheet utilizes assumed time-of-day variations for electric power production and heat demand. Power Cost Equalization data for fiscal year 2005 was used in the 1 Ambler Heat Recovery Analysis December 31, 2005 Alaska Energy and Engineering spreadsheet. The estimated heat rejection rate for a Detroit Diesel DDEC3 Series 60 was used for loads from OkW to 200kW, and a Cummins KTA19 at 1800 rpm was used for loads over 200kW. Heating degree-days for Kobuk were utilized for this site. All arctic piping is assumed to be routed below grade. All hydronic piping between modules is assumed to be 3” pipe with 2” of fiberglass insulation and installed above grade. Information provided by AVEC was used to estimate the heating load for the power plant, which includes two off-line generation modules, one control module, one wood-frame insulated crew quarters, and one wood-frame uninsulated storage shed. The uninsulated storage shed consumes excessive heat. In order to improve available recovered heat, for this study it has been assumed the existing uninsulated shed will be replaced with an insulated connex brought in as part of the water plant / washeteria project. The insulated connex heat load is estimated to be about 1/5" the heat load of the existing shed. 3.0 OPTIONS FOR FACILTIES TO RECEIVE RECOVERED HEAT The spreadsheet uses monthly heating degree-days to distribute annual fuel consumption by month. The monthly heat load is then broken down by hour of the day using an estimated daily temperature variation. This results in a “peak” load for each month, which occurs in the middle of the night. This “peak” represents a daily maximum of the average load for that month, not the absolute peak load. Since a heat recovery system cannot necessarily meet the actual design peak heat load of a facility, the average is a good load to design to. To maximize utilization of available heat, the demand for heat should exceed the available heat. With arctic pipe to both facilities the “peak” heat available for delivery to the buildings is about 270 MBH. At this load a flow rate of approximately 50 GPM is required to limit the temperature drop in the piping loop to approximately 12F. Following is a summary of the heat demands, percentage of the total heat demand, and preliminary recommended flow rates for each facility: Building % of Total %ofHeat Flow Heat Facility Demand Demand Available Avail. Avail Water Plant 346 MBH 69% 129% 35 GPM 189 MBH Wash/City Off. 157 MBH 31% 59% 15 GPM 81 MBH Total 503 MBH 100% 188% 50 GPM 270 MBH Based on this it appears there are three combinations of load that would work effectively to utilize most of the heat available: 1) the water plant only, 2) the washeteria/city office, and 3) water plant and washeteria/city office. Following is a summary of estimated heat utilization in equivalent gallons of fuel and the percentage of heat available for each combination of buildings: Est’d Annual Est’d Heat % of Annual Facility Fuel Use Delivered Fuel Use Water Plant Only 9,600 Gal 7,671 Gal 80% Washeteria/City Office 5,700 Gal 5,689 Gal * 97% Both Buildings 15,300 Gal 8,864 Gal 58% * Does not account for peak DHW loads Ambler Heat Recovery Analysis December 31, 2005 Alaska Energy and Engineering 4.0 HEAT RECOVERY SYSTEM DESCRIPTION AND OPERATION: The heat recovery system will capture heat generated by the AVEC power plant that is currently rejected to the atmosphere by the radiators. The recovered heat will be transferred via below grade arctic piping to the end-users. The objective is to reduce the consumption of expensive heating fuel by utilizing available recovered heat. Although heat recovery is a viable method of reducing heating fuel costs, a recovered heat system is a passive heat source and it is imperative that the end- user facility heating systems are operational at all times. Hot engine coolant is piped to a plate and frame heat exchanger located in the heat recovery module (HRM). Heat is transferred from the engine coolant to the recovered heat loop without mixing the fluids. The recovered heat fluid is pumped through arctic pipe to the end-user facilities, and is tied into the end-user heating systems using plate heat exchangers. AVEC PLANT TIE-IN: The existing AVEC cooling system is mostly 3” Victaulic piping and uses a Grundfos booster pump to circulate the engine coolant to the Heat Recovery Module and radiators. It is reported the existing radiator fan motors are single speed motors with on/off control provided by aquastats in the engine coolant return piping. No modifications to the AVEC cooling system are included, except modifications required in the Heat Recovery Module to connect the new heat exchanger to the cooling system using a pumped secondary loop. HEAT RECOVERY MODULE: The existing HRM is located adjacent to the Butler Building. It is a 9’ x 15’ insulated panel structure set on an |-beam/treated heavy timber foundation. The HRM will be equipped with a plate heat exchanger, heat recovery loop circulating pumps, and arctic piping loop expansion tank. A new electric service entrance with meter is required to provide power to the ventilation system, circulating pumps, and module lighting. Stainless steel flex hoses are used at the piping connections to the recovered heat module to provide flexibility for differential movement between the HRM and AVEC power plant. It is also assumed that some minor improvements/repairs will be required to the HRM exterior. The piping inside the HRM and between the Butler Building and the HRM is Schedule 40 steel pipe. All piping will be insulated with a minimum of 1” insulation and have an aluminum jacket where exposed to the weather. All valves are lug style butterfly valves with seals that are compatible with 50/50 glycol/water mixtures at 200F. Flexibility is provided where required for thermal expansion and differential movement. Air vents, thermometers, pressure gauges, drain valves and pressure relief valves are also provided. Ambler Heat Recovery Analysis December 31, 2005 Alaska Energy and Engineering ARCTIC PIPING (Recovered Heat Loop): The proposed arctic piping is a pre-insulated buried piping system. The piping will be routed from the AVEC plant, southeast in the existing rights-of-way to the intersection of Dahl Avenue and Redstone Avenue, then southwest down Redstone Avenue to the new water plant. Enroute to the water plant, the arctic piping will branch off and continue southeast on Redstone Avenue Extension to the washeteria/City Office. The arctic piping system is a pre-insulated, bonded piping system. The pipes consist of Schedule 40 steel carrier pipe and HDPE outer jacket bonded to polyurethane foam insulation. The carrier piping will have all welded joints. The system comes complete with all fittings, tools and accessories required for assembly. The recovered heat fluid will be a 50/50 Propylene Glycol/Water solution to provide freeze protection to the piping. WATER PLANT and WASHETERIA/CITY OFFICE TIE-IN: Plate heat exchangers will be located in the water plant and washeteria/city office mechanical rooms, and tied into the boiler return piping to pre-heat the boiler water prior to entering the boiler. The maximum anticipated delivered recovered heat supply temperature is about 180F. If there is not sufficient recovered heat to meet the heating load, the boilers will fire and add heat. Piping will be type L copper pipe and supported as required. Isolation valves will be sweat style bronze ball valves or flanged butterfly valves. All piping will be insulated with a minimum of 1” insulation with an all-service jacket. Flexibility will be provided where required for thermal expansion and differential movement. Air vents, thermometers, pressure gauges, drain valves and pressure relief valves will also be provided. RIGHTS-OF-WAY ISSUES: \. There does not appear to be a conflict with right of ways for the arctic piping between the power plant and the end-user buildings, as the route is entirely within existing road rights-of-ways, and on City and AVEC property. A Heat Sales Agreement and Right-of-Entry Agreement will be required from AVEC “ for the City to renovate the recovered heat module and to route the arctic piping on AVEC property. 5.0 SYSTEM CAPACITY A heat recovery simulation spreadsheet is used to estimate the potential recoverable heat based on monthly total electric power production, engine heat rates, building heating demand, heating degree days, and passive losses for plant heat and piping. The spreadsheet utilizes assumed time-of-day variations for electric power production and heat demand. All estimates are averages based on monthly totals and do not reflect peak heat available or utilized. S> < Ambler Heat Recovery Analysis December 31, 2005 Alaska Energy and Engineering 5.1 Heat Demand The heat demand for the water plant and washeteria was estimated based on data provided in the Ambler Business Plan prepared by CRW Engineering Group. The combined annual heating fuel consumption for the new water plant and new washeteria/city office is 15,300 gallons (water plant is 9,600 gallons and washeteria/city office is 5,700 gallons). Approximately 2,800 gallons is estimated to be non-seasonal (hot water for showers, washing machines and dryer preheat coils) and 12,500 gallons is seasonal. From the spreadsheet, the highest average heat demand is 343 MBH (Water Plant = 236 MBH, washeteria/office = 107 MBH) in February. This is based on heating degree days (-10F average ambient temperature). For 1% design day (-45F ambient temperature) the combined maximum heat load is estimated to be 503 MBH (Water Plant = 346 MBH, washeteria/office = 157 MBH), not including peak domestic hot water load. 5.2 Heat Available The AVEC power plant has two primary units — a Detroit Diesel Series 60 DDEC3 rated 314 kW at 1800 rpm and a Cummins KTA19 rated 397 kW at 1800 rpm. The Series 60 ran 6585 hours and the KTA19 ran 2197 hour in 2004. It is assumed the Series 60 runs when loads are below about 200kW, and the KTA19 runs when loads are greater than 200kW. The Series 60 has an air-cooled aftercooler, and the jacket water heat rate is approximately 1,360 BTUH per kW electric load. The KTA19 has a jacketwater aftercooler, which results in a heat rate of about 2,255 BTUH per kW electric load. From the spreadsheet, the highest average delivered heat is 268 MBH - based on average power production. The peak electric load in FY2005 was 302 kW, occurring in January 2005. Winter daily peak loads are estimated to be approximately 280 kW. The heat output from the KTA19 at 280 kW is approximately 630 MBH. Fixed losses for arctic piping and plant piping are estimated at 68 MBH and variable losses for plant heat and exterior piping are estimated at 142 MBH on a peak design day. Net peak heat available is approximately 420 MBH. Since the peak heat demand exceeds the heat available, the heat recovery system should be designed based on heat available. 5.3. Flow Rates As indicated in Section 2.0, an arctic pipe flow rate of 50 GPM was selected so the heat recovery loop temperature differential would not exceed about 12F at average winter heat output. However, since the KTA19 operates much of the cold winter months, the heat recovery system should be designed to utilize the higher available heat from the KTA19. For 420 MBH at 50 GPM, the delta-T will be 19F — which is a reasonable temperature drop for a boiler heating system. It is expected that the washeteria heat demand will be greater during “daytime” hours — due to the high domestic hot water heat load, whereas the water plant heat load will be greatest late at night. In order to regulate the heat recovery loop flow rate to each end-user, it is proposed to utilize a thermostatically operated regulating (throttling) valve in the heat recovery loop at each end-user heat exchanger. These valves will throttle the recovered heat flow through the end-user heat exchanger based on the building return temperature. As the return temperature from the building to the heat exchanger increases, the recovered heat flow from the power plant will be reduced. In this way, when one end-user heat load is low, more of the available heat (flow) will go to the other end-user. Additionally, a variable speed drive will be used to control the heat recovery loop flow rate in order Ambler Heat Recovery Analysis December 31, 2005 Alaska Energy and Engineering to maximize the heat delivered when the KTA19 is online and to help prevent overcooling the engine cooling system when the Series 60 is online. The Series 60 coolant flow is about 80 GPM, and the KTA19 coolant flow is about 145 GPM at rated load. To avoid additional external head on the generator cooling system pumps, a secondary pumped loop will be used off of the jacket water cooling loop to the radiators. The secondary pumped flow needs to be less than 80 GPM to avoid dilution of hot coolant when the Series 60 is on-line so will set the secondary loop flow equal to arctic pipe flow rate of 50 GPM. 5.0 EQUIPMENT SELECTIONS 5.1. Heat Exchangers Based on initial selected flow rates, brazed plate heat exchangers will be adequate for all locations. The total end-user heat exchanger capacity is greater than the power plant heat exchanger capacity, to benefit from the increased flow resulting from use of in psc lnaae operated regulating valves. Initial heat exchanger selections are as follows. HX-1: (Power Plant) Ameridex SL140TL-LL-80 or equal. 400 MBH capacity. Primary: 50 GPM 190F EWT (50% ethylene glycol), 1.0 PSI max WPD Secondary: 50 GPM 180F LWT (50% propylene glycol) 1.0 PSI max WPD HX-2: (Water Plant) Ameridex SL140TL-LL-80 or equal. 350 MBH capacity. Primary: 50 GPM 180F EWT (50% propylene glycol), 1.0 PSI max WPD Secondary: 50 GPM 175F LWT (50% propylene glycol) 1.0 PSI max WPD HX-3: (Washeteria/City Office) Ameridex SL140TL-LL-80 or equal. 200 MBH cap. Primary: 22 GPM 180F EWT (50% propylene glycol), 1.0 PSI max WPD Secondary: 20 GPM 175F LWT (50% propylene glycol) 1.0 PSI max WPD 5.2 Arctic Pipe Sizing The length of heat recovery loop piping between the power plant and water plant is approximately 1500’. The arctic pipe is sized so the pressure drop is less than 1’ head per 100’ to limit pumping energy. Using 3” piping, the unit pressure drop is approximately 0.67’ per 100’ at 50 GPM. 5.3. Circulating Pumps P-HR1: HX-1 Primary circuit off engine coolant loop Flow = 50 GPM, Head = 2’ (HX) + 4’ (piping) = 6’ Select: Grundfos UPS 40-40, 50 GPM at 6’ TDH, 1/3 HP, Speed 3 P-HR2: Heat recovery loop to water plant Flow = 50 GPM, Head = 2’ (HX-1) +2’ (HX-2) + 20’ (piping) = 24’ Select: Grundfos TP40-80/2, 50 GPM at 24’ TDH, 3/4 HP, variable speed motor 5.4 Expansion Tank See spreadsheet for expansion calculations. Total heat recovery loop volume is estimated at 950 gallons. Pressure relief at the power plant heat exchanger will be 50 PSIG, so will size tank to limit operating pressure to 90% of maximum (45 PSIG). High point of system approximately 16’ above base of expansion tank so 7 PSIG minimum is pressure required at the expansion tank to keep heat loop system 6 Ambler Heat Recovery Analysis December 31, 2005 Alaska Energy and Engineering pressure positive. Will set tank pre-charge to 10 PSIG to provide 3 PSIG positive pressure at high point. 12.1 PSIG fill pressure required at 40F to maintain 10 PSIG at OF. Will fill system cold to 12 PSIG to provide minimum 2 PSIG pressure above expansion tank pre-charge and 8 gallons of glycol in the tank at 40F, so the tank will not go dry at OF. ET-1: Minimum requirements 97.5 gallon tank and 67.0 gallon acceptance Select: Amtrol L300, 105 gallon tank and 94.5 gallon acceptance 6.0 CONCLUSIONS AND RECOMMENDATIONS The project has a relatively high construction cost due to the distance between the power plant and end-user building(s). However, based on a cost of fuel of $4.15/gallon (from the Business Plan), the simple payback for all three options are about 10 years, or less. Estimated Project Cost And Savings: Est’d Fuel Value at Est’d Const Simple Facility Served Savings 4.15/gal_ Cost Payback Water Plant Only 7,671 Gal $31,835 $244,318 7.8 yrs Washeteria/City Office 5,689 Gal * $23,610 $243,743 10.3 yrs Both Buildings 8,864 Gal $36,786 $305,248 8.3 yrs im oy aes wie RS df aby 8 [> oh j A fi Al 808000 FN yi L-/ : yi ANA a penne I REDSTONE AVE. EXTENSION = PH =A =F =H] “10 FUEL PIPELINE ESMT HEAT RECOVERY| PROPOSED NEW EXISTING HEAT RECOVERY LOOP EXISTING WATER LOOP 2 EXISTING WATER = TRIBAL FUEL O SITE iS nnn | PROJECT: ORAWN By: SUS SCA: 1"=80" ot comstathy tN Snomic Devel lopment AEA RECOVERED HEAT STUDY = owe 12/30/05 te, Departpent co EA TAER r Rural Energy Group | JSS ALASKA me AMBLER RECOVERED HEAT SYSTEM pase mila. AE 113 Neat Nerry Unie te Gs kc SSE A SITE PLAN & DETAILS amater.ows |SH1 2 * Aechoroe, Nese BHB0S uu _ WATER PLANT / WASHETERIA & OFFICE, TYP POWER PLANT POWER PLANT STORAGE CONTAINERS & CREW QUARTERS HEAT EXCHANGER END-USER HYDRONIC SYSTEM O P-HR2 P-HR1 HEAT EXCHANGER ENGINE BOILER ENGINE BOILER AGNLS LW3H G3Y9AO0RY VIVO OILVNSHOS W3LSAS LV3H G3Yx3A00RN urreny | OMG'UATENVY 3WWN TU SPS ‘8 aBN9IS30 SPS 348 NAVUO ARCTIC. PIPE . —— BARROW XN ( jas SCHEMATIC NO SCALE * 3 XN 3 re EXISTING GRADE Oo = f= BACKFILL WITH EXCAVATED SILT AND/OR wY GRAVEL, 95% COMPACTION MIN. —— CAUTION TAPE a ene 4O so/oe/z1 saivo TWOS ON Twos THIS PROJECT + FAIRBANKS “pny SHON eeQON Yeon 1B dnowy vay, “Dioly BED PIPES IN CLEAN SAND . o SUPPLY & RETURN PIPES ag - al BURIED PIPE DETAIL NO SCALE > =/ quowidojersg 2jwWor LOCATION MAP AUNOHANY AduaN3 VASV1V Technical data ) HP | VersaFlo UP, UPS (* UPS 40-40 H[m] H [ft] 12 3 10 ia 8 ss | 24 1 7 2 0 0 UTA TEAN RAAT AL a 010 20 30 40 50 60 Q [US GPM] 5 ni TTT AITLAIN IEAINIAAT LAUTAN EE allt eelmaneceretr é ‘| @ Him] Hift | {SE 3 10 TNS 24 a aie S oJ of AAS 10 20 30 40 50 60 Q|US-GPM] Le Me 2) 4|| ber ei 46 |e ae 16 Q{mmy~a| 3 phase F | in, ta rg 18 Mo GRUNDFOS’ 7\ 12 ° ' ® Technical data b HIe2 VersaFlo® TP — = aa! TP 40-XX H[m) +H [ft] J 20- ] TP 40-240 TP 40 | ——-++ 4 l—— 60 Hz 1s 60 a eel 164 J [~~ _| 50 4 | —— a ] | 124 40 -—~ nO wl TP 40-80 cad SOGRMe, cs aF J re | TP 40-40] 4 10 24 ] | ——_ CO o- 0 et ee ee ee a 0 10 20 30 40 i 60 70 80 90 Q|US GPM} Ciitinnee Linn anu puns nozomi cf usc eee ee ne een Lunn 0 2 4 6 8 10 12 14 16 18 20 22 Q[m%h] NPSH. H[m] 4 [ft] -240 3] 2 6 20 -80 -160 4 10 NPSHR -40 od a 0 0 4 SS SS SS ppp 0 10 20 30 40 50 60 70 80 90 Q|US GPM} p2 [kW] -240 08 04 0.0 0 10 20 30 40 50 60 70 80 90 Q|US GPM] Eta (4) J | os) -40 gg -160 -240 | 40 | 20 & ° a 0 10 20 30 40 50 60 70 80 ‘90 Q{US GPM] a 8 é EB & iA GRUNDFOS ' 7\ Dimensional Data - Table M a a amaelia T i " Vt Tank Acceptance Diameter Overall | Connection} Weight Volume Volume Volume Height Size (Ibs) L (liters) (Gallons) (Gallons) 12 T 19 % 46 29 78 25 12 25 Ye 59 41 109 25 12 49 ve 114 82 21.7 5.0 16 42% Va 139 127 33.6 11.41 16 43 Ye 145 127 336 11.4 16 55 Va 196 168 444 22.2 16 56 Va 201 168 444 22.2 16 68 Ve 231 2 55.7" 22.2 16 69 V2 237 2u 55.7 22.2 24 40% 1 266 257 680 340 24 44% 1 285 257 68.0 34.0 24 45% 1 233 291 770 34.0 24 49% 1 299 291 770 340 24 52% it 286 341 90.0 340 24 5612 1 305 341 900 34.0 24 63 1 326 416 110.0 340 24 67 1 335 416 110.0 340 24 74 Vs 1 397 498 131.7 444 ( 24 76% 1 40] 498 131.7 444 24 38% ve 204 200 53 47.7 24 52% 1% 250 300 79 A> 24 66% 1% 295 400 105 945 24 80% He 340 500 132 1188 30 65 1% 555 600 158 142.2 30 83 1Y 680 800 2 1899 36 73% 1% 760 1000 246 221.4 36 85% 1% 864 1200 317 2853 36 98% 1% 968 1400 370 3330 48 71% 1% 1580 1600 422 3798 48 85% ve 1810 2000 528 475.2 : Series AX Series | g L P os caell A 3.A. Armstrong Limited © Armstrong Pumps Limited Armstrong Pumps Inc. Armstrong Darling Inc. 23 Bertrand Avenue Peartree Road, Stanway 93 East Avenue 2200 Place Transcanadienne scarborough, Ontario Colchester, Essex North Tonawanda, New York Dorval, Quebec panada, M1L 2P3 United Kingdom, C03 5JX U.S.A. 14120-6594 Canada, HOP 2x5 lel: ve) 755-2291 Tel: 0206-579491 Tel: (716) 693-8813 Tel: a 421-2424 ‘ax: (416) 759-9101 Fax: 0206-760532 Fax: (716) 693-8970 Fax: (514) 421-2436 ORM NO:: 6713-6 1-800-FLOW-845 __ PAGE 4 OF 4 Ambler Exp tank Sizing.xls 2/26/2006 Glycol Type [1= Dowtherm SR-1 50/50; 2 = Dowfrost 50/50) System Volume: 950}gallons From Design Calcs Glycol Expansion: 0.0705 Total Antifreeze Expansion (OF to 200F) from Table BELOW B = Fill Pressure at Exp Tank Accept Factor (A.F.): (D+14.7)/(B+14.7)-(D+14.7)/(C+14.7) C = Max Operating Pressure at Exp Tank IF Min Press = Precharge+/-; AF = 1-(D+14.7)/(C+14.7) D = Exp Tank Precharge Pressure THEREFORE: to minimize tank volume, Precharge must be low and Max Press High Accept Vol=Total Expansion of fluid Tank Volume = Acceptance Vol/Acceptance Factor Option A Option B Fill Press_|Max Press|Precharge 9.9] Select Exp Tank based on Above Table gallons iu [Expansion Vol (40F-200F| 58.9} gallons P1V1=P2V2: P2=[(Precharge+14.7)*(Exp Tank Vol)/(Exp Tank Vol - Initial Fill Vol)]-14.7 P2 = Init. Fill Pressure to provide 8.1 gallon (initial fill vol) in Exp Tank at 40F fill temp Initial Fill Volume in Exp Tank is required to keep system pressure positive at OF iii TNT We ee OF-40F [40F-200F| OF-200F [-20Ftoa0F 50/50 Dowtherm SR-1/H20 0.0064 0.05 0.0564 0.0085 50/50 Dowfrost Prop/H20 0.0085 0.062 0.0705: 0.0119 Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler Ambler NA COMANDAOAAWNH = NA OCOANDAKRWN = = SCOMANDAAWNH = os oe Roa 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2004 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 2005 6364 6724 7624 7855 7652 8274 8094 7316 8146 7122 7073 6645 88889 6421 7121 7668 8778 10257 10727 10924 10531 10454 8084 7831 6600 105396 6708 7594 7714 8178 8826 9266 9411 8144 8242 8553 7232 5932 95800 80817. 92993 101591 107032 106488 113215 417772. 105768 118220 99903 96843 85585, 1226227. 85806. 96549. 103789 123889 134029 140764 143610 137586 137230 117769 110972 89624 1421617 90441 | 105631 109898 117815 128868 | 136020 136710 iy 120469 118162 112167 96896 76363 : 1349440 14.08601 92993 101591 107032 106488 113215 117772 105768 118220 99903 96843 85585 1226227 85806 96549 103789 123889 134029 140764 143610 137586 137230 117769 110972 89624 1421617 90441 105631 109898 117815 128868 136020 136710 120469 118162 112167 96896 76363 1349440 ob ad 80817 102479 112152 112736 93368 97295 95314 92832 73545 1130502 81392 92433 108004 95716 126749 143454 124778 131001 121861 117124 114399 82837 1339748 91783 90071 101666 115235 123097 131317 132281 114280 114005 107112 86920 74366 1282133 216 224 216 224 250 259 233 276 216 207 172 190 216 250 276 285 319 302 302 285 241 241 190 207 224 259 259 285 276 302 285 267 250 233 163 2498 2463 3153 2732 3261 3961 1712 2825 2841 2800 3394 3543 3584 3350 3422 2613 1991 2098 1896 3279 2566 2744 4373 1720 2710 2341 3201 1151 2307 2302 2139 2190 1897 2301 2541 24247 2.4247 2.4247 2.4247 2.4247 2.4247 2.4247 2.4247 2.4247 2.4247 2.4247 2.4247 1.8998 2.118 2.1118 2.118 2.1118 2.118 1.4602 2.1118 2.1118 1.8998 1.89867 2.427 2.427 2.427 2.427 2.427 2.427 2.427 2.427 2.427 2.427 2.427 2.427 3/4/2015 3/4/2002 3/4/2002 3/4/2002 3/4/2002 3/4/2002 3/4/2002 3/4/2002 3/4/2002 3/4/2002 3/4/2003 3/4/2002 3/4/2002 8/25/2003 9/8/2003 9/8/2003 9/8/2003 9/8/2003 9/8/2003 8/26/2003 9/8/2003 9/8/2003 8/25/2003 9/20/2003 6/10/2004 8/20/2004 8/20/2004 8/20/2004 8/20/2004 8/20/2004 8/20/2004 8/20/2004 8/20/2004 8/20/2004 8/20/2004 8/20/2004 295 295 295 295 295 295 295 295 295 295 295 295 295 295 295 295 295 295 295 295 295 295 295 291 291 291 291 291 291 291 291 291 291 291 291 114 121 120 119 117 118 117 113 116 117 117 117 117 121 122 118 117 122 121 124 122 122 120 120 120 118 119 121 118 118 125 123 118 121 119 ALASKA ENERGY AND AMBLER HEAT RECOVERY ANALYSIS DECEMBER 31, 2005 ENGINEERING COST ESTIMATE SUMMARY-WATER PLANT ONLY HEAT RECOVERY UPGRADES $105,250 MISCELLANEOUS $11,500 OVERHEAD $18,663 FREIGHT $37,038 CONSTRUCTION SUB-TOTAL $172,451 DESIGN AND CONSTRUCTION ADMIN. $20,000 CONSTRUCTION MANAGEMENT $20,000 PROJECT SUB-TOTAL CONTINGENCY $31,86 15 % TOTAL PROJECT COST $244,341 B-1 ALASKA ENERGY AND AMBLER HEAT RECOVERY ANALYSIS DECEMBER 31, 2005 ENGINEERING COST ESTIMATE - WATER PLANT ONLY ITEM QUAN | UNIT UNIT MATL | UNIT| LAB | LAB | LABOR | CONTR | FREIGHT} TOTAL UNIT | TOTAL COST COST | HRS} HRS | RATE} COST COST COST COST WT WT(#) HEAT RECOVERY UPGRADES Buried 3" Arctic Pipe 1,500 10 — Heat Recov Piping & Devices 1 Expansion Tank 1 Heat Recov Pumps & VFD Panel | 1 Conduit, Conductors, Devices 1 Power Plant Heat Exchanger 1 1 0 2 ft. $25 | $37,500] 0.20| 300] $50 | $15,000 | $52,500 lump | $4,000] $4,000] 100] 100/ $50] $5,000 $9,000 $2,500] $2,500] 10/ 10] $50] $500 $3,000 $10,000 | $10,000 $3,200 $13,200 $2,500 | $2,500 $3,200 $5,700 $7,000 Water Plant Heat Exchanger Washeteria Heat Exchanger Propylene Glycol 50/50 mix 1 BTU Meter 1] ea. MISCELLANEOUS HRM building upgrades 4] lum Signs & Valve Tags aE 4 lump —— Misc Hardware 4|_ lump $2,000 | $2,000 0} $50 Misc Tools & Safety Gear 1] lump | $1,000 | $1,000 oO} 0} $50 $0 $1,000 Welding Rod, Gases, Etc. 1] lump | $2,000 | $2,000 0 of $50 $0 $2,000 OVERHEAD Local Heavy Equip Rental 1] lump | $4,000 $4,000 | 0 O| $50 L $0 $0 $4,000 Welder/Misc Tool Rent 1| lump $2,000 $2,000 Project Diesel Fuel/Gasoline 1} lump $1,000 $1,000 Superintendent Overhd Off-Site 30] hr 1 30} $60 $1,800 Superintendent Overhd On-Site 40} hr 4 40} $60} $2,400 Crew Travel Time L 20] hr 1 20} $60 $1,200 $1,200 Crew Airfares 2|_ trips Crew Per Diem Housing Rent Barge Freight Seattle-Ambler 29384 ; $0.75 $22,038 Mob / Demob Charter 2| ea. $5,000 | $10,000 Misc Small Freight & Gold Streakg 1{| lump | $5,000 $5,000 Engineering (Design & CCA) 1] lump | $20,000 Construction Management 41] lump $20,000 B-2 AMBLER HEAT RECOVERED HEAT - WATER PLANT 7671 Gal Recovered Heat @ 1930 Gal Boiler Heat 1600 1400 - 1200 | — - So $$ 1000 800 = : 2 = ————— cee ee 600 - - on Gallon #1 Heating Fuel 400 200 +— 2/28) RECOVERED HEAT UTILIZATION SIMULATION WORK SHEET. Location’ Ambler Fuel heat value: GENSET™ DATA - SEE NOTE 3 134000 Btu/gal 2005HRU-AE, 3LER-WTP.xls Ya ™ Pe of 4 Est. Annual Fuel Savings (Gallons): 7,671 (based on #1 arctic diesel fuel) Heat rate at kw-load above: 0 1360 Btulkwh Heat rate at kw-load above: 100 1360 Btu/kwh Heat rate at kw-load above: 425 1360 Btu/kwh Heat rate at kw-load above: 450 1360 Btu/kwh Heat rate at kw-load above: 200 2258 Btu/kwh Heat rate at kw-load above: 250 2255 Btu/kwh Heat rate at kw-load above: 300 2255 Btu/kwh Heat rate at kw-load above: 350 2255 Btu/kwh Heat rate at kw-load above: 400 2255 Btu/kwh Heat rate at kw-load above: a Wa Btu/kwh Heat rate at kw-load above: na Wa Btu/kwh SYSTEM LOSS DATA: Constant losses: Plant piping: 1360 Btu/hr. Est'd 40LF of 4" pipe w/1" FG insulation @ 34 Btu/hr-ft Buried Arctic piping: 41250 Btu/hr. Estimate 1500' of 3" Arctic Pipe @ 27.5 BTUH/ft Genset Eng. Preheat: 0 Btu/hr. Included in off-line module pre-heat Total constant: 42610 Btu/hr. Variable losses: Exterior piping: 24 Btu/hr.xF 80LF 3" Pipe w/2" FG @ 0.17 BTU/Hr-ft-F & SOLF 3/4" Hyd w/1" FG @ 0.12 BTU/Hr-ft-F Plant heating: 650 Btw/hr.xF 2 Off-Line Gen Mods, 1 Control Mod, 1 Insul Crew Qrtr& 1° insulated Shed Radiator losses: 50 Btu/hr.xF Estimate for On-Line Engine Passive Losses PCE Data - See Note 1 Month July 34 8 NOTES: ‘August 105631 1) KWH Generated & Fuel Used Based on PCE FY05 Data. September 2) Approximation of maximum recoverable heat available based on fuel used. October 3) Heat rate for load<250kW based on DD Ser-60 DDFG’ ‘oad>=250kW based on KTA19 November 4) Annual Fuel use based on Ambler Business Plan prepared by CRW December January February ct thru Apr 1 March vg Winter Temp: April Building in use, 1=yes, O=no GENERATION DATA: WEATHER DATA: Kwh/month: HDD/Month: KOBUK January 136710 2270 February 120469 21156 March 118162 2004 April 112167 1468 May 96896 799 June 76363 334 July 90441 240 August 105631 355 September 109898 684 October 117815 1400 November 128868 1831 December 136020 2280 Total:| 1 349,440] Total: 15780} BUILDING DATA - SEE NOTE 4: Fuel use, Non- Boiler gallons Seasonal Seasonal Efficiency Water Plant 600 0 73% 1 Washeteria 0 0 73% 1 City Hall 0 0 73% 1 Shop 0 0 73% 1 Post Office 0 0 73% 1 0 0 73% 1 0 0 73% 1 0 0 73% 1 0 oO 73% 1 0 0 73% 1 eo00000---0 Oper. Oper. Months HDD 0 0 { 1 1 1 9 14852 4 1 1 1 1 1 12 15781 1 4 1 1 1 1 12 15781 4 4 1 1 1 1 12 15781 0 0 1 1 1 1 9 14852 0 0 1 1 4 it 9 14852 0 0 1 1 4 1 9 14852 0 0 1 1 4 1 9 14852 0 0 1 1 1 1 9 14852 0 0 1 1 1 1 9 14852 2/28 BUILDING HE/ AND VARIATION: Winter Summer — Hour: 0.043 9.049 1 0.048 0.048 2 0.046 0.046 3 0.044, 0.044 4 9.043 0.043 5 0.041 0.041 6 0.040 0.040 t 0.039 0.039 8 0.038 0.038 9 0.038 0.038 10 0.037 0.037 1 0.037 0.037 12 0.037 0.037 13 0.037 0.037 14 0.037 0.037 15 0.038 0.038 16 0.039 9.039 17 9.040 0.040 18 9.041 0.041 19 0.043 0.043 20 0.044 0.044 21 0.046 0.046 22 0.048 0.048 23 0.049 0.049 24 Power year factor 1 Year no. 0 Seasonal consumption, gls.: 9600 Non-seasonal consump..gls.: 0 Compound boiler efficiency: 0.73 Total Boiler Input (Gal/mo): Days: HDD: kwh: Av kW 2005 HRU-AE BLER-WTP.xls ELECTRIC POWER PRODUCTION VARIATION. January February March April May June 0.038 0.038 0.038 0.036 0.040 0.040 0.036 0.036 0.036 0.036 0.037 0.037 0.034 0.034 0.034 0.034 0.035 0.035 0.034 0.034 0.034 0.034 0.034 0.034 0.033 0.033 0.033 0.033 0.034 0.034 0.034 0.034 0.034 0.034 0.037 0.037 0.038 0.038 0.038 0.038 0.037 0.037 0.042 0.042 0.042 0.042 0.039 0.039 0.042 0.042 0.042 0.042 0.043 0.043 0.047 0.047 0.047 0.047 0.046 0.046 0.048 9.048 0.048 0.048 0.039 0.039 0.047 0.047 0.047 0.047 0.047 0.047 0.045 0.045 0.045 0.045 0.048 0.048 0.047 0.047 0.047 0.047 0.049 0.049 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.049 0.049 0.049 0.049 0.044 0.044 0.046 0.046 0.046 0.046 0.047 0.047 0.043 0.043 0.043 0.043 0.046 0.046 0.038 0.038 0.038 0.038 0.042 0.042 0.038 0.038 0.038 0.038 0.040 0.040 0.041 0.041 0.041 0.0414 0.039 0.039 0.044 0.044 0.044 0.044 0.040 0.040 0.040 0.040 0.040 0.040 0.041 0.041 31 28 31 30 31 30 2270 2115 2004 1468 799 334 136710 120469 118162 112167 96896 76363 184 179 159 156 130 106 Building heat-use per month, MBH (Boiler Output) 143529 133729 126710 92820 50520 0 0 0 0 0 0 oO 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 143529 133729 126710 92820 50520 0 1467 1367 1295 949 516 0 July 0.040 0.037 0.035 0.034 9.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 9.048 0.049 9.048 0.043 0.044 0.047 0.046 0.042 0.040 0.039 9.040 0.041 31 240 90441 122 eo00000000000 August 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 0.046 0.049 0.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 0.040 0.044 31 355 105631 142 e00000000000 September October 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 0.048 0.049 0.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 0.040 0.041 30 684 109898 153 43248 Bocococc000 g 8 & 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 0.048 0.049 0.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 0.040 0.041 31 1400 117815 158 8 Scoocccc0008 8 a November 0.038 0.036 0.034 0.034 0.033 0.034 0.038 0.042 9.042 0.047 0.048 0.047 0.045 0.047 0.048 0.048 0.049 0.046 0.043 0.038 0.038 0.041 0.044 0.040 30 1831 128868 179 115772 eCo00C0CoO0OD 115772 1184 F December 0.036 0.036 0.034 0.034 0.033 0.034 0.038 0.042 0.042 0.047 0.048 0.047 0.045 0.047 0.048 0.048 0.049 0.046 0.043 0.038 0.038 0.041 0.044 0.040 31 2280 136020 183 144161 ooooo0oo0oo00°o 144161 1474 2 of 4 Year Total: 15780 HDD 1349440 kWh 154 avgimo 939009 e00000000 939009 9599 Gal 2/28) 2005 HRU-AE, 3LER-WTP.xls P of 4 Recovered Heat available per hour by month, \.~.. «ter subtracting System Losses from page 1) January February March April May June July August September October November December 1 124 117 100 107 101 80 103 127 132 124 127 123 2 112 106 89 97 88 70 91 113 117 108 116 111 3 100 94 79 87 80 63 83 103 107 98 104 99 4 100 94 79 87 75 59 79 99 102 93 104 99 5 94 88 74 82 75 59 79 99 102 93 98 93 6 100 94 79 87 88 70 91 113 117 108 104 99 a 124 117 100 107 88 70 91 113 117 108 127 123 8 148 141 120 128 97 7 99 122 127 118 151 147 9 148 141 120 128 114 90 115 141 147 139 151 147 10 364 351 146 153 126 101 126 154 162 155 361 361 11 374 361 152 158 97 77 99 122 127 118 370 371 12 364 351 146 153 131 104 130 159 167 160 361 361 13 166 158 136 143 135 108 134 164 172 165 168 165 14 364 351 146 153 139 111 138 168 177 170 361 361 15 374 361 152 158 135 108 134 164 172 165 370 371 16 374 361 152 158 135 108 134 164 172 165 370 371 17 384 370 157 163 118 94 119 145 152 144 380 381 18 354 164 141 148 131 104 130 159 167 160 174 351 19 154 146 126 133 126 101 126 154 162 155 157 153 20 124 117 100 107 109 87 111 136 142 134 127 123 21 124 117 100 107 101 80 103 127 132 124 127 123 22 142 135 115 123 97 7 99 122 127 118 145 141 23 160 152 131 138 101 80 103 127 132 124 162 159 24 136 129 110 118 105 83 107 131 137 129 139 135 Year Total: 155441 129196 88346 90721 80373 61743 81313 99972 101266 98375 145646 1540947 1286487 MBH _ Equivalent Boiler Input (Gal/mo): 1589 1321 903 927 822 631 831 1022 1035 1006 1489 1875 13152 Gal Average Heat demand per hour by month, MBH (total for all Bldgs) January February March April May June July August September October November December 1 229 236 202 153 81 0 0 0 wa 141 191 230 2 221 228 195 148 78 0 0 0 69 136 184 222 3 213 220 188 142 75 0 0 0 66 134 178 214 4 205 212 181 137 72 0 0 0 64 126 171 206 5 198 204 175 132 70 0 0 0 62 122 165 199 6 192 198 169 128 67 0 0 0 60 118 160 193 7 186 192 164 124 65 0 0 0 58 115 155 186 8 181 186 159 121 64 Oo 0 0 56 111 151 181 9 176 182 156 118 62 0 0 0 55 109 147 177 10 176 181 155 118 62 0 0 0 55 109 147 177 11 171 177 151 114 60 O 0 0 53 106 143 172 12 170 175 150 114 60 0 0 0 53 105 142 171 13 170 175 150 114 60 0 0 0 53 105 142 171 14 171 177 151 114 60 0 0 0 53 106 143 172 15 171 177 151 114 60 0 0 0 53 106 143 172 16 176 182 156 118 62 0 0 0 55 109 147 177 17 181 186 159 121 64 0 0 0 56 111 151 181 18 186 192 164 124 65 0 0 0 58 115 155 186 19 192 198 169 128 67 0 0 0 60 118 160 193 20 198 204 175 132 70 0 0 0 62 122 165 199 21 205 212 181 137 72 0 0 0 64 126 171 206 22 213 220 188 142 75 0 0 0 66 131 178 214 23 221 228 195 148 78 0 0 0 69 136 184 222 24 229 236 202 153 81 0 0 0 71 141 191 230 Year Total: 143543 133742 126723 92829 50525 0 0 0 43253 88529 115783 144176939103 MBH Total Boiler Input (Gal/mo): 1467 1367 1295 949 517 0 0 0 442 905 1184 1474 9600 Gal 2/28/2008 2005 HRU-AE* ** IBLER-WTP.xls 4 of 4 Recovered Heat delivered per hour by month, total for all Bldgs) January February March April May June July August September October November December 1 124 117 100 107 81 0 0 0 71 124 127 123 2 112 106 89 97 78 0 0 0 69 108 116 111 3 100 94 79 87 75 0 0 0 66 98 104 99 4 100 94 79 87 72 0 0 0 64 93 104 99 5 94 88 74 82 70 0 0 0 62 93 98 93 6 100 94 79 87 67 0 0 0 60 108 104 99 te 124 117 100 107 65 0 0 0 58 108 127 123 8 148 141 120 121 64 0 0 0 56 111 151 147 9 148 141 120 118 62 0 0 0 55 109 147 147 10 176 181 146 118 62 0 0 0 55 109 147 177 it 171 ie 151 114 60 0 0 0 53 106 143 172 12 170 175 146 114 60 0 0 0 53 105 142 171 13 166 158 136 114 60 0 0 0 53 105 142 165 14 171 177 146 114 60 0 0 0 $3 106 143 172 15 171 177 151 114 60 0 0 0 53 106 143 172 16 176 182 152 118 62 0 0 0 55 109 147 177 17 181 186 157 121 64 0 0 0 56 111 151 181 18 186 164 141 124 65 0 0 0 58 115 155 186 19 154 146 126 128 67 0 0 0 60 118 157 153 20 124 117 100 107 70 0 0 0 62 122 127 123 21 124 117 100 107 72 0 0 0 64 124 127 123 22 142 135 115 123 75 0 0 0 66 118 145 141 23 160 152 131 138 78 0 0 0 69 124 162 159 24 136 129 110 118 81 0 0 0 al 129 139 135 Year Total: 107429 94213, 88324 79949 50525 0 0 0 43253 82325 97387 106923 750329 MBH Equiv Recovered Heat Delivered (Gal/mo): 1098 963 903 817 517 0 0 0 442 842 996 1093 7671 Gal Equiv Additional Heat Required (Gal/mo): 369 404 393 132 0 0 0 0 0 63 188 381 1930 Gal ALASKA ENERGY AND AMBLER HEAT RECOVERY ANALYSIS DECEMBER 31, 2005 ENGINEERING COST ESTIMATE SUMMARY-WASHETERIA/OFFICE ONLY HEAT RECOVERY UPGRADES $104,750 MISCELLANEOUS $11,500 OVERHEAD $18,663 FREIGHT $37,038 CONSTRUCTION SUB-TOTAL $171,951 DESIGN AND CONSTRUCTION ADMIN. $20,000 CONSTRUCTION MANAGEMENT $20,000 PROJECT SUB-TOTAL CONTINGENCY $31,79 15 % TOTAL PROJECT COST $243,74 B-1 ALASKA ENERGY AND AMBLER HEAT RECOVERY ANALYSIS DECEMBER 31, 2005 ENGINEERING COST ESTIMATE - WASHETERIA/OFFICE ONLY HRS | HRS | RATE} COST COST COST COST HEAT RECOVERY UPGRADES Buried 3" Arctic Pipe : $25 | $37,500 : $15,000 Heat Recov Piping & Devices $4,000 $4,000 $5,000 Expansion Tank IE $2,500 | __ $2,500 $500 Heat Recov Pumps & VFD Panel $10,000 | $10,000 $3,200 Conduit, Conductors, Devices $2,500 $2,500 $3,200 Power Plant Heat Exchanger ; $3,000 $3,000 $4,000 Water Plant Heat Exchanger : $2,500 $0 $0 Washeteria Heat Exchanger : $2,000 | $2,000 $1,500 Propylene Glycol 50/50 mix $5,265 $585 BTU Meter MISCELLANEOUS HRM building upgrades Signs & Valve Tags Misc Hardware Misc Tools & Safety Gear Welding Rod, Gases, Etc. OVERHEAD Local Heavy Equip Rental Welder/Misc Tool Rent Project Diesel Fuel/Gasoline Superintendent Overhd Off-Site Superintendent Overhd On-Site Crew Travel Time Crew Airfares Crew Per Diem Housing Rent $22,038 Mob / Demob Charter 2| ea. $5,000 $10,000 Misc Small Freight & Gold Streakg 1 $5,000 Engineering (Design & CCA) 1 $20,000 Construction Management 1 $20,000 ontingency Gallon #1 Heating Fuel 700 AMBLER RECOVERED HEAT - WASHIOFFICE 15689 Gal Recovered Heat @ 11 Gal Boiler Heat 500 + & Oo oO 300 + 2/28/. RECOVERED HEAT UTILIZATION SIMULATION WORK SHEET. Location: Ambler Fuel heat value: GENSET DATA - SEE NOTE 3 Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: GENERATION DATA: Kwh/month: January 136710 February 120469 March 118162 April 112167 May 96896 June 76363 July 90441 August 105631 September 109898 October 117815 November 128868 December 136020 1,349,440 BUILDING DATA - SEE NOTE 4: Fuel use, Non- gallons Seasonal Seasonal Water Plant 0 0 Washeteria 2900 2800 City Hall 0 0 Shop 0 0 Post Office 0 0 0 0 0 0 0 oO 0 O 0 0 134000 Btu/gal 400 125 150 200 250 300 350 400 nia nia Boiler Efficiency 73% 73% 73% 73% 73% 73% 73% 73% 73% 73% 2005 HRU-AEA LER-Wash.xls Est. Annual Fuel Savings (Gallons): 5,689 (based on #1 arctic diesel fuel) 1360 Btu/kwh 1360 Btu/kwh 1360 Btu/kwh Btu/kwh 2255 Btu/kwh 2255 Btu/kwh 2255 Btu/kwh 2255 Btu/kwh Wa Btu/kwh Wa Btu/kwh WEATHER DATA: HDD/Month: KOBUK 2270 2115 2004 1468 799 334 240 355 684 1400 1631 SYSTEM LOSS DATA: Constant losses: Plant piping: Buried Arctic piping: Genset Eng. Preheat: ‘Total constant: Variable losses: Exterior piping: Plant heating: Radiator losses: 1360 Btu/hr. 41250 Btu/hr. 0 Btwhr. 42610 Btu/hr. 24 Btu/hr.xF 650 Btu/hr.xF SO Btu/hr.xF July April August September October November December January February March Heat - See Note 2: Building in use, 1=yes, O=no PCE Data - See Note 1 kWh Gen __|Fuel Used e00000===0 > ae a. C WASHETE- (OFFICE. of 4 x oo ——_———~_- Est'd 40LF of 4" pipe w/1" FG insulation @ 34 Btu/hr-ft Estimate 1500' of 3" Arctic Pipe @ 27.5 BTUH/ft Included in off-line module pre-heat 80LF 3" Pipe w/2" FG @ 0.17 BTU/Hr-ft-F & 9OLF 3/4" Hyd w/1" FG @ 0.12 BTU/Hr-ft-F 2 Off-Line Gen Mods, 1 Control Mod, 1 Insul Crew Qrtr&1 insulated Shed Estimate for On-Line Engine Passive Losses NOTES: 1) KWH Generated & Fuel Used Based on PCE FYO5 Data. 2) Approximation of maximum recoverable heat available based on fuel used. 3) Heat rate for load<250kW based on DD Ser-60 DDEC3, load>=250kW based on KTA19 4) Annual Fuel use based on Ambler Business Plan prepared by CRW. ct thru Apr HDD: vg Winter Temp: Oper. Oper. Months HDD 0 0 1 1 4 ti 9 14852 1 1 1 1 ‘ 1 12 15781 4 1 4 1 1 1 a2 15781 4 4 1 i 4 1 12 15781 0 0 1 1 1 1 9 14852 0 0 1 1 4 4 9 14852 0 0 | d 4 4 9 14852 0 0 1 1 1 1 9 14852 0 0 1 1 1 1 9 14852 0 0 1 1 1 1 9 14852 2/28), ~~ BUILDING HEA’ AND VARIATION: Winter Summer Hour: 0.049 0.049 1 0.048 0.048 2 0.046 0.046 3 0.044 0.044 4 0.043 0.043 5 0.041 0.041 6 0.040 0.040 7 0.039 0.039 8 0.038 0.038 9 0.038 0.038 10 0.037 0.037 11 0.037 0.037 12 0.037 0.037 13 0.037 0.037 14 0.037 0.037 15 0.038 0.038 16 9.033 0.039 17 0.040 0.040 18 0.041 6.041 19 0.043 0.043 20 0.044 0.044 21 0.046 0.046 22 0.048 0.048 23 0.049 0.049 24 Days: HDD: kwh: Av kW Power year factor 1 Year no. 0 Seasonal consumption, gls.: 2900 Non-seasonal consump..gls.: 2800 Compound boiler efficiency: 0.73 Total Boiler Input (Gal/mo): 2005 HRU-AEF LER-Wash.xls ELECTRIC POWER PRODUCTION VARIATION: January February March April May June 0.038 0.038 0.038 0.038 0.040 0.040 0.036 0.036 0.036 0.036 0.037 0.037 0.034 0.034 0.034 0.034 0.035 0.035 0.034 0.034 0.034 0.034 0.034 0.034 0.033 0.033 0.033 0.033 0.034 0.034 0.034 0.034 0.034 0.034 0.037 0.037 0.038 0.038 0.038 0.038 0.037 0.037 0.042 0.042 0.042 0.042 0.039 0.039 0.042 0.042 0.042 0.042 0.043 0.043 0.047 0.047 0.047 0.047 0.046 0.046 0.048 0.048 0.048 0.048 0.039 0.039 0.047 0.047 0.047 0.047 0.047 0.047 0.045 0.045 0.045 0.045 0.048 0.048 0.047 0.047 0.047 0.047 0.049 0.049 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.049 0.049 0.049 0.049 0.044 0.044 0.046 0.046 0.046 0.046 0.047 0.047 0.043 0.043 0.043 0.043 0.046 0.046 0.038 0.038 0.038 0.038 0.042 0.042 0.038 0.038 0.038 0.038 0.040 0.040 0.041 0.041 0.041 0.041 0.039 0.039 0.044 0.044 0.044 0.044 0.040 0.046 0.040 0.040 0.040 0.040 0.041 0.041 31 28 31 30 31 30 2270 2115 2004 1468 799 334 136710 120469 118162 112167 96896 76363 184 179 159 156 130 106 Building heat-use per month, MBH (Boiler Output) 0 0 0 0 0 0 63630 60844 58848 49213 37187 28829 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 63630 60844 58848 49213 37187 28829 650 622 602 503 380 295 July 0.040 0.037 0.035 0.034 0.034 0.037 09.037 0.039 0.043 0.046 0.039 0.047 9.048 0.049 0.048 0.048 0.044 0.047 0.046 0.042 9.040 0.039 0.040 0.041 31 240 90441 122 0 27139 eo0000000 27139 277 August 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 0.048 0.049 0.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 0.040 0.041 31 355 105631 142 nN oO N fo) a nN Oo SS oosooees September October 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 0.048 0.049 0.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 0.040 0.041 30 684 109898 153 35120 oeoo000000 35120 359 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 0.048 0.049 0.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 0.040 0.041 31 1400 117815 158 0 47991 oo0000000 47991 491 p November December 0.038 0.036 9.034 0.034 0.033 0.034 0.038 0.042 0.042 0.047 0.048 0.047 0.045 0.047 0.048 0.048 0.048 0.046 9.043 0.038 0.038 0.041 0.044 0.040 30 1831 128868 179 0 55739 eoo000000 55739 570 0.038 0.036 0.034 0.034 0.033 0.034 0.038 0.042 0.042 0.047 0.048 0.047 0.045 0.047 0.048 0.048 0.049 0.046 0.043 0.0338 0.038 0.041 0.044 0.040 of 4 31 Year Total: 2280 15780 HDD 136020 183 652 1349440 kWh 154 avgimo 0 557556 eo0000000 557556 5700 Gal 2/28/: 2005 HRU-AEA LER-Wash.xls P of 4 Recovered Heat available per hour by month, MBH (atter subtracting System Losses from page 1) January February March April May June July August September October November December 1 124 117 100 107 101 80 103 127 132 124 127 123 2 112 106 89 97 88 70 91 113 117 108 116 111 3 100 94 79 87 80 63 83 103 107 98 104 99 4 100 94 79 87 75 59 79 99 102 93 104 99 5 94 88 74 82 75 59 79 99 102 93 98 93 6 100 94 79 87 88 70 91 113 117 108 » 104 99 7 124 117 100 107 88 70 91 113 117 108 127 123 8 148 141 120 128 97 77 99 122 127 118 151 147 9 148 141 120 128 114 90 115 141 147 139 151 147 10 364 351 146 153 126 101 126 154 162 155 361 361 11 374 361 152 158 97 77 99 122 127 118 370 371 12 364 351 146 153 131 104 130 159 167 160 361 361 13 166 158 136 143 135 108 134 164 172 165 168 165 14 364 351 146 153 139 111 138 168 177 170 361 361 15 374 361 152 158 135 108 134 164 172 165 370 371 16 374 361 152 158 135 108 134 164 172 165 370 371 17 384 370 157 163 118 94 119 145 152 144 380 381 18 354 164 141 148 134 104 130 159 167 160 174 351 19 154 146 126 133 126 101 126 154 162 155 157 153 20 124 117 100 107 109 87 111 136 142 134 127 123 21 124 Adie 100 107 101 80 103 127 132 124 127 123 22 142 135 115 123 97 77 99 122 127 118 145 141 23 160 152 134 138 101 80 103 127 132 124 162 159 24 136 129 110 118 105 83 107 131 137 129 139 135 Year Total: 155441 129196 88346 90721 80373 61743 81313 99972 101266 98375 145646 1540947 1286487 MBH Equivalent Boiler Input (Gal/mo): 1589 1321 903 927 822 631 831 1022 1035 1006 1489 1575 13152 Gal Average Heat demand per hour by month, MBH (total for all Bldgs) January February March April May June July August September October November December 1 101 107 94 81 59 47 43 47 58 76 92 102 2) 98 104 91 78 57 46 42 45 56 74 89 98 3 94 100 87 75 55 44 40 43 54 Al 85 95 4 91 96 84 73 53 43 39 42 52 69 82 91 5 88 93 81 70 51 41 37 40 50 66 80 88 6 85 90 79 68 50 40 36 39 48 64 77 85 iC 82 87 76 66 48 39 35 38 47 62 75 83 8 80 85 74 64 47 37 34 37 46 60 72 80 9 78 83 72 63 46 37 33 36 45 59 71 78 10 78 83 72 62 46 37 33 36 44 59 71 78 1 76 80 70 61 44 36 32 35 43 57 69 76 12) 75 80 70 60 44 35 32 35 43 57 68 76 13 75 80 70 60 44 35 32 35 43 57 68 76 14 76 80 70 61 44 36 32 35 43 57 69 76 15 76 80 70 61 44 36 32 35 43 57 69 76 16 78 83 72 63 46 37 33 36 45 59 71 78 17 80 85 74 64 47 37 34 37 46 60 TW 80 18 82 87 76 66 48 39 35 38 47 62 75 83 19 85 90 79 68 50 40 36 39 48 64 77 85 20 88 93 81 70 51 41 37 40 50 66 80 88 21 91 96 84 73 53 43 39 42 52 69 82 91 22 94 100 87 75 55 44 40 43 54 71 85 95 23 98 104 _ 9 78 57 46 42 45 56 74 89 98 24 101 107 94 81 59 47 43 47 58 76 92 102 Year Total: 63636 60850 58854 49218 37191 28832 27142 29209 35124 47996 55744 63816 557612 MBH Total Boiler Input (Gal/mo): 651 622 602 503 380 295 iene 299 359 491 570 652 5700 Gal 2/28/ 2005 HRU-AE/ iLER-Wash.xls F of 4 Recovered Heat delivered per hour by month, Ion \wtal for all Bldgs) January February March April May June July August September October November December 4 101 107 94 81 59 47 43 47 58 76 92 102 2 98 104 89 78 57 46 42 45 56 74 89 98 3 94 94 79 7 55 44 40 43 54 71 85 95 4 91 94 79 73 53 43 39 42 52 69 82 91 5 88 88 74 70 51 41 37 40 50 66 80 88 6 85 90 79 68 50 40 36 39 48 64 7 85 a 82 87 76 66 48 39 35 38 47 62 75 83 8 80 85 74 64 47 37 34 37 46 60 72 80 9 78 83 d2 63 46 37 33 36 45 59 71 78 10 78 83 72 62 46 37 33 36 44 59 71 78 dA 76 80 70 61 44 36 32 35 43 57 69 76 12 75 80 70 60 44 35 32 35 43 57 68 76 13 75 80 70 60 44 35 32 35 43 57 68 76 14 76 80 70 61 44 36 32 35 43 57 69 76 15 76 80 70 61 44 36 32 35 43 57 69 76 16 78 83 te 63 46 37 33 36 45 59 71 78 17 80 85 74 64 47 37 34 37 46 60 72 80 18 82 87 76 66 48 39 35 38 47 62 75 83 19 85 90 79 68 50 40 36 39 48 64 7 85 20 88 93 81 70 51 41 37 40 50 66 80 88 21 91 96 84 73 53 43 39 42 52 69 82 91 22 94 100 87 75 55 44 40 43 54 71 85 95 23 98 104 91 78 57 46 42 45 56 74 89 98 24 101 107 94 81 59 47 43 47 58 76 92 102 Year Total: 63636 60467 58165 49218 37191 28832 27142 29209 35124 47996 55744 63816 556540 MBH Equiv Recovered Heat Delivered (Gal/mo): 651 618 595 503 380 295 277 299 359 491 570 652 5689 Gal Equiv Additional Heat Required (Gal/mo): 0 4 7 0 0 0 0 0 0 0 0 0 11 Gal ALASKA ENERGY AND AMBLER HEAT RECOVERY ANALYSIS DECEMBER 31, 2005 ENGINEERING COST ESTIMATE SUMMARY - WATER PLANT & WASH/OFFICE HEAT RECOVERY UPGRADES $148,400 MISCELLANEOUS $11,500 OVERHEAD $19,138 FREIGHT CONSTRUCTION SUB-TOTAL | $225,433 | DESIGN AND CONSTRUCTION ADMIN. $20,000 CONSTRUCTION MANAGEMENT $20,000 PROJECT SUB-TOTAL $265,433 CONTINGENCY $39,815 15 % TOTAL PROJECT COST $305,248 B-1 ALASKA ENERGY AND AMBLER HEAT RECOVERY ANALYSIS DECEMBER 31, 2005 ENGINEERING COST ESTIMATE - WATER PLANT & WASHIOFFICE COST COST COST WT HEAT RECOVERY UPGRADES Buried 3" Arctic Pipe ; : $60,000 . $50 | $24,000 __|_ $84,000 Heat Recov Piping & Devices $4,000 $50 $5,000 $9,000 Expansion Tank $2,500 $50 $500 $3,000 Heat Recov Pumps & VFD Panel $10,000 $80 | $3,200 | $13,200 Conduit, Conductors, Devices $2,500 $80 $3,200 Power Plant Heat Exchanger $3,000 $50 | $4,000 Water Plant Heat Exchanger $2,500 $50 | $1,500 Washeteria Heat Exchanger $2,000 $50 | $1,500 Propylene Glycol 50/50 mix $8,100 18] $50 $9,000 520 $9,000 $50 : $10,000 BTU Meter MISCELLANEOUS HRM building upgrades i $2,000 $50 F $4,500 Signs & Valve Tags $500 $50 i $2,000 Misc Hardware ; $2,000 $50 $2,000 Misc Tools & Safety Gear ; $1,000 $50 $1,000 Welding Rod, Gases, Etc. } $2,000 $50 $2,000 OVERHEAD Local Heavy Equip Rental | $4,000 $50 $4,000 Welder/Misc Tool Rent 4 $2,000 Project Diesel Fuel/Gasoline [ Superintendent Overhd Off-Site $60 Superintendent Overhd On-Site $60 + = to] oo] =|] 3] 3] 3] 3] = 4 Crew Airfares Crew Per Diem Housing Rent Mob / Demob Charter Misc Small Freight & Gold orem Engineering (Design = CCA) $20,000 Construction Management $20,000 PRO UB g g g = ontingency AMBLER RECOVERED HEAT - WATER PLANT & WASHI/OFFICE @ 8864 Gal Recovered Heat 6437 Gal Boiler Heat 2500 -— - nn conn oe ow - + 2000 =——— oo = o r = 1500 — Sass EEE — - ————— S & o x= ¥ & 1000 = a — oo = ‘oS °o 500 | a a | A ; Ss & es & Ss S & & & & S ys ~¥ » y > © S © © SS ye se e & S 2/28, 2005 HRU-AE RECOVERE AT UTILIZATION SIMULATION WORK SHEET. Location’ Ambler IBLER-ALL.xls F | of 4 Est. Annual Fuel Savings (Gallons): 8,864 Fuel heat value: GENSET DATA - SEE NOTE 3 Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: Heat rate at kw-load above: GENERATION DATA: Kwh/month: January 136710 February 120469 March 118162 April 112167 May 96896 June 76363 July 90441 August 105631 September 109898 October 117815 November 128868 December 136020 1,349,440 BUILDING DATA - SEE NOTE 4: Fuel use, Non- gallons Seasonal Seasonal Water Plant 9600 0 Washeteria 2900 2800 City Hall 0 0 Shop 0 0 Post Office 0 0 0 0 0 oO oO oO 0 oO 0 oO 134000 Btu/gal 4100 125 nia nia Boiler Efficiency 73% 73% 73% 73% 73% 73% 73% 73% 73% 73% (based on #1 arctic diesel fuel) 1 Btu/kwh 1360 Btu/kwh 1360 Btu/kwh 1360 Btu/kwh 2258 Btu/kwh 2255 Btu/kwh 2255 Btu/kwh 2255 Btu/kwh 2255 Btu/kwh Wa Btu/kwh na Btu/kwh WEATHER DATA: HDD/Month: KOBUK 2270 2115 2004 1468 799 334 240 355 684 1400 1834 2280 SYSTEM LOSS DATA: Constant losses: Plant piping: 1360 Btwhr. Est'd 40LF of 4" pipe w/1" FG insulation @ 34 Btu/hr-ft Buried Arctic piping: 66000 Btu/hr. Estimate 2400' of 3” Arctic Pipe @ 27.5 BTUH/ft Genset Eng. Preheat: 0 Btu/hr. Included in off-line module pre-heat Total constant: 67360 Btu/hr. Variable losses: Exterior piping: 24 Btw/hr.xF 80LF 3" Pipe w/2" FG @ 0.17 BTU/Hr-ft-F & 9OLF 3/4" Hyd w/1" FG @ 0.12 BTU/Hr-ft-F Plant heating: 650 Btwhr.xF 2 Off-Line Gen Mods, 1 Control Mod, 1 Insul Crew Qrtr&1 insulated Shed Radiator losses: Building in use, 1=yes, O=no G044 105631 PCE Data - See Note 1 [Month [kWh Gen Heat -See Note 2:{ 11209] 50 Btu/hr.xF Estimate for On-Line Engine Passive Losses 05} eo000coo===-0 NOTES: 1) KWH Generated & Fuel Used Based on PCE FYO5 Data. 2) Approximation of maximum recoverable heat available based on fuel used. 3) Heat rate for load<2S50kW based on DD Ser-60 DDEC3, load>=250kW based on KTA19 4) Annual Fuel use based on Ambler Business Plan prepared by CRW [Avg Winter Temp 2 Oper. Oper. Months HDD 0 0 1 1 7 1 9 14852 q 1 1 1 1 1 12 15781 4 1 1 1 1 1 12 15781 a 1 1 1 1 1 2 15781 0 0 1 1 1 1 9 14852 0 0 1 1 1 1 9 14852 0 0 1 1 1 4 9 14852 0 0 1 1 1 1 9 14852 0 0 1 1 1 1 9 14852 0 0 1 i 1 1 9 14852 2/28/ BUILDING HEAT DEMAND VARIATION: Winter Summer Hour: 0.049 0.049 1 0.048 0.048 2 9.046 0.046 3 0.044 0.044 4 0.043 0.043 5 0.041 0.041 6 0.040 0.040 7 0.038 0.039 8 0.038 0.038 9 0.038 0.038 10 0.037 0.037 1 0.037 0.037 12 0.037 0.037 13 0.037 0.037 14 0.037 0.037 15 0.038 0.038 16 0.039 9.039 a7 0.040 0.040 18 9.041 0.041 19 0.043 0.043 20 0.044 0.044 21 0.046 0.046 22 0.048 0.048 23 0.049 0.049 24 Days: HDD: kwh: Av kw Power year factor 1 Year no. 0 Seasonal consumption, gls.: 12500 Non-seasonal consump..gls.: 2800 Compound boiler efficiency: 0.73 Total Boiler Input (Gal/mo): 2005 HRU-AE BLER-ALL.xls ELECTRIC POWER PRODUCTION VARIATION: January February March April May June 0.038 0.038 0.036 0.036 0.040 0.040 0.036 0.036 0.036 0.036 0.037 0.037 0.034 0.034 0.034 0.034 0.035 0,035 0.034 0.034 0.034 0.034 0.034 0.034 0.033 0.033 0.033 0.033 0.034 0.034 0.034 0.034 0.034 0.034 0.037 0.037 0.038 0.038 0.038 0.038 0.037 0.037 0.042 0.042 0.042 0.042 0.039 0.039 0.042 0.042 0.042 0.042 0.043 0.043 0.047 0.047 0.047 0.047 0.046 0.046 0.048 0.048 0.048 0.048 0.039 0.039 0.047 0.047 0.047 0.047 0.047 0.047 0.045 0.045 0.045 0.045 0.048 0.048 0.047 0.047 0.047 0.047 0.049 0.049 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.049 0.049 0.049 0.049 0.044 0.044 0.046 0.046 0.046 0.046 0.047 0.047 0.043 0.043 0.043 0.043 0.046 0.046 0.038 0.038 0.038 0.038 0.042 0.042 0.038 0.038 0.038 0.038 0.040 0.040 0.041 0.041 0.041 0.041 0.039 0.039 0.044 0.044 0.044 0.044 0.040 0.040 0.040 0.040 0.040 0.040 0.044 0.041 31 28 31 30 31 30 2270 2115 2004 1468 799 334 136710 120469 118162 112167 96896 76363 184 179 159 156 130 106 Building heat-use per month, MBH (Boiler Output) 143529 133729 126710 92820 50520 0 63630 60844 58848 49213 37187 28829 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 207159 194572 185559 142033 87707 28829 2118 1989 1897 1452 897 295 July 0.040 0.037 0.035 0.034 0.034 9.037 0.037 6.039 0.043 0.046 0.039 0.047 0.048 9.049 6.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 9.040 0.041 31 240 90441 122 0 27139 eo000000 27139 277 August 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 0.048 0.049 0.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 0.040 0.044 31 355 105631 142 Boooeccase N ns 88 September October 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 0.048 0.049 0.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 0.040 0.0414 30 684 109898 153 43248 35120 ~ 8 occooccc] 801 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 0.047 0.048 0.049 0.048 0.048 0.044 0.047 0.046 0.042 0.040 0.039 0.040 0.041 3 1400 117815 158 88520 47991 oooooo0°o 136511 1396 P November December 0.038 0.036 0.034 0.034 0.033 0.034 0.038 0.042 0.042 0.047 0.048 0.047 0.045 0.047 0.048 0.048 0.049 0.046 9.043 0.038 0.038 0.041 0.044 0.040 30 1831 128868 179 115772 55739 eoo0o0o0o0°0o 171510 1753 0.038 0.036 0.034 0.034 0.033 0.034 0.038 0.042 0.042 0.047 0.048 0.047 0.045 0.047 0.048 0.048 0.049 0.046 0.043 9.038 0.038 0.041 0.044 0.040 of 4 31 Year Total: 2280 15780 HDD 136020 183 144161 63810 eooo0o0co°0°o 207971 2126 1349440 kWh 154 avgimo 939009 g a :: 1496565 15299 Gal 2/28 i 2005 HRU-AI ABLER-ALL.xIs | 3 of 4 Recovered Heat available per hour by month, MBH (after subtracting System Losses from page 1) January February March April May June July August September October November December 1 100 92 75 83 76 5S 78 102 108 99 103 98 2 88 81 65 72 63 45 66 88 93 83 91 86 3 76 69 54 62 55 38 58 79 83 73 79 74 4 76 69 54 62 51 34 54 74 78 68 79 74 5 70 63 49 57 51 34 54 74 78 68 73 68 6 76 69 54 62 63 45 66 88 93 83 79 74 7 100 92 75 83 63 45 66 88 93 83 103 98 8 124 116 96 103 72 52 74 97 103 94 126 122 9 124 116 96 103 89 66 90 116 123 114 126 122 10 339 326 122 128 102 76 102 130 137 130 336 337 11 349 336 127 133 72 52 74 97 103 94 346 346 12 339 326 122 128 106 79 106 134 142 135 336 337 13 142 133 111 118 110 83 110 139 147 140 144 140 14 339 326 122 128 114 86 114 144 152 145 336 337 15 349 336 127 133 110 83 110 139 147 140 346 346 16 349 336 127 133 110 83 110 139 147 140 346 346 7 17 359 346 132 139 93 69 94 120 128 120 355 356 18 329 139 116 123 106 79 106 134 142 135 149 327 19 130 122 101 108 102 76 102 130 137 130 132 128 20 100 92 75 83 85 62 86 111 118 109 103 98 21 100 92 75 83 76 55 78 102 108 99 103 98 22 118 110 91 98 72 52 74 97 103 94 120 116 23 136 128 106 113 76 55 78 102 108 99 138 134 24 112 104 85 93 80 59 82 107 113 104 114 110 Year Total: 137027 112564 69932 72901 61959 43923 62899 81558 83446 79961 127826 135680” 1069677 MBH Equivalent Boiler Input (Gal/mo): 1401 1151 715 745 633 449 643 834 853 817 1307 1387 10935 Gal Average Heat demand per hour by month, MBH (total for all Bldgs) January February March April May June July August September October November December 1 330 343 296 234 140 47 43 47 129 218 282 331 2 319 332 286 226 135 46 42 45 125 210 273 321 3 307 320 275 218 130 44 40 43 120 203 263 309 4 296 308 265 210 125 43 39 42 116 195 253 297 5 286 297 256 203 121 4 37 40 112 188 245 287 6 277 288 248 196 Vee 40 36 39 108 182 237 278 A 268 279 240 190 113 39 35 38 105 177 229 269 8 261 271 233 185 110 37 34 37 102 172 223 262 9 255 265 228 180 108 37 33 36 100 168 218 256 10 254 264 227 180 108 37 33 36 99 167 217 255 11 247 257 221 175 105 36 32 35 97 163 212 248 12 245 255 220 174 104 35 32 35 96 162 210 246 13 245 255 220 174 104 35 32 35 96 162 210 246 14 247 257 221 175 105 36 32 35 97 163 212 248 15 247 257 221 175 105 36 32 35 97 163 212 248 16 255 265 228 180 108 37 33 36 100 168 218 256 17 261 271 233 185 110 37 34 37 102 172 223 262 18 268 279 240 190 113 39 35 38 105 177 229 269 19 277 288 248 196 117 40 36 39 108 182 237 278 20 286 297 256 203 121 41 37 40 112 188 245 287 21 296 308 265 210 125 43 39 42 116 195 253 297 22 307 320 275 218 130 44 40 43 120 203 263 309 23 319 331 286 226 135 46 42 45 125 210 273 320 24 330 343 296 234 140 47 43 47 129 218 282 331 Year Total: 207180 194592 185577 142047 87716 28832 27142 29209 78376 136525 171527 207992 1496714 MBH Total Boiler Input (Gal/mo): 2118 1989 1897 1452 897 295 277 299 801 1396 1754 2126 =15301 Gal 2/28) 2005 HRU-AE BLER-ALL.xls F of 4 Recovered Heat delivered per hour by month, MBH (total for all Bldgs) January February March April May June July August September October November December 1 100 92 75 83 76 47 43 47 108 99 103 98 2 88 81 65 72 63 45 42 45 93 83 91 86 3 76 69 54 62 55 38 40 43 83 73 79 74 4 76 69 54 62 51 34 39 42 78 68 79 74 5 70 63 49 57 51 34 37 40 78 68 73 68 6 76 69 54 62 63 40 36 39 93 83 79 74 7 100 92 75 83 63 39 35 38 93 83 103 98 8 124 116 96 103 72 37 34 37 102 94 126 122 9 124 116 96 103 89 37 33 36 100 114 126 122 10 254 264 122 128 102 37 33 36 99 130 217 255 11 247 257 127 133 72 36 32 35 97 94 212 248 12 245 255 122 128 104 35 32 35 96 135 210 246 13 142 133 111 118 104 35 32 35 96 140 144 140 14 247 257 122 128 105 36 32 35 97 145 212 248 15 247 257 127 133 105 36 32 35 97 140 212 248 16 255 265 127 133 108 37 33 36 100 140 218 256 17 261 271 132 139 93 37 34 37 102 120 223 262 18 268 139 116 123 106 39 35 38 105 135 149 269 19 130 122 101 108 102 40 36 39 108 130 132 128 20 100 92 75 83 85 41 37 40 112 109 103 98 21 100 92 75 83 76 43 39 42 108 99 103 98 22 118 110 91 98 72 44 40 43 103 94 120 116 23 136 128 106 113 76 46 42 45 108 99 138 134 24 112 104 85 93 80 47 43 47 113 104 114 110 Year Total: 114427 98422 69932 72901 61148 28167 27142 29209 70875 79961 100910 113975 867068 MBH Equiv Recovered Heat Delivered (Gal/mo): 1170 1006 715 745 625 288 277 299 725 817 1032 1165 8864 Gal Equiv Additional Heat Required (Gal/mo): 948 983 1182 707 272 ue 0 0 7 578 722 961 6437 Gal AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Al akan K -ave0 Evaluator: Contact name: iM ARK Pye rr~y Contact number: s- A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Pr (1200, 1800) | Individual Radiators, Piped Manifold) i | @ms KTAL(SO 1QOO 2) Ams KTa9Q4 | 1fOQ 2 Oak 4414 I9d0Q Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Evaluator: Contact number:.S/ 3-3 (lo ‘y) N_ (If no skip to C and continue) Community/Utility: \ Contact name:_{Y\ark Beuar SY A. Does your power plant have a heat recovery system? B. Does the power plant heat recovery equipment work? Y (N) Answer | Comments ee || No) [Faited Agdr id Prriva C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments [Wed Di, oashebe era + LOAke? Plank OPoret FS No ind a D. Do you know of any issues that would prevent a recovered heat system from being constructed? WO E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) [ End User Building Rank # Comments | Clinic Yq Water Treatment Plant_ | 2 Rhearia P; Piva Cail ed Washeteria | Si ~ School , Aetkic Bow Community Bldg Yy i Other Bldg Y (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y @ G. Describe the power plant generators (if different than shown in AEA database) and radiators: | Gen RPM Cooling System (Skid Radiators, Gen # | Make | aa (1200, 1800) sate Piped Manifold) IL lop Se ood e.3) 1940 aniCola 2 [Rens KTA 150 1IQOD | 2 [| tims IKTA 1150 IAGO V7 Evaluator Comments on Potential for Heat Recovery in the Community: txigt me Heat Us coufe, SYSTEM HAS £ ) 7 7 . NZL? (WASHPTER\A AnD Waree Plawy Age poTevTAt Ex® YS h25 Bol ARF GPFATE? THWAY YQ Er Ear PU LIE re P PWVT\ Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 55 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Evaluator: Contact name: N\a 2k De rAd Contact number: (05 = 33) lp = — ° A. Does your power plant have a heat recovery system? q Y) N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? ) N Answer | Comments Yes > No C. Is there interest in the community to have a working heat recov. system? Yy) N (blank for no answer) Answer Comments Yes > SOsrceyt 1 DANES HEAL No : D. Do you know of any issues that would prevent a recovered heat system from being constructed? WO E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic eT | Water Treatment Plant Y | Washeteria Y School 2 [Rune e Plank Renquakions LASE cAL Community Bldg Y [ Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? YM N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Macs (1200, 1800) intial Radiators Piped Manifold) l Coat 33204 LBD Mans laid 2 Oo SELON DE! DU V2 \ = UMS ITAIK Dan 1206 VW Evaluator Comments on Potential for Heat Recovery in the Community: Ewuorm6 Hear RE lous ky SvoTem t$ Obfexnpust But Poon I LY SuUlATES pow FR plank facil DES ComsSe PAP £ “LCFESS (VE Hear Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 5 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: ca Wssian- A\\) 6'Evaluator: Yr 2 3 Q, ~~. oy am ee Rae Contact name:_\\ WARK Foes ea Contact number:_9 (9%) - 5 Sj /e A. Does your power plant have alieat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Were Trrerkiga Com TEVER in PRearess E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, ee rere er (1200, 1800) aie tay Piped Manifold) l WO Ker ionnnesd | N00 | 2 Cat 33c0P0T | 1 FOO 3 Wake Shlelt LROO? Evaluator Comments on Potential for Heat Recovery in the Community: Toreekice FRaon TEUER Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): \ ) AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Ong Ale - AU EC ivalaator: ; Contact name:_}) |e £ Bows AD Contact number:_4 La -9 3 [lo A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments ] Yes [ | No L C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building _| Rank # | Comments Clinic IE Water Treatment Plant Washeteria L School Community Bldg | Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, # k Model , Gen # | Make oS (1200, 1800) | Individual Radiators, Piped Manifold) Y TU 14vIOOO 1800_ Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: EEK - WUE @ Contact name:_{V\ Ae kK Beuan ~~ Evaluator: Contact number: 9105 --S31(p A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes + No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators d ae s , Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) 2 DO See oot 4d! 1900 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ae AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_F Us yv\ - Ave Evaluator: Contact name: N\ARK Oeueyy Contact number: (95 - 9.3/0 a A. Does your power plant have a heat recovery system? Y (N) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y Q) (blank for no answer ~ Answer | Comments Yes O° D. Do you know of any issues that would prevent a recovered heat system from being constructed? Powe? Plank iS | ile anne Commune tA E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building _ Rank # | Comments Clinic Q Water Treatment Plant UW Washeteria Uy School u Community Bldg u Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Pee ee (1200, 1800) eee aie ae Piped Manifold) | oo See a onec#! DAG 2 bo Seer onedd| 1 RIO 3 irr evVAAGD 1§O0O Evaluator Comments on Potential for Heat Recovery in the Community: > : oC : ia See eae fi. “ ouoee Plant is Remoke, Seaw. Van aie Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): cc) AEA Heat Recovery Case Study Community Questionnaire Community/Utility: ©. es. pV ARK - QuEe Contact name:_{V Ae Bene \ ~ s A. Does your power plant have a heat recovery system? ) N_ (Ifno skip to C and continue) Evaluator: Contact number:_Slo3-SAlle B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No | D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic il Water Treatment Plant rh Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators Gen # | Mak Model Pu > en ani ni (1200, 1800) | Individual Radiators, Piped Manifold) _| y Ope | AY4S lo L800 S ras, KrA aad) 1900 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: @ amoet t - AVEC Evaluator: Contact name: V\aek Ae pa fr Contact number:_9( 0.5 - 4.3/ lo A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No [ C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic ta tl Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen# | Make ai (1200, 1800) | Individual Radiators, Piped Manifold) = | fine KTAITAY LeOD Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: CoE Lge Bear A E a )€0 Evaluator: Maek 2 Sas Sdn Contact name: ARK (Or AY Contact number: - A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No [i C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes | No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) [ End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg_ (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Mak Model oa a rine cua (1200, 1800) | Individual Radiators, Piped Manifold) as : _|_ 1800 ow) SeRWONDEY 1 £00 as Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_ => Contact name: iY) ALK He d at \ A. Does your power plant have aheat recovery system? y N_ (If no skip to C and continue) Evaluator: Contact number:_S(0%5 ~ SAMO B. Does the power plant heat recovery equipment work? Y N) Answer | Comments Yes x) Failed Nerkia Pipive C. Is there interest in the community to have a working heat recov. system? Yy) N (blank for no answer YS Answer | Comments Wes) |S 8 Sng oO D. Do you know of any issues that would prevent a recovered heat system from being constructed? {SO E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Y Water Treatment Plant A Oistanneéted Ceam HL 2 ’ ste) Washeteria — School Q) |Faned Aettie Pipe Community Bldg 3. Cita offtte in Meare froee PLAAL Other Bldg ~ (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Getis | Make — (1200, 1800) | Individual Radiators. Piped Manifold) \ Aa ofS / L800 2 ms (TAIN 1400 | 12.09 3 Lays ITAIQ 1800 | 185 Evaluator Comments on Potential for Heat Recovery in the Community: bE f iS TING We VW s> [ ( PACT ie¥ COU f ers Sy $3 gM (s@) PETENT IAC FOL Ed aNaM Dz Peri DOG On) Futu rg Pow ge Plant modi Lic aan Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): “| AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Q 3S ¥ Q Evaluator: Contact name: Maz. K % 2 ALY Contact number:_S (05 / A. Does your power plant have a heat recovery system? Y ® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No YY C. Is there interest in the community to have a working heat recov. system? 9) N (blank for no answer Answer | Comments D. Do you know of any issues that would prevent a recovsth d heat system from a constructed? Exinki 0) Prank is Kerroke., enocsed ko he NEAR Shlingol. E, What balan are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) - WEUS Povoed. Pua nt 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Y Washeteria School 3 Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gem | Make nme! (1200, 1800) Taal ital Redivtede Piped Manifold) { QO Seto mel dl Mao 2 As Lo&S I 1 &O) | 3 Od LAID 1850 1e@QO Evaluator Comments on Potential for Heat Recovery in the Community: Pw posed fF Davee Plas js fo BE LOCATE SS NAG SCHone JO BAD ns Hert Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): : | AEA Heat Recovery Case Study Community Questionnaire Community/Utility: aC Evaluator: Contact name:\) \ar\ Beau Ay) Contact number:_Sla‘5 -..3 la A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? interest in the community to have a working heat recov. system? Y N_ (blank for no answer) E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators Model re > Gen # | Make mt (1200, 1800) | Individual Radiators, Piped Manifold) er Krad3aq | 1400 ». Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): _ AEA Heat Recovery Case Study Community Questionnaire Community/Utility: KH ADI = Ay En, Evaluator: Contact name: Nyeek Cewec x Contact number: 9 (p5- SAllp A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No | C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments ives) No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) [ End User Building Rank # | Comments Clinic Water Treatment Plant 1 Washeteria School Community Bldg t Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) <5 Segonred! 1.400 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Kalk PLO, = Ay ELS Evaluator: Contact name: {\ArK ie. a) Contact number: (93 > 3.3 / lo cD _ A. Does your power plant have a heat recovery system? {Y) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y) N Answer | Comments Ces No C. Is there interest in the community to have a working heat recov. system? Yy) N (blank for no answer) Answer | Comments ¢ y es) Sede nc | No D. Do you know of any issues that would prevent a recovered heat system from being constructed? NA E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic q Water Treatment Plant ay Washeteria School 7) WEL PP Heat lowd uses Bu Heart Community Bldg at Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Mitel (1200, 1800) | Individual Radiators, Piped Manifold) ] DO wee | 1 2a? Many fata 4 OO Kee(o Ones! 1 FON 2 Ly 23 On Selod Oredy| 1 Re Evaluator Comments on Potential for Heat Recovery in the Community: Miu ModvUiRe Pose PUNT SMe Are rm len ALIFE @ COOLERS DOES fuo7 Navs Sv ELiC LE Ha: Fok S CHL Community Scoring: Potential (O=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | On Community/Utility: Ke iol uk - A ye (i Evaluator: > SD Contact name: {Y\arK Den Ar AEA Heat Recovery Case Study Community Questionnaire Contact number: S05 - 53 /lp J A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments | Yes No J C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Mak Model = Genesee owe (1200, 1800) | Individual Radiators, Piped Manifold) Gen RPM Cooling System (Skid Radiators, \ Q MS ArAia GY 1800 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Kiana = WOEC Contact name: {\ \AeK Bawarr Answer Yes | No C. Is there Comments Evaluator: Contact number: _Sin5 -.5.3/lo S35 - A. Does your power plant have a heat recovery system? (¥) N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y ® ] interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer Comments il Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) i connected - heat recovery works connected - heat recovery does not work (reason / comments) 2s 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic | Water Treatment Plant elt Washeteria School eye Community Bldg Other Bldg F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: (Indicate the appropriate number in the rank column — add comments if not working or not feasible) Gen RPM Cooling System (Skid Radiators, Gen # | Make Mose (1200, 1800) | Individual Radiators, Piped Manifold) | Do PERI DOECH 1800 a ey ree 39 1900 Oh Ms - = 1} L800 Evaluator Comments on Potential for Heat Recovery in the Community: LED HbA AAS VWF Cou Be, f t ARAL Avy 2 2 \ if S/] £ pn Z ‘ Sc Hoel Community Scoring: Potential (0Q=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): | AEA Heat Recovery Case Study Community Questionnaire Community/Utility: K wwoAling > AYER Evaluator: Contact name:_\‘\ RK Qewar \ Contact number: 4(0 - S3/ lp A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N | Answer | Comments Yes No | C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments a D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building | Rank # | Comments Clinic [las Water Treatment Plant Washeteria School I Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling Syste i i Gen # | Make Made (1200, 1800) Ru a i priors oer Z Qoat ate 35: 3 fe 3 Ors UA1O 1806 4 DO Seki brecy! 1 FG0 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Kouuk = -AvEC Evaluator: Contact name:_\! \Aek Feuer ‘\ Contact number: (05-94 / lo A. Does your power plant have a heat recovery system? Y N_ (Ifnoskip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments i Yes il No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) | End User Building Rank # | Comments Clinic = Water Treatment Plant | Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Mott (1200, 1800) | Individual Radiators, Piped Manifold) l oo Fertonne@ | 1 £00 a So Sevanneey 1500 4 Urns Qsxis G9] __1 800 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Louse 2 Ka aK Hie, -&\ JEC. Evaluator: Contact name: {Y \weK Pen AN Contact number:_S(o5- S.3ilp Y N_ (Ifno skip to C and continue) A. Does your power plant have a a heat recovery system? B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No ~~ C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators. k Model ut > Gen # | Make ae (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: a ~ ¢ LM « T™ eae ain, 1 oO?) ' ' Sait via \ . \ x WE OWE | Y Lanter Kalst AG Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ea AEA Heat Recovery Case Study Community Questionnaire - ¥ j Evaluator: Community/Utility: fy Contact name: N\aek e Sas VN Contact number:_S(o0S - 5 \3/ (g A. Does your power plant have a heat recovery system? Y N _ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments J Yes | No C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No r 1 D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments | Clinic [ Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) |_| |_| F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make cane (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): _ - AEA Heat Recovery Case Study Community Questionnaire Community/Utility: VVeKar 4 Gletan a rand Contact name: {Y\aeK MeuArn A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) Evaluator: Contact number:_S(o5 -\S.3/ lp B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No | C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) a Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg F. Does the system have an energy meter to record the recovered heat provided? Y N (Indicate the appropriate number in the rank column — add comments if not working or not feasible) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) ia AC (OBS1 | £00 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_((\WQco - AvEC Evaluator: Contact name:_{)\Aek Wyereears Contact number: 45 (05-5. 3//o = : A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? interest in the community to have a working heat recov. system? Y N (blank for no answer) E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) / 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators # | Maki Model a > Gea ake oe (1200, 1800) | Individual Radiators, Piped Manifold) 2, (Ua 33 0lp ¢ Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): - AEA Heat Recovery Case Study Community Questionnaire Community/Utility: ‘ - Whee Evaluator: Contact name: rae / Contact number:.5 (a5 - SAL lp Jy i Y N_ (lIfno skip to C and continue) A. Does your power plant have a heat recovery system? B. Does the power plant heat recovery equipment work? Y N Comments Answer Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Comments Answer | Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) [ End User Building Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) Rank # | Comments F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators Gen # | Make itatiel (1200, 1800) renin Satie tes Piped Manifold) |b Cat 3419 0 3 ex | s3¢S(p [400 a Vat Sod (200 5st Meu 19VI000 | £00 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Ye. Jews, eae - KUEC — Contact name: Mae ewer \ ~~ A. Does your power plant have a heat recovery system? Evaluator: weg Contact number: Bs Y N (ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N ! Answer | Comments Yes No C. Is there L interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Comment: Hi ents E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments | Clinic Water Treatment Plant Washeteria School Community Bldg il Other Bldg _ (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) ( CMs Qshi5G9 1800 7 A Ser omg] 1400 en MNS LTAIO 1 $00 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0 None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: \Di at puke - Aved Contact name:_)) \AgK Beuan Evaluator: Contact number:_9 (95 = S41 le QJ cs A. Does your power plant have a heat recovery system? Y WN) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? TIprkerkie Ceram Taksaok. Beau E. What buildings are connected and do they réCeive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic q Poured Plank is in Teksook Ba, Water Treatment Plant q Washeteria q School Y Community Bldg u Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen# | Make moues (1200, 1800) | Individual Radiators, Piped Manifold) \ Peg PALIOa | §a0 % 2 DO. Sexisaored4 | 1 200 3 ms (TAIN 1ACOL 12.00 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ©) AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Doak ak - AVEC Contact name:_{\\ av ld Benen A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) Evaluator: Contact number: S03 > 3.3) Lp B. Does the power plant heat recovery equipment work? Y N | Answer | Comments Yes | No C. Is there interest in the community to have a working heat recov. system? Y N _ (blank for no answer) Comments Answer | Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # Comments Clinic | Water Treatment Plant Washeteria $— School Community Bldg |. Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make Model (1200, 1800) | Individual Radiators, Piped Manifold) yy OD See O one S 1800 Y Cmns QSx 1549 L800 ‘S ons KTA L150 fm aele Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Community/Utility: Noocvile AEA Heat Recovery Case Study Community Questionnaire Contact name: Evaluator: Brion Gray _ Contact number: A. Does your power plant have a heat recovery system? Y ® (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? Plank rewete Fron Poventiok end veers, No geod revtes Lor asctic Pipe_ E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic A Water Treatment Plant + Washeteria School 4 Community Bldg a Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y ®&) G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen # Make Model Gen RPM (1200, 1800) Cooling System (Skid Radiators, Individual Radiators, Piped Manifold) Individval lediators ‘et oe at V Evaluator Comments on Potential for Heat Recovery in the Community: The Power plant is Sar Away from buildings hel could bse heat. Tooting very di fF colt. ‘Feces aud ea make arctic ee Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): { AEA Heat Recovery Case Study Community Questionnaire Community/Utility: (UX Ako - WUE Contact name: Marek A. Does your power plant have a heat recovery system? Dewan Y Evaluator: Contact number:_% “ N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works connected - heat recovery does not work (reason / comments) 2» 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic | Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators Gen # | Make Motel (1200, 1800) Tadividhal Radiators, Piped Manifold) ] ems KTALUSO {800 a OD SERCO DDE A! fe JO | GMs KTAMSO 1900 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Community/Utility: °\\ 0 AEA Heat Recovery Case Study Community Questionnaire “ Contact name: {Y \pg iS Rewer \ ; —) : A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) C Evaluator: Contact number: 4(o5- 4.3/dp B. Does the power plant heat recovery equipment work? Y N Answer Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) Comments 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Clinic Building Water Treatment Plant Rank # | Comments School Washeteria Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooli i i Gen # | Make bdedet (1200, 1800) Individual Radiators, Piped Mas fold) | OMS KTAILIO 1 £00 ru Uns Qsxis Ad [£00 3 [po feemaanend | Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): a AEA Heat Recovery Case Study Community Questionnaire Community/Utility:; Qo ainna ak > \e Evaluator: \ ~ = Contact name:_{i\aeKk Peres y Contact number:_ (oS - S.3/(> A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N [ Answer | Comments T Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic | ft Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators Gen | Muke Moar (1200, 1800) nota ean Piped Manifold) { ems KTAMSO [90D | 2 | DO Seeonreny | < 3 CMS KTALLSO 1800 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: es Aveda Evaluator: Contact name:_(Y ae ewan Contact number: 5(05 - A. Does your power plant have a a teat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators k Model a > Gen # | Make oe (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility:_ Qe. {Y\ae A= QUEL Evaluator: : : <= = Contact name:_{) |ARK Gen AN Contact number:_Slo5 - S.3/ la A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? interest in the community to have a working heat recov. system? Y N (blank for no answer) E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building | Rank # | Comments. Clinic Water Treatment Plant | Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make —_ (1200, 1800) | Individual Radiators, Piped Manifold) 1 Evaluator Comments on Potential for Heat Recovery in the Community: Crstwe Wear ME (Ou Ey SyoTEVS, NEEDS uP Grades Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate,43Good, 5=Excellent): _ U AEA Heat Recovery Case Study Community Questionnaire Evaluator: Community/Utility:_= Contact name:_{V ks a Contact number:_{3 A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make —_ (1200, 1800) | Individual Radiators, Piped Manifold) | Crs LTA\O L800 Z wo Seeronrrral 1 800 | es OC, SERIO Ye 2 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Saunone a = ved _ Evaluator: Contact name:_(Y\aek Ce ae Y Contact number: Slo = “SJ Alp Y N_ (l[fno skip to C and continue) A. Does your power plant have a heat recovery system? B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there Answer | Comments res No D. Do you know of any issues that would prevent a recovered heat system from being constructed? interest in the community to have a working heat recov. system? Y N (blank for no answer) E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make poe (1200, 1800) a Piped Manifold) { Gms Kreilso 1 £00 2 Ams KT As9 Gy (£00 3 (D ERIC pond g 4 Or eB PETAL 140 LIAO Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: GOrcococ\ Cau .- WUE@ Evaluator: Contact name:_(Y \Ae Ceaser \ Contact number; “5: A. Does your power plant have a ‘heat recovery system? Y N_ (Ifno skip to C and continue) Peed = 1 B. Does the power plant heat recovery equipment work? Y N Answer | Comments ] Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make stint (1200, 1800) ede Piped Manifold) I Do S ONECY| 1 FO a Orns KIBUSO LOO, 1 MO S€e(ao one hy —| Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): i AEA Heat Recovery Case Study Community Questionnaire Community/Utility: eer kee i vet Evaluator: Contact name: |) \ARK Woesary Contact number: 5-5. A. Does your power plant have a heat recovery system? WD N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? (Y) N Answer | Comments Neo Aaod/ 5 No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic q Water Treatment Plant i Washeteria - School 3 (WoT? Uses al Anailaole Heat Community Bldg Y Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make aie (1200, 1800) | Individual Radiators, Piped Manifold) DO Seeica onety | {600 Wank fara 7. ms Sx 15 G4 | 1800 | 3 AMS KTA3 41800 | ¢ 600 v Evaluator Comments on Potential for Heat Recovery in the Community: Eleorert Oniler/ Woind - NE) Kear (e Couey SySTEi 004 Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): (— AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Qocoelise = AveC Evaluator: Contact name: (Y\aek a an Contact number:_S(0~ 5 3liz A. Does your power plant have a heat recovery system? Y ) (If no skip to C and cxmniiarie) B. Does the power plant heat recovery equipment work? Y N ' Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes its ip D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) icin User Building Rank # | Comments Clinic . Water Treatment Plant [ tT Washeteria u School u Community Bldg yf Other Bldg | (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators # | Maki Model a > = aad owe (1200, 1800) | Individual Radiators, Piped Manifold) L Evaluator Comments on Potential for Heat Recovery in the Community: You Wwe Pwd Re mots fL0-™ Bull Dw) Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): O- AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Sink ook kK - A 2€.0 Contact name:_/V) ARK Beuan Evaluator: Contact number: (oS ~ SS) lo A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No ] C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) | End User Building Rank # | Comments | | | Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: (Indicate the appropriate number in the rank column — add comments if not working or not feasible) Gen # | Make aa Model Gen RPM (1200, 1800) Cooling System (Skid Radiators, Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Drisinonsee’ - AVEC Contact name:_(Y\ weld Sevan A. Does your power plant have a heat recove Evaluator: Contact number: S(a3- 9.3/ ry system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C_ Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) [ Answer Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400° of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End Use r Building Rank # [Comments Clinic Water Treatment Plant a School Washeteria Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AE A database) and radiators: Gen RPM Cooling System (Skid Radiators. Gen # | Make Mousl (1200, 1800) Be arn aciateee Piped Manifold) | OO Keeoinety| * a Wak 9353. 1200. 3 | ms Ka iboo | 1400 4 Wines KTALSO 1800 Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0 =None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Siu uno wa — AVEC Evaluator: Contact name:_{Y \ark Arguan Contact number:_“j {o> 3ila A. Does your power plant have a heat recovery system? w N_ (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y (®) : Answer | Comments | | Yes iL No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes L No | D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1,2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic U | Water Treatment Plant [ | Washeteria School _| Community Bldg | Y Other Bldg the rank column — add comments if not working or not feasible) (Indicate the appropriate number in F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: GenRPM _ | Cooling System (Skid Radiators k del i 2 Gen | Make nino (1200, 1800) | Individual Radiators, Piped Manifold) { SD (oto! F AE (£00 2 pt 340tp B ¢ 2 OD Bee woot | 1 £00 5 Cm KTAULSO { 00 Evaluator Comments on Potential for Heat Recovery in the Community: = | nr . - » Lyistime KPA ECO Fey SyoT km NOT OPERATING Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): Y AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Dec oi ns - wuvEt Evaluator: Contact name:_{Y\aek Peer. Contact number: S (05 - “34/6 A. Does your power plant have a heat recovery system? Y (N) (If no skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y QW) (blank for no answer Ss Answer | Comments Yes (No) Trreebie ey" es 5 rf D. Do you know of any issues that would prevent a recovered heat system from being constructed? Povoe® Plants is Remake E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic q Water Treatment Plant uy Washeteria y School q Community Bldg U Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gens | Make matt (1200, 1800) | Individual Radiators, Piped Manifold) a HE KTAILSO | 1200 Zh OMS KrA ISO 1200 3 ames LTAIO LEO) 1 OO Evaluator Comments on Potential for Heat Recovery in the Community: PowFpe Plast 1s Remote Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): C ) AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Too; At - A VEC Evaluator: , Ji. - _ Contact name:_{\ yar K Woe Ay \ Contact number:_9(05 -.5 Alp A. Does your power plant have a heat recovery system? &@ N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? &) N Answer | Comments Yes No LL C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) | End User Building Rank # | Comments Clinic LL Water Treatment Plant | Washeteria School Uy Community Bldg [ Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make idol (1200, 1800) feats Raiaties Piped Manifold) 5 Cans Qsxrt@49 g 3 Apt 344 14 L400 “4 Ams KTA32 1800 Evaluator Comments on Potential for Heat Recovery in the Community: WOTIN'S Hes \E COUERY SY OTE WA. Nt Poke jl Ne IS ies Math Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ={- AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Tak sook Bon - Wwe Evaluator: Contact name: Maer Bauer Contact number:_S (oS = 3.3 {tp A. Does your power plant have a heat recovery system? wy N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No I C. Is there interest in the community to have a working heat recov. system? Y N_ (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators Gen # | Make eaten (1200, 1800) eee Piped Manifold) DD Deerooner 4 | 1 800 2. Cars Asx I 44 L800 = YAVT LA IQ fa 5 [800 Evaluator Comments on Potential for Heat Recovery in the Community: NEW Pope pur’ Al$o _INITFY Ti)kED TO VloHTMOTE Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): 5 AEA Heat Recovery Case Study Community Questionnaire Community/Utility: Tun cet - AVEC Evaluator: @ Contact name:_{\ \Pi2 AHeuan Contact number: S(05- SAilp J A. Does your power plant have a heat recovery system? Y N_ (Ifno skip to C and continue) B. Does the power plant heat recovery equipment work? Y N Answer | Comments Yes No C. Is there interest in the community to have a working heat recov. system? Y N (blank for no answer) Answer | Comments Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # {| Comments © Clinic Water Treatment Plant Washeteria School Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, Gen # | Make oe (1200, 1800) | Individual Radiators, Piped Manifold) Evaluator Comments on Potential for Heat Recovery in the Community: Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): AEA Heat Recovery Case Study Community Questionnaire Community/Utility:\ Lope gz Ka aa = Aves. Evaluator: Contact name: (Kary ? SEias a Contact number: SloS- D3! 2 Y N (ifno skip to C and continue) A. Does your power plant have a heat recovery system’ B. Does the power plant heat recovery equipment work? Y N Answer | Comments | Yes No C. Is there interest in the co mmunity to have a working heat recov. system? Y N (blank for no answer) Answer | Comments | Yes No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400° of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # ae Clinic | Water Treatment Plant Washeteria School Community Bldg Other Bldg _ (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N shown in AEA database) and radiators: +- G. Describe the power plant generators (if different than Gen RPM Cooling System (Skid Radiators Gen # | Make Model (1200, 1800) Pai aces Piped Manifold) 7 [ovo 8 iy | 1900 1 2 | Do {See ones of ! ee ey (\ UNS s AY l © Evaluator Comments on Potential for Heat Recovery in the Community: NE Po ) gz Pla iS ice MATE. Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent): ( ‘) AEA Heat Recovery Case Study Community Questionnaire Community/Utility: \W \\ ¢ .- Wel Contact name:_{V\pi2k Be A PAS A. Does your power plant have a heat recovery system? ) N_ (If no skip to C and continue) Evaluator: Contact number:_S (05-9 Ailo B. Does the power plant heat recovery equipment work? Y (N) Answer | Comments Yes (No, Wind Elestera Do MO Load = Cork ras iSSULES C. Is there interest in the community to have a working heat recov. system? YY) N (blank for no answer ~ Answer | Comments Wes) No D. Do you know of any issues that would prevent a recovered heat system from being constructed? E. What buildings are connected and do they receive heat? (1, 2) What buildings have potential? (3, 4) 1. connected - heat recovery works 2. connected - heat recovery does not work (reason / comments) 3. not connected — bldg is within 400’ of power plant (has potential) 4. not connected — bldg is further than 400’ from power plant (poor potential) End User Building Rank # | Comments Clinic Water Treatment Plant as Washeteria School 2 Community Bldg Other Bldg (Indicate the appropriate number in the rank column — add comments if not working or not feasible) F. Does the system have an energy meter to record the recovered heat provided? Y N G. Describe the power plant generators (if different than shown in AEA database) and radiators: Gen RPM Cooling System (Skid Radiators, ete ee Model | 4200, 1800) | Individual Radiators, Piped Manifold) Uns TA 19 MOD) 1200 rp AG 4500 2 3 Cape LTA 1A | 1250 Evaluator Comments on Potential for Heat Recovery in the Community: f? Lind VRmeit - Weeds ‘ix Sa iva ~ I Community Scoring: Potential (0=None, 1=Poor, 2=Low, 3=Moderate, 4=Good, 5=Excellent):