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Manokotak Waste Heat Design Notes, & Drawings 1990
Southwest Region School District PO, Box 9O Dillingham, Alaska 99576 Project!’ MANOKOTAK WASTE HEAT RECAPTURE PROJECT State of Alaska Alaska Energy Authority P.O. Box 190869 701 East Tudor Road Anchorage, Alaska 99519-0869 Date: July 1990 SITE PLAN ‘SCALE: 1" =50" (APPROX) LEGEND —$ ATE er cm wt STRAINER A CHER VALE. FR pressune neuer vive bh or—p— —_—ECCENTRIC REDUCER As Re rPE TET BUTTERFLY VALVE TEMPERATURE SENSOR AUTOMATIC AR VENT W/ ISOLATION VALVE THERMOMETER DIAL TYPE THERMOMETER PRESSURE GAGE PRESSURE/TEMPERATURE GAGE NOTES: 1. BURY WASTE HEAT PIPING A MINIMUM OF 2 1/2 FT. 2, USE ORIGINAL NON—ORGANIC EXCAVATED MATERIAL TO BACKFILL OVER WASTE HEAT PIPING. 3. INSTALL FOAM PADS TO ALLOW FOR EXPANSION AT ALL BURIED WASTE HEAT PIPING ELBOWS. 4. ALL PIPE SECTIONS SHOWN ARE STRAIGHT UNLESS OTHERWISE NOTED. 3. VERIFY LOCATIONS OF EXISTING WATER AND SEWER SERVE UNES BEFORE BEGINING WASTE HEAT PIPWO P.O, 701" East Tudor ‘Aosko ~y Alaska. nergy, tee moriy Anchorage, Alaska 99519-0869 AS-BUILT 26 1. 1998 rolect_ ~MANOKOTAK WASTE RECAPTURE PROJECT HEAT Title WASTE MEAT PIPING SITE PLAN ee eres REA No. ur sae mavexor mews sre | _ ss sc [ba REMOVE RADIATOR FROM DETROIT GENERATOR SET AND MOVE OUT TO THE NEW PLATFORM | NEW RADIATOR 318 Kw GENERATOR 150 KW CATERPILLAR, GENERATOR, L pay TANK z I rf ie \/ SCALE: 1/Z'=1'=-0" RADIATOR FROM DETROIT GENERATOR a POWER PLANT PIPING SCHEMATIC NOT TO SCALE q MANOKOTAK POWER PLANT FLOOR PLAN it 1 iL dt PLE Nae Matonor2: — NEW PoRT 5 3 COOLANT TO AMOT VALVE HEAT EXCHANGER CONNECTIONS — AS-BUILT Deo. 14, 1000 of Alosko Alaska, nergy Authority a J 701 East Tudor Rood Anchorage, Alaska 99519-0869 Project MANOKOTAK WASTE HEAT | RECAPTURE PROJECT mie: POWER PLANT FLOOR PLAN (& PIPING SCHEMATICS | [owen Gc [orwne REA We. | ecered j= ss soon | 2 4 4 + EE PIPING SCHEMATIC ON THIS SHEET / an HOT WATER O HEATER 2 HI \/ x 1\ _— Uke-ve | | | { BU pte MANOKOTAK MECHANICAL ROOM FLOOR PLAN SCALE: 1/8 = 1 Oo — SCHOOL HEAT EXCHANGER CONNECTIONS — PROPOSED 3-WAY VALVE, NOTES: 1, CONTROL VALVE, Cv1, IS & TWO POSITION 3-WAY ELECTRICALLY OPERATED VALVE. ee ee a ie 2, CV1_IS CONTROLLED BY TEMPERATURE SENSORS S1 nay sPaen? ‘AND S2. AS LONG AS S1 SENSES A TEMPERATURE GREATER THAN S2 THE VALVE, CV1, SHALL BE IN ITS NORMALLY OPEN POSMON. iF S1 "SENSES A TEMPERATURE LESS THAN S2 THE VALVE, CVI, SHALL GO TO THE FULL BYPASS POSITION. 3. THE WASTE HEAT CIRCULATING PUMP IS TO BE AS-BUILT 2u7r a TO ‘DEC, 14 1990 aie suspty Frou | PoweRHOUSE Sigte of Aone By Alaska Energy “Authority Project MANOKOTAK WASTE HEAT RECAPTURE PROJECT Title POWER PLANT FLOOR PLAN & PIPING SCHEMATICS. NGC [rors REA Ne. estes SHOWN Seer wut sd et Se | SCHOOL PIPING SCHEMATIC SCALE: NONE: POWER PLANT ELEVATION VIEW SOME: 1/7 = 1-0 STEEL ore, 10 oumerer Hel avendl GudRetE Poors | PLATFORM_PLAN_ VIEW SCALE: 1/2 =1°-0" Jf DIAMOND PLATE DECK AS-BUILT DEC. 14, 1990 of Alaska Alaska, Energy “Authority 701 East Tudor Rood Anchorage, Alaska 99519-0869 Crapeet MANOKOTAK WASTE HEAT RECAPTURE PROJECT Title RADIATOR PLATFORM DETAILS en — Ge owes REA We, FILE Nan Mare pe PB [Seas Soe Ne. Pevision [Set 17-07-90) Sheet, 4 of [ | 4g, 2.80% ue ar LEGEND | \ —pg—— oa ne — arin ae | \ er ers coma moe | DP _amnesnn | TT ems SS ee te EES LETH Te ete y enone 4 4 a Q oa re remouern / A, Het EEE PRESSURE REUEF VALVE PSs tet PRESSURE GAGE / : a Trane Ti Va a a ECCENTRIC REDUCER ‘SEWER OVERFLOW \ NOTES: 1. BURY WASTE HEAT PIPING A MINIMUM OF 2.1/2 FT 2. USE ORGINAL NON-ORGANIC EXCAVATED MATERIAL TO BACKFLL OVER WASTE HEAT PrPmG. 3. INSTALL FOAM PADS TO ALLOW FOR EXPANSION AT ALL BURED WASTE HEAT PIPING ELBOWS. 4 ALL PIPE SECTIONS SHOWN ARE STRAIGHT UNLESS OTHERWISE NOTED. S_VERIFY LOCATIONS OF EXISTING WATER ANO SEWER SERVICE UNES BEFORE BEGINNING WASTE HEAT PRAING EXCAWATION, P.0. Box 190889 701 fest Tudor Roos Mowe 98319-0869 — Pret’ = MANOKOTAK WASTE HEAT RECAPTURE PROJECT Aloska “Energy “Authority Tite WASTE MEAT PIPING SITE PLAN = a EIA We. Sapa e—h n Resear ae Brean olsen a ot 2] i pera I tei Ba Alosko Energy Authority P.O. Bex 190869 701 fest Tudor Rood zeae == 7 aa I i T T T T a Zz — Sy ee I I L I Th td | as o—~_/ Ie ‘wc REWOVE RADIATORS: 300 8 318.108 FROu Nese erie coveron cenemron Cinention = o = ARCTIC PIPE SUPPLY MSfctinn Does To — SCHOOL. SEE SHEET 1 q ae WZLZZLZZ ZZ z I IZZZZ ASS oA MANOKOTAK POWER PLANT FLOOR PLAN ! | ! SOME 1/Ta1-o a ad mouton FRow We UOUTOR SemT cexeharon y [ 2 (TYPKA) 1S aL 21/7 suPPL = a ae as . For 0 Faces Drones ro « as 2), RETURN: PORT 3 ye NX fut OEE 7 z 2 oo 5 coouat Ze fo SO ae r rs I r WANE — NEW HEAT EXCHANGER CONNECTIONS — am vents. 41 Mn"Pomrg otter 3/6 cose wave Cc Anchoroge, Atowma 99519-0868 Project ~MANOKOTAK WASTE HEAT : RECAPTURE PROJECT “pear POWER PLANT PIPING SCHEMATIC Ix NOT TO SCALE om ane fo can Reveos By bens] TBS is aun Sd Shoe a SCHOOL PIPING SCHEMATIC Hp < Hor waTeR | eR |) |leoner HeaTIR ca ‘ i 5 Ht C \F MANOKOTAK MECHANICAL ROOM FLOOR PLAN MAE I/F =o - SCHOOL HEAT EXCHANGER CONNECTIONS — noes: 1. CONTROL WAVE, CVI. 1 A TWO POSTION 3-mAY EUECTRCALLY OPERATED VALVE. Authorit eae Rood ed 701 East T Ancroroge, , Mowe 99519-0808 AE NONE Project MANOKOTAK WASTE HEAT RECAPTURE PROJECT Tate POWER PLANT FLOOR PLAN PIPING SCHEMATICS oe KEK fe. [mom peg [AS SHOW Br beso con 2 2 Ee POWER PLANT ELEVATION VIEW SAE: 1/7= 1-0 SEE OTL C SEE DTL 0 i > 1/T BOLT { 4 z 4 on ‘3 ‘IL-7 ‘SIL Ww SuSE Borne ~ /———- 1. PLATFORM _PLAN_VIEW SEE OT. 8 ONE: T= { = ot Nonke Aloska, Energ "Authority 701 ten use hoes eS Proiet MANOKOTAK WASTE HEAT RECAPTURE PROJECT PLATFORM VATION VIEW. Tile RADIATOR PLATFORM DETAILS SCE: 1/7 =1-F [Breen NGC erent REA Ne. foecigres RG [SO As Show eae Ression [ay heralomewe [oe 7-07=0d srewt tt 4] 1/® DUMOND BACK DETAIL _B SAE = 21/T X21/T x 1/6 ANGE BEAM ArT FLAT CORNER m7 DETAIL_C ET =F POWER PLANT 90 ELBOW UP AT BUILDING ENTRY RST STREET perdh A Anni TWO 2 1/2” ARCTIC PIPES (SUPPLY & RETURN) WRAP ALL ARCTIC PIPING } BURIED IN FIRST STREET [47 WITH PLASTIC FILM NOTES: 1, BURY WASTE HEAT PIPING A MINIMUM OF 2 1/2 FT. 2. USE ORIGINAL NON—ORGANIC EXCAVATED MATERIAL TO BACKFILL OVER WASTE HEAT PIPING. 3. INSTALL FOAM PADS TO ALLOW FOR EXPANSION AT ALL BURIED WASTE HEAT PIPING ELBOWS. 4. ALL PIPE SECTIONS SHOWN ARE STRAIGHT UNLESS OTHERWISE NOTED. —_> E 8 < Vl E-JOINT ET 39 FT. SECTIONS OF ARCTIC PIPING | td CURVED TO 125 FT. RADIUS |e | 5. VERIFY LOCATIONS OF EXISTING WATER AND SEWER ~ SERVICE LINES BEFORE BEGINNING WASTE HEAT PIPING ~~~. 8 EXCAVATION. ~~ 3 lif; | | SALMON STREET 39 FT. SECTIONS OF ARCTIC PIPING WITH 8 FT. LEFT STRAIGHT AND 31 FT. CURVED TO 99 FT. RADIUS 39 FT. SECTIONS OF ARCTIC PIPING CURVED TO 150 FT. RADIUS 90 ELBOW UP AT BUILDING ENTRY 4 MANOKOTAK_ SITE PLAN SCALE: 1"=100' (APPROX.) nes + aa - : +~ 1 t+ f | j \ | | | } i | | } ' fy | eeu a ew [ oe Pp Pott er a T_T 7 j 4 i { i | | LL [ : | 1 r 7 | ji | 4 { 1 - | | | i | | L eee L pit | | — — SS 4 ! 3 | | rie | | | i = 7 _ 7 a ~ | eae |_| | LTT © oy | = oe Li ia Litt a i Pee ee | [| | : | | 1 “Tr TY 0 a T * 77 =r = 7 jetted Epp 2)F [ : I | ) 5 | r| ja | | | 7 a tt ttt te | \ J | | | fo} tt { \ 8a i 4 - T +] : T | | T t Tis nr Lo ti [. | “! | at po 4-2 = W + a Seon = {ieee Sumene Ones et = i { D ; y | 4 | yf jf 4 ff tf | 7 | | | | | | T 1 } aft oe { | __ a —_— mes 4 i } | 1 mihi === S Ot : | | poet | at got | [i rtf [ | | : oo | : RRP rer eee | | | t 1 pte et eaten eit dante | | ' | J | THe | CLARE Porte | | | tT | | | | + | | | | if pot a og S 8 ee [uy \y ae J | | | | | oO 2 \ jit een \ oe Shere —j— p. e Ts Ts hy a T jot att 1 | < O| rt yO = = g et — 1 fan tt tt WW 4 pest | | [ Performance Curves UMC 50-40 Single Phase HOTT T SINGLE PHASE | > ‘Speed 1 1080 RPM|+ +1] Speed 2 1390 RPM tt[ Speed 3. 1600 RPM}+ ,50 Hz — Single and Th UMC 50-80 Single Phase Phase Models) UPC 50-160 Single Phase TOP EET Ee SINGLE PHASE ‘Speed 1 2040 RPM Speed 2 2620 RPM Ht Speed 3 3110 RPM T T HEAD (Ft) HEAD (Ft.) HEAD (Ft.) 7 {83 } reel tH tH Pot 2 0 4 a ae CAPACITY (US GPM) 0 10 MINIMUM INLET PRESSURE” FLUID TEMPERATURE 167°F (75°C) eaes 0 10 20 3 40 50 6 70 8 90 100 110 CAPACITY (US GPM) UMC 50-80 Three Phase THREE PHASE Speed 1 810 RPM * Speed 2 1380 RPM} ~ Speed 3 1700 RPM[~ 2 2 = z Q6 2 y a = = 0 10 0 32 40 3 6 70 80 9 100 110 CAPACITY (US GPM) MINIMUM INLET PRESSURE* FLUID TEMPERATURE 194°F 250°F (90°C) (121°C) 13.2Ft 54.2Ft 4.0M 16.5M 5.7PSI 23.5PS! puns S588 Ht tt TTT 0 11.5Ft 23.0Ft ” 64.0Ft 3.5M .OM 19.5M 5.0PSt__| = 10.0PSI" 27.7PSI 10 2 w CAPACITY (US GPM) UPC 50-160 Three Phase EH Ts CAPACITY (US GPM) MINIMUM INLET PRESSURE” FLUID TEMPERATURE 40 50 60 70 80 9 100 110 TL THREE PHASE [| it be 0 0 BM DW 0 50 & 70 80 9 100 110 "250°F (121°C) * Minimum gauge pressure required at the inlet (suction) to insure effective, trouble-free operation. Varies by fluid temperature. Construction Materials Stainless Steel (AISI 430F) Stainless Steel (AISI 304) Shaft Impeller, Impeller Seal Ring, Bearing Plate, Rotor Can, Bearing Aluminum Oxide Ceram Retainers, Rotor Impeller, Rotor Castiron Cladding, Split Cone, Split Cone Bronze Nut EPDM Aluminum Stator Housing Copper or Brass Tungsten Carbide Shaft Bearing Surfaces Advanced Composite ic Metal-Impregnated Carbon Upper and Lower Radial Bearings Thrust Bearing Pump Housing Optional Pump Housing O-Rings, Gaskets Rotor End Caps Terminal Box GRUNDFOS ci GRUNDFOS PUMPS CORPORATION / 2555 CLOVIS AVE. / CLOVIS, CA 93612 / USA / (209) 292-8000 / TELEX: 35-5353 L-200-TL-OS0 1/27/87, PRINTED IN USA Ox ‘lug Each pump model has _ three performance curves for Speeds ©, @, and ® ~~ MHead terete edict I t + | PumP dure o —t 7A Tous! SHI 40 TA =7 ¥ 6A- a | t ae ce ese elt etd et planers ph t | | | nile De \ 26 : ee MT rT 33 Tug SH ") } PvE | | L WE S12 . Vert + ; Gk oe ttti tty 4 3 =t | C _ - Coa ane To -—o EEE Cr He ph | Sh a a ee Sah eo ! | | j | | j 1 | | | 4 joj oj ff} fy = \ - T T | to escee peor i B'S vary colteeuaT Ve) —-—f ltt 2 Tr = ae +—+ oe nee | = roe i thie AN l, ipel-e ann . | | io icelaet dh ela entaeteatachei ats mh | oe ers Zap Act | = | z ETS ow BL mec. we | _l€ (Fl =| LIZ Use morte ' * Young -TANDARD MWC + hnical data TABLE 3 rT Btu) [DERATE| yy | oy | POWER | TIP SPEED | ROTATION | dB(A) @ |REMOTE| EXTERNAL ‘mime sc | 10%. | MIN. | MAK 7 is opm | 28 Bm] eal | | REMOTE 2602 | 2662 | 65 2060 | 22 14] 63 39230 145 21. 56.0 | 1750 76 |g 30| 350 1600 |= | 263 | 75 2370 [(11)(0.7)| (30) (1.9) | (110) (6.9) 32. 65.0 | 2034 al 4602 | 46€2 | 95 3000 |28 18 | 80 51 | 290 183 21. 63.0 | 1750 78 | 4, a1] 450 2000 | -— | 4663 | 100 3200 |(14)(0.9) | (40) (2:5) |(150) (9.5) 32 72.0 | 2000 83 6603 | 66€3 | 130 4100 |36 23 {100 63 | 360 227 3 22 - 83 6605 | 66E5 | 170 5400 |(18)(1-1) | (50) (3.2) |(180)(11.4) 5 3.7 | 14660 74.5 | 1750 a5 _| 14 53| 600 2700 a6D5 | 86E5 | 215 6800 re 5) 37 88 g6p7 | 86€7 | 245 7800 | 42 27/115 7.3| 420 265 7.5 56| 16490 838 | 1750 90 | 20 76| 950 4200 geplo | s6Elo | 270 8600 10 75 _ 31 10607 | 106E7 | 295 9400 75 56 12750 64.8 | 1160 82 | 93 87/1150 teenie | yoseig | 319 9000 | 7 30/190 82 hia 12 73 | doom cea] ase |B 2 5100 12eD10 | 1ZeEIO | 368 Hepp | 50 3.1140 88| S00 315 10 75 | 14580 74.1 | 1160 ge | 26 98/1350 6000 fee eT Tow nolo ol Se GL g 4 000 19. 11: 1S6V15 | 156E15 | 485 19400 | > 3.8 | 160 10.0| 550 348| 42000 212/20 15 | 15000 76.2) 1060 8% | 32 120/2300 10200 156V25 | 156E25 | 560 17700 49000 23.2| 25 19 9 206vis | 206E15 | 550 17400 46000. 21.715 112 88 206V20 | 20620 | 600 19000 | 63 4| 170 108 | 630 40.0| Shr) Seo| 95 Jo | 15000 762| 950 83 | 40 150|2600 11600 206v30 | 206E30 | 680 21500 59000 27.9| 30 22 91 256v20 | 256E20 | 710 22400 59000 279] 20 15 88 25625 | 25625 | 760 24100 | 79 4.4 | 200 12.6| 690 435] aor 3o1| 30 22 | 15000 762| 840 83 | 48 180|2900 12900 256v40 | 256640 | 860 27000 74000 35.0| 40 30 91 356V25 | 356E25 | 940 30000 79000 37.3|25 19 89 356V30 | 356E30 | 1000 32000 | ay 5.1 | 230 14.5 | 810 51.2| $4009 agg | ao 30 | 196590 795| 738 3 | 65 250| 4000 17800 356V50 | 356650 | 1170 37000 101000 _47.7| 50_37 92 NOTE A: STANDARD MWC will operate on 3-50Hz-380V elec- tricity. CAPACITY FACTOR is reduced by 15%, AIR FLOW by 20%, POWER by 40%, ROTATION by 17% and SOUND LEVEL by 5 dB(A). NOTE B: NOTE C: piped for two pass water flow. NOTE D: Tip speed for series 106, Type E is shown in paren- theses. Motors are totally enclosed 3G-60Hz-230/460V. 200V and 575V are optional. WATER FLOW figures in parentheses refer to units NOTE E: To estimate sound level at distance other than 25 feet 8 metres from radiator, add 6 dB(A) for each halving of distance or subtract 6 dB(A) for each doubling dis- NOTE F: NOTE G: tance. Subtract 5 dB(A) for observer above, bel side of radiator. These calculations based on zations of test data, it is for approximation only guaranteed. CAPACITY FACTOR, WATER FLOW and VOLUME are roughly proportioned by face “two circuit” variations of STANDARD MW suffix of “‘T’ and the “percent core area primary circuit” designates a “two circuit’ variation such as T60 in ‘model 256V15Q models are available with T40, T50, T60, and T83 splits. 1 J/s-C = 1 W/C = 0.00239 kcal/s-C weight (N) = mass (kg)/acceleration (9.8 m/: TABLE 4 WATER PRESSURE LOSS (with 50% EG @ 180F 82C)—psi kPa STANDARD WATER FLOW, gpm I/s series | 5032] 10063 | 150 95 | 200 126 | 250 15.8 | 300 19 | 350 22.1 | 400 26.2 | 450 28.4 | 500 31.5| 600 37.8 | 700 44.2 26 0.321 | 1.069 | 2.3159 | 4.0276 | 62428 | — — — = = = = 26-2P [0855 | 2819 = = = = = = = = = = 46 0.107 | 0641 | 12 63 | 22 15 | 33 23| 4833 = = = = = = 46-2P [0534| 19 13 | 40 28| — = = = = = = = = 66 0.107] 0534111 76|20 14| 31 21| 4430| 60 41| 7.7 53 = = = = 66-2P [04 28| 15 10| 32 21 | 56 39 = — = = — = = = 86 0107) 0214|05 34] .09 62,15 10| 2115 | 28 19| 36 25/45 31/ 55 38 = = 106 0.107] 0214] 05 34|09 62114 10| 2014| 28 19| 34 25| 43 30/ 52 36 — = 126 0.1071] 0214105 34109 62|14 10| 1913 | 26 18| 34 24| 42 29/ 52 36) — = 156 — | 0214]05 34|08 55 |12 63| 1712|23 16| 30 21| 38 26[ 46 32) 66 46 = 206 —y0214] 04 28] 08 55|12 83| 1712| 23 16| 30 21| 38 26| 46 32| 66 46/89 62 256 = 0107105 34|]05 34|07 48| 10 7|14 10| 18 12| 22 15| 27 19| 39 27| 52 36 356 = 0107106 41 |05 34|07 48110 7|13 9| 17 12] 21 18| 26 18[ 37 26| 5.0 35 NOTE H: For 0% EG, multiply WATER PRESSURE LOSS by 0.8. For 120F 49C water multiply WATER PRESSURE LOSS by 1.2. NOTE J: Models with “-2P” suffix are piped for water flow. NOTE K: 1 psi=2.3 ft water; 1 kPa = 1000 N/m?=0.0 ee f 2? + fw Ta Sr07 a TYPE D Young «.AndaRD MWC di :nsions All dimensions are inches millimetres. Certified dimension drawings are availab| for installation. Fan guard screen conforms to OSHA. 15 psi 100 kPa pressure cap. Maximum operating pressure is 15 psi 1 kPa (35 psi 240 kPa if supplied less fil neck). Maximum operating temperature is 2 121C. FINISH — Single coat of grey, semi-gl enamel paint suitable for outdoor duty non-critical applications, and as a ba DIRECT | for subsequent coats for severe duty D extended life. DRIVE i | Vents and drains are ¥4"” NPT. Sos | - All connections are NPT. to4 i aaa! ae 4 ; ‘ a | } Special note for Models 26D through jp" C- r — ’ DM 9135 2 pass — use bottom tank for inlet Load L | Fig. 13 outlet. - - - . 1 pass — use top tank for inlet, manifol - “ - 2 15.9 LIAW6 bottom tank for outlet. fs WIG. MCLE (MODELS 26-66 ONLY) TABLE 7 Note: Connection size and location may be different for “two circuit” models. SERIES | A _| 8 c D E F 6 Hu 1 K L P R 26D | 31.00 787.4 | 35.25 895.4 | 10.00 254.0 | 17.62 447.7 |2.38 60.3 | 19.00 782.61 2.38 60.3| 2% | 24.00 609.6 | 1.50 38.1 | 14.75 374.6| 6.00 152.4 | 2.31 58.7 460 137.00 939.8 | 40.75 1035.0 | 12.00 304.8 | 20.62 523.9 |2.00 50.8 | 19.00 482.6 | 2.5063.5| 3 27.00 685.8 |1.50 38.1 |17.75 450.8| 6.00 152.4 | 3.12 79.4 | 9. GED 1 44.62 1133.5 | 48.25 1225.6 | 15.00 381.0 | 24.12 612.8 [2.50 63.5 | 20.25 514.4 | 2.50 63.5 3 | 32.00 812.8 | 1.50 38.1 |21.56 547.7 |_7.25 184.2 |3.12 79.4 B6p 150.81 1290.6 | 57.12 1451.0 | 18.00 457.2 | 29.00 736.6 | 2.62 66.7 | 27.75 704.8 | 3.50 88.9 4 | 36.00 914.4 |2.38 60.3 [24.66 626.3 | 14.75 374.6 |3.12 79.4 |9. To6D | 57.06 1449.4 | 63.12 1603.4 | 20.00 508.0 | 32.00 812.8 | 2.62 66.7 32.75 831.8 13.50 88.9| 4 | 42.00 1066.8 |2.38 60.3 |27.78 705.6 | 18.75 476.2 |3.12 79.4 I26p 159.56 1512.9 | 69.38 1762.1 | 20.00 508.0 | 34.62 879.5 |3.62 92.1 | 32.25 819.2 | 3.50 88.9 4 | 48.00 1019.2 |2.38 60.3 [29.03 737.4 | 22.25 565.2 |3.12 79.4 |9. DM 9134 Fig. 14 All dimensions are inches millimetres. H-capPeo 56143 . Certified dimension drawings are avail (FOR OUAL INLET \ _ —_c¢c—+ — for installation. MODELS 86-356 ONLY) = 4.00 Ta.00 - bH = RR pee 222 Fan guard screen conforms to OSHA. globe LL Lot 15 psi 100 kPa pressure cap. _¥ | _ Maximum operating pressure is 15 psi 1 7 — xr kPa (35 psi 240 kPa if supplied less fill = ~ neck). “Rorar a | offe Maximum operating temperature is T YPE | GUARD. 16 294 121C. : ry FINISH — Single coat of grey, semi-gl |__ ¥ SO. Key enamel paint suitable for outdoor duty E T F non-critical applications, and as a bi “a - ee coats for severe duty 7 c extended life. EXTERNAL [ Weer Vents and drains are va" NPT. DRIVE ane 1016 All connections are NPT. . Idler bearing may be mounted on eit side. (Jackscrew adjustment included 3 Models 156 through 356). _ bi Q ow-6 Special note for Models 26E through (woot 26-66 own MIG. HOLES 2 pass —use bottom tank for inlet [ outlet. ——_ 1 pass — use top tank for inlet, manif bottom tank for outlet. (MODELS 26-66 ONLY) TABLE 8 Note: Connection size and location may be different for “two circuit” models. SERIES A B c D E F G H j K L M 26E | 31.00 787.4| 35.25 895.4 | 10.00 254.0| 17.62 G47.7| 2.38 60.3| 21.00 533.4| 2.38 60.3| 2% 24.00 609.6 | 1.50 38.1 | 14.75 374.6 | 3.25 82.6 | 6. AGE | 37.00 939.8 | 40.75 1035.0| 12.00 304.8| 20.62 523.9] 2.00 50.8| 21.00 533.4] 2.50 63.5| 3 27.00 685.8 | 1.50 38.1| 17.75 450.8 | 3.25 82.6 | 6. 66E | 44.62 1133.5| 48.25 1225.6| 15.00 381.0] 24.12 612.8| 250 63.5| 21.00 533.4| 2.50 63.5| 3 32.00 812.8| 1.5038.1| 21.56 547.7 | 3.25 82.6 | 6. 86E | 50.81 1290.6 57.12 1451.0 | 18.00 457.2| 29.00 736.6| 2.62 66.7| 26.25 666.8| 3.50 88.9) 4 36.00 914.4] 2.3860.3| 24.66 626.3 [3.25 82.6 | 6. 106E | 57.06 1449.4 | 63.12 1603.4 | 20.00 508.0| 32.00 812.8| 2.62 66.7| 26.25 666.8| 3.50 88.9| 4 42.00 1066.8| 2.38 60.3| 27.78 705.6 | 3.25 82.6 | 6. 126E | 59.56 1512.9 | 69.38 1762.1 | 20.00 508.0 34.62 879.5| 3.62 92.1| 26.25 666.8| 3.50 88.9) 4 | 48.00 1219.2| 2.38 60.3 29.03 737.4 | 3.25 82.6 | 6: 156E | 71.12 1806.6 | 75.06 1906.6 | 24.00 609.6 37.50 952.5| 3.62 92.1| 30.75 781.0| 3.50 88.9 4 | 54.00 1371.6| 1.25 31.7| 34.31 871.5 | 4.38 111.1 | 9 206E | 75.00 1905.0 | 83.06 2109.8 | 26.00 660.4 41.00 1041.4| 4.62 117.5| 30.75 781.0| 3.50 88.9| 4 60.00 1524.0| 1.25 31.7| 36.25 920.8 | 4.38 111.1 | 9. 256E | 86.38 2193.9 | 91.06 2313.0 | 30.00 762.0 44.50 1130.3| 5.00 127.0] 30.75 781.0| 3.50 88.9| 5 | 68.001727.2| 1.25 31.7| 41.94 1065.2 | 4.38 111.1 | 9. 356E | 100.25 2546.4 |109.12 2771.8 | 36.00 914.4] 53.50 1358.9| 7.00 177.8| 30.75 781.0 4.88 123.8| 5 | 81.00 2057.4] 1.25 31.7| 48.62 1235.1 | 4.38 111.1 | 9 SERIES P Q R s T min T max Umin U max v w x 26E | 8.00 203.2| .62 15.9] 2.31 58.7 8.81 223.8 | 9.00 228.6 | 12.12 308.0 | 4.62 117.5 | 7.75 196.9] 1.44 36.5 | 4.50 114.3 | 4.25 108.0 | .. 46E | 8.00 203.2| .62 159] 3.12 79.4 9.62 244.5 | 8.75 222.2 | 14.00 355.6 4.62 117.5 | 9.88 250.8| 1.44 36.5 7.50 190.5 | 4.25 108.0 @6E | 8.00 203.2| .62 15.9] 3.12 79.4 9.62 244.5 | 9.00 228.6 | 16.38 415.9 | 4.62 117.5 | 12.00 304.8| 1.44 36.5 | 10.50 266.7 | 4.25 108.0 | - 86E | 13.25 336.6 | .62 15.9 |_ 3.12 79.4 | 9.62 244.5 | 8.50 215.9 | 17.00 431.8 | 4.62 117.5 | 13.12 333.4| 1.75 44.4 | 12.00 304.8 | 4.25 108.0 | - 106E | 13.25 336.6| .62 15.9| 3.12 79.4 9.62 244.5| 8.62 219.1 | 17.12 435.0 | 4.62 117.5 | 13.12 333.4] 1.75 44.4 | 12.00 304.8 | 4.25 108.0 126€ | 13.25 336.6] .62 15.9| 3.12 79.4| 9.62 244.5 | 8.62 219.1 | 18.12 460.4 4.62 117.5 | 14.12 358.8] 1.75 44.4 | 13.50 342.9 | 4.25 108.0 156E | 12.00 304.8] .75 19.0] 6.75 171.4 14.38 365.1 | 15.25 387.4 | 24.75 628.6 9.25 235.0 | 18.75 476.2| 2.19 55.6 | 13.50 342.9 | 4.50 114.3 | «: 206E | 12.00 304.8| .75 19.0] 6.75 171.4 | 14.38 365.1 | 15.25 387.4 | 26.88 682.6 | 9.25 235.0 | 20.88 530.2] 2.19 55.6 | 16.50 419.1| 4.50 114.3 256E | 12.00 304.8| .75 19.0| 6.75 171.4 14.38 365.1 | 16.00 406.4 | 27.62 701.7 9.25 235.0 20.88 530.2 | 2.19 55.6 | 16.50 419.1 4.50 114.3 1 356E | 12.00 304.8] .88 22.2] 6.75 171.4 14.38 365.1 | 15.25 387.4 29.00 736.6 | 9.25 235.0 | 23.00 584.2] 2.19 55.6 | 19.50 495.3 | 4.50 114.3 6 TY Air cleaner: Dry Type. Automatic Voltage Regulator: Regulation from no load to full load plus/minus 1%. Base: Fabricated channel steel base. Electrical Equipment: 24 volt starting motor. Exhaust: Exhaust Manifold and outlet flange. Fan: Axial blower type with wire guard. Fuel Oil Filter: Replaceable full flow, spin-on paper element type. Fuel Pump: Gear type. Generator: AC Brushless, class F insulation or better throughout; meets NEMA, IEEE, ANSI and British Standards. Governor: Woodward PSG hydraulic. Harness: Wiring harness, switches, terminal block and enclosure. Instrument Panel: Includes lube oil pressure gauge, water temperature gauge and starter switch. Lifting Brackets: Adequate eye brackets provided. Lube Oil Filter: Replaceable full flow, spin-on paper element type. Lube Pump: Gear type. Radiator: Heavy duty type designed for 110°F (43.3°C) ambient. Shutdown: Automatic for high water temperature, low oil pressure and overspeed. ARERR RENNER Optional Equipment Availat'e Upon Request Engine Cooling Pump: Centrifugal type, gear driven. Injectors: Needle valve, cam operated unit injectors. Prime Power Output* With Fan kW kVA at 0.8 PF Without Fan kW kVA at 0.8 PF Governed RPM Engine Type Number of Cylinders Bore & Stroke in. mm Piston Displacement cu. in. litres Compression Ratio Net Weight (Dry) with Standard Equipment Ibs. kg Shipping Volume cu. ft. cu. m. ANINGs apety t ndMHONS Specitied ISO. 3046, nthe tol 270 337.5 290 362.5 1800 Two Cycle 8 4.84x5 123 x 127 736 12.07 17:1 6200 2813 308 8.73 e@ Detroit Diese! Allison nm nN O« On 250 312.5 1500 Two Cycle 8 484x5 123 x 127 736 12.07 17:1 6350 2880 308 8.73 J ELE ETT ER DIMENSIONS ARE APPROXIMATE — inches (mm) APPLICATION DATA: Basic Engine (only) Coolant Capacity: gals. ...... litres ... Engine Coolant Flow: gopm........ litres/min. ...... Max. Static Head at Fresh Water Pump Inlet ft. H20 kPa... Heat Rejection to Coolant: BTU/min. kW... Coolant Capacity Heat Exchanger plus Engine: gals. . litres... Max. Suction Pressure (raw water): in.Hg. kPa..... ; Max. Discharge Pressure psi (raw water) kPa (raw water) ak Heat Exchanger Raw Water Flow: gpm litres/min. . =e Crankcase Oil Capacity: gals. litres . Fuel Supply Line, min., |.D. in. . mm Fuel Return Line, min., |.D. in. Suction at Fuel Transfer Pump, in. hg... kPa. Air for Combustion: cfm . m?/min. . Air for Radiator Cooling: cfm . m3/min.... Heat Rejection to Room: BTU/min. kW eee eee ts Generator Heat Radiated to Room BTU/min. kW eee Exhaust Flow (Rated Output) cfm m?/min. ..... Exhaust Temp. (Rated Output After Turbocharger): oF °C Pet TE Ue Exhaust Back Pressure (max. allow): in.hg. kPa...... . System Voltage ...... Starter Rolling Current @ 32°F (0°C) Starter Breakaway Current @ 32°F (0°C) @ 2.0 6.75 24V.D.C 950 1756 Detroit Diesel Allison Division of General Motors | 710 377 1.4 4.73 24V. D.C. 950 1756 5SA104 4-84 Information and specifications subject to change without notice or obligation. Litho in U.S.A. ‘Detroit Diewel Engines = n-to-flywhee! models 6V-92 6V-92T 6V-92TA 8V-92 8V-92T 8V-92TA 276hp 330hp 345hp 368hp 435hp 450 hp Typical 6V-92 Fan-To-Flywheel a Creed Fan-To-Flywheel Model ) specifications 8V-92 8V-92T 8V-92TA 9280 Injectors 9A90 Injectors 9A90 Injectors 8083-7000 8083-7300 8083-7400 Naturally Aspirated Turbocharged Turbocharged-Aftercooled 8 8 8 4.84 in X 5in 4.84 in X 5 in 4.84 in X 5 in (123 mm X 127 mm) (123 mm X 127 mm) (123 mm X 127 mm) 736 cu in 736 cu in 736 cu in (12.07 liters) (12.07 liters) (12.07 liters) 368 BHP (275 kW) ones @ 2100 RPM 360 BHP (269 kW) 435 BHP (325 kW) 450 BHP (336 kW) @ 2100 RPM @ 2100 RPM @ 2100 RPM 300 BHP (224kW) ee @ 1800 RPM 983 Ib ft (1333 Nem) 1252 Ib ft (1697 Nem) 1257 Ib ft (1704 Nem) ) @ 1400 RPM @ 1200 RPM @ 1400 RPM 19 to1 17 to1 17 to1 48 in (1219 mm) 48 in (1219 mm) 48 in (1219 mm) 39 in (991 mm) 39 in (991 mm) 39 in (991 mm) 51 in (1295 mm) 52 in (1321 mm) 52 in (1321 mm) 2345 Ibs (1064 kg) 2395 Ibs (1086 kg) 2415 Ibs (1095 kg) FUEL CONSUMPTION CURVE shows fuel used in pounds per brake horsepower hour. THESE RATINGS do not include power requirements for accessory and standard equipment. performance BASIC ENGINE PERFORMANCE BASIC ENGINE PERFORMANCE NGINI MODEL 8V-92 WITH 9280 INJECTORS MODEL 8V.92T WITH 9A90 INJECTORS MODEL BV-52TA WITH BAGO NOESTORS. T1400 18001800 Pon) 200 ENGINE SPEEO— RPM ean Air Inlet Housing Alternator—12 volt, 65 amps, 6V-92, 6V-92T, and 6V-92TA only; 24 volt, 65 amps 8V-92, 8V-92T, and 8V-92TA only Crankshaft Pulley Engine Mounts Exhaust Manifold Fan—28 in. 6 blades, right-hand, suction, 6V-92 only; 32 in, 8 blades, right-hand, suction, 6V-92T and 6V-92TA; 34 in, 8 blades, right-hand, suction, 8V-92, 8V-92T, and 8V-92TA Flywheel—SAE #1 Flywheel Housing—SAE #1 Fuel Filters—Spin-on Governor—Limiting speed Injectors—Cam operated, unit type, clean tip standard equipment Instruments—Water temperature, oil pressure, ammeter, and starter switch, 8V-92 and 8V-92T only Lube Oil Cooler Lube Oil Filter—Full flow, spin-on Oil Pan—25° rear down or 15° front down inclination angle, rear sump, 6V-92, 6V-92T, and 6V-92TA only; 17° inclination angle, rear sump, 8V-92, 8V-92T, and 8V-92TA only Starting Motor— 12 volt, high output, 6V-92, 6V-92T, and 6V-92TA only; 24 volt, 8V-92, 8V-92T, and 8V-92TA only Turbocharger—6V-92T, 6V-92TA, 8V-92T, and 8V-92TA only Vibration Damper—Thick, single, heavy, viscous, 8V-92, 8V-92T, and 8V-92TA only For a complete listing of standard and optional equipment, consult your authorized Detroit Diesel Allison representative. TT —_—-—-—_ ron Specifications subject to change without notice. WORLDWIDE Detroit Diesel Allison a >) Athens, Greece REGIONAL OFFICES . 7 isi ‘i Johannesburg, South Africa Atlanta, Georgia Q Division of General Motors Corporation Naiobi, Kenya (404/252-3314) Detroit Diese! 13400 West Outer Drive, Detroit, Michigan 48228 Adelaide, Australia Oak Brook, illinois Allison (313/592-5000) hig (312/654-6600) / Jakarta, Indonesia Dallas, Texas Fremont, California Rotterdam, The Netherlands Coral Gables, Florida Helsinki, Finland Singapore (214/659-5050) (415/498-5200) (010-290-000) (305/446-4900) Lisbon, F Portugal Tokyo, Japan bi Dearborn, Michigan Westlake Village, Califoria Dandenong, Victoria, Australia OFFICES Pang, Francs ogota, Colombia z aris, France Buenos Aires, Argentina (313/565-0411) (213/997-5405) (797-7911) Antwerp, Belgium Ruesselsheim, Germany Mexico City, Mexioo Edison, New Jersey London, Ontario, Canada Wembley, England Biel Bienne, Switzerland Stockholm, Sweden Santiago, Chile (201/246-5074) (519/452-5000) (44-1-904-1749) Copenhagen, Denmark Wellingborough, England Sao Paulo, Brazil 3SA154 1-82 LITHO IN U.S.A. MITSUBISHI SGA-PTA SPECIFICATION SHEET DIESEL ENGINES GENERAL ENGINE DATA Type Aspiration 4-Cycle, Turbocharged, with After Cooler Water Cooled (Jacket Water to Cooler) Cylinder Arrangement Bore x Stroke —mm (in.) 2.2... ce ec eet eee ee tees Cylinder Volume — liter (in3) Compression: Ratio || fii.) oe ile ee eles eel tt Et Pia) ie) tel eee lial bt aes, [ol fel fale ele lo Dry Weight — Engine only — kg(Ib.) 2... ee eee Wet Weight — Engine only — kg (Ib.) PERFORMANCE DATA Steady—State Speed Stability Band at any Constant Load Mechanical (std.)/Hydraulic or Electric — % Maximum Overspeed Capability—rpm Approximate Sound Pressure Level (hight & distance — 1 m) —dBA 1800 rpm/1500 rpm Excludes Noise from Intake, Exhaust & Cooling Fan Moment of Inertia of Rotating Components (include std. Flywheel) — kg*m? (Ib. -ft?.) 2... . Cyclic Speed Variation with Flywheel at 1800rpm; 1500rpm; 1200rpm ENGINE MOUNTING Maximum Bending Moment at Rear Face of Cylinder Crankcase — kgm (Ib. -ft.) AIR INLET SYSTEM Maximum Intake Air Restriction —With Clean Filter Element —mmH, O (in. H2O) —With Dirty Filter Element —-mmH; 0 (in. H2 O) EXHAUST SYSTEM Maximum Back Pressure —mm H20 (in. H,O). 2.2 2 eee LUBRICATION SYSTEM Oil Pressure at Idle — kg/cm? (PSI) at Rated Speed — kg/cm? (PSI) Maximum Oil Temperature — °C (°F) Maximum Oil Consumption — liter/hr (U.S. quart/hr.) Oilpan Capacity: High/Low — liter (U.S. gal.) Total System Capacity (including oil filter) — liter (U.S. gal.) Inclination Angle Oil Pan— Front Down (oil level) — Front Up — Side to Side COOLING SYSTEM Coolant Capacity — Engine only — liter (U.S. quart) Maximum Coolant Friction Head External to Engine — kg/cm? (PSI) Maximum Static Head of Coolant Above Crankshaft Center — meter (ft.) .........-.5-- Standard Thermostat (modulating) Range — °C (°F) Maximum Air Restriction on Discharge Side of Radiator and Fan — mm HO (in. H20) .... Maximum Output Pressure of Engine Water Pump — kg/cm? (PSI) Maximum Water Temperature at Engine Outlet — °c (CF) Minimum Coolant Expansion Space —% of System Capacity Coolant Flow for Intercooler, TK Type — liter/min. (U.S. gal./min.) APPLICATION : GENERATOR 82 Aug. Printed in Japan Pub. No Inline 6 145 x 160 (5.71 x 6.30) 15.852 (967) . 14.5:1 1700 (3750) 1820 (4010) - +0.5/40.2 2400 103/100 27.72 (658) 1/215; 1/140; 1/110 200 (1450) 400 (16) 760 (30) 450 (18) 2~ 3 (28 ~ 43) 5 ~ 6 (71 ~ 85) 110 (230) 0.74 (0.78) 70/50 (18/13) 80 (21) 45 (48) 0.35 (5.0) 10 (33) 71~85 (160 ~185) 10 (0.39) 1.70 (24.2) 98 (208) 10 99A 2 FAA-01A MITSUBISHI SGA-PTA sPECIFICATION SHEET DIESEL ENGINES FUEL SYSTEM Fuel Injection Pump Type .... 2.2.0.0... 0.0000 cee ee cee eee eee BOSCH P x 1 Maximum Fuel Feed Pump Suction Head —mm Hg (in. Hg) .............0. 0000 110 (4.3) Maximum Fuel Leak-off Pipe Static Head —mm Hg (in.Hg) ...............0000- 370 (14.5) STARTING & ELECTRICAL SYSTEM Battery Charging System, Negative Ground -— V—Ah .............. 0.00 eee eee 24-30 Electric Starting Motor Capacity -V—kW .......0..0.. 000. eee eee cee 24-7.5x1 Maximum Allowable Resistance of Cranking Circuit—mQ ..................05.- 2.5 Maximum Recommended Battery Capacity AtS°C (41°F) and Above — AH 26... 200 At —5°C (23°F) to 5°C (41°F) Ah oe eee 400 ENGINE RATING STAND-BY PRIME POWER ITEM | UNIT 60 Hz 50 Hz 60 Hz 60 Hz 50 Hz 60 Hz T Engine Speed rpm 1800 1500 1200 1800 1500 1200 de HP 470 420 275 425 380 250 Brake Horse Power — Without Fan (kW) (351) (313) | (205) | (317) (283) (187) Brake Mean Effective Pressure kg/cm? 15.0 16.1 13.2 13.6 14.6 12.0 — Without Fan | (PSI) (213) (229) (188) (193) (208) (171) 7 m/s 9.6 8.0 6.4 9.6 8.0 6.4 iston Speed (ft/min.) (1890) | (1575) | (1260) | (1890) | (1575) | (1260) Maximum Regenerative Power | HP 63 46 31 63 46 31 Absorption Capacity — Without Fan (kW) (47) (34) | (23) (47) (34) (23) . liter/min. 600 500 415 600 500 415 E | | ngine Water Flow | (U.S.GPM) | (159) (132) (110) (159) (132) (110) . 32 29 19 29 26 17 mae eine | (1130) | (1020) | (670) | (1020) | (920) | (600) m?3/min. eee | (CFM) j 86 77 50 78 69 46 cial raha eld | (3040) | (2720) | (1770) | (2750) | (2440) | (1620) 2.37 2.03 1.36 2.06 1.80 1.23 Radiated Heat to Ambient (1570) | (1340) | (899) | (1360) | (1190) | (813) X 10* Keal/h| 19.8 16.9 | 11.4 17.1 15.0 10.3 ee eee (BTU/min.) | (13100) | (11200) | (7540) | (11300) | (9920) | (6810) 27.3 22.1 | 15.3 22.4 19.3 13.8 (18100) | (14600) | (10100) | (14800) | (12800) | (9130) Heat Rejection to Exhaust The specifications are subject to change without notice. _— eEEEEEESESSESSSSSESESSSSFSSFSSSSSSMMMFFFFeFeFese OPTIONAL MITSUBISHI EQUIPMENT DIESEL ENGINES RADIATOR (for Corrugated-fin type) 1. DESCRIPTION Corrugated-fin type has a function to cool effectively cooling water which came up to high temperature in the inside of engine, by high heatconductivity tubes and corrugated fins. The feature of this type is higher thermal efficiency and lighter weight than plate-fin type. Temperature difference §0°C(122°F) between air temp. and water temp. (Temperature of radiator inlet) item Model | S6B | S6A | S6N s tenner: = ee -— ore { 4 Core dimensions | 766 x 800 x 83 |766 x 900 x 83 | 1102 x 1100 x 83 (W x H x T) mm(in.) | (30.16 x 31.50 x 3.271] (30.16 x 35.43 x 3.27) (43.39 x 43.31 x 3.27) | | t aa Radiation area _m? (ft?) 49.26 | 54.04 96.34 | 630.2) | (581.7) (1037.0) 7 4 Cap opening pressure 0.5 kg/cm? (psi) (7.1) ; = Weight (dry) kg (Ib) 105 110 165 | (232) (243) (364) ; na Water capacity 26 29 39 &(US.quarts) (28) (31) (41) : Radiator capacity | 1500 rpm/1800 rpm 12.4/14.4 17.3/20.6 27.9/33.1 x 10° Keal/h | (8200/9500) (11440/13600) | — (18500/21900) (BTU/min) at: 1500/1800 rpm | | | Flow rate of water mena eee ee &/min (U.S. gal/min) | (94/114) | (137/154) (185/231) eee eee erent a Velocity of air flow 6.0/7.5 | 7.6/9.4 | 7.7/9.9 m/sec. (ft/sec.) | (19.7/24.6) | (24.9/30.8) | (25.3/32.5) Allowable acceleration APPLICATION : GENERATOR "83 Oct. Printed in Japan 3G Pulley ratio. = a = Tots (1500/1800 rpm) 1.06/1.06 1.17/1.17 0.79/0.79 Fan speed (1500/1800 rpm) 1590/1910 1760/2110 1190/1420 : : $700 (627.56) (00 ($31.5) $1010(¢39.76) Fan dia. mm (in.) Polypropylene i Payee Steel | Now A70IA OPTIONAL EQUIPMENT MITSUBISHI DIESEL ENGINES RADIATOR (for Plate-fin type) 1. DESCRIPTION — Plate-fin type has been used mostly, and has more resis seaside and a clogging of dust than corrugated-fin type. It has, further, a stronger construciton to vibration and tance to a corrosion in shock than corrugated- fin type. — iii perren S68 ] S6A | S6N ! nal aan Core dimensions 798 x 800 x 120 798 x 900 x 120 976.5 x 1460 x 120 (W x H x T) mm(in.) | (31.42 x 31.50 x 4.72) | (31.42 x 35.43 x 4.72) (38.44 x 57.48 x 4.72) i eT C { ry a oe Radiation area m? (ft?) 53.67 60.54 98.2 (577.7) | (651.7) (1057.0) | Cap opening pressure 0.5 kg/cm? (psi) | (7.1) pe EL ee Eee ARSE Weight (dry) kg (Ib) | 130 | 150 400 (287) (331) (882) | 7 See = SeEEPRISERS + Water capacity | 30 30 60 @(US.quarts) | (32) (32) (64) Radiator capacity fe 1} n 7 1) eee aesuoaas | <5 1500 rpm/1800 rpm 12.9/14.5 17.3/20.0 25.4/29.9 x 10* Keal/h (8500/9600) | (11400/13200) (16800/19800) (BTU/min) r OAM NAA ALANI LTRANITAANGMADNOATNVIE loan ced t: 1500/1800 1 E / i sib | 355/430 520/585 | 700/875 ain lbs (94/114) (137/154) (185/231) @/min (U.S. gal/min) | | | Velocity of air flow 8.6/10.2 | 9.0/11.1 7.7/9.9 m/sec. (ft/sec.) | (28.2/33.5) | (29.5/36.4) (25.3/32.5) Temperature difference 50°C(122°F) between air temp. and water temp. I (Temperature of radiator inlet) Allowable acceleration 3G Pulley ratio (1500/1800 rpm) 1.06/1.06 1.17/1.17 0.79/0.79 Fan speed (1500/1800 rpm) 1590/1910 1760/2110 1190/1420 . i $800 ($31.5) $800 ($31.5) $1010 ($39.76) Fan dia. mm (in.) Steel Steel Steel INDEX | No. 4702A APPLICATION : GENERATOR ‘83 Oct. Printed in Japan INSTALLA ON DIAGRAMS S6GA-PTA FOR GENERATOR © FLYWHEEL @ TACHOMETER ADAPTER NOTE 1. AS REGARDS THE NUMBERS MARKED WITH PLEASE REFER TO THE DRAWING OF JOINT. 2. ALL DIMENSIONS IN MILLIMETERS AND INCHES 8316 J 51.34 PTR Ro 7 NNN Peed Leh) (@THERMOSWITCH ADAPTER ( THERMOMETER ADAPTER REAR FACE OF | 1736 1736 © THERMOMETER ADAPTER COOUBY FASS ALARM FLYWHEEL HOUSING 1439 5665 OWL FILLER (1 GOVERNOR CONTROL LEVER WATER OUTLET @ THERMOSWITCH ADAPTER me REAR FACE OF Ni rez: FLYWHEEL HOUSING INJECTION PUMP. AIR COOLER & ENGINE | 809 | 1490 368 _ nae nT NL (CSS NOI 1449 CRANKCASE ii 224 | 63_| RUN 33.5 | 2475. / ar TC ITNT / nme | | CRANKCASE WATER DRAIN | / eA ee | \m\ An a mr @ Olt PRESS. GAGE ADAPTER AJ = 7 ws SS. 6 PTER Fea eRioensoTueeries } . A //@ FLYWHEEL HOUSING ; STARTER @®OM PAN ADAPTER(A) | fi l_ ' A ——— ee Rahal ° Ou 0. Q\a ole als Vall TITAN 2 ole VS \ 8i5 eg Sls \ IE TD wo . ° 3 2 win -@ os olo ol \ oe alo te le [9 pa pe i J i 1° © CRANKSHAFT. i [ ee gia = Dun I 919 ORILL 8 HOLES so7s Uu #115 DRILL 4 HOLES r| u #045 | | | 1331 \ 1966 ey es? Kat BY-PASS FILTER Tyis0s | IN 774 3374 i| 461 . ALTERNATOR 265 | 265 1173.5 TT 1615 10.43 10.43 46.20 | 650 FUEL FILTER 282 282 WATER PUMP ih 31.75 | 28.59) ine 11.10 110 125 | 3175 OI PAN ADAPTER(B) 320 432 @ WATER INLET 80 Hi) 635 125 12.60 17.01 315 | 250 635 tf 80 @ FUEL PIPE JOINT 459 505 OW COOLER 40 1220.3 76.2 259 315) il 18.07 19.88 TL on fn 76.2 1220.3 40 964 @ON_PRESS.SWITCHADAPTER/ / Oil FILTER 300 ea 4804 tat 157 sees iiiacniiiy i719 6768 22 Au, ate MITSUBISHI Rating: Without Fan With Std. Fan Cooling System: Coolant Volume Engine Only Coolant Volume w/Opt. Radiator & Lines Coolant Volume w/Std. Radiator & Lines Heat Rejection to Coolant @ Max. Heat Rejection Radiation from Engine @ Max. Heat Rejection Radiation from Gen @ Max. Radiator Air Max. Flow wi/Std. Arrg. Radiator Air Max. Outlet Restriction Radiator Air Max. Temperature w/Opt. Arrg. Radiator Air Max. Temperature w/Std. Arrg. Water Pump Max. External Resistance Water Pump Flow @ Max. External Resistance Water Pump Max. Static Head Exhaust System: Exhaust Gas Backpressure Allowed Max. Exhaust Gas Flow Exhaust Gas Temperature Max. Heat Rejection to Exhaust Gas Max. Fuel System: Fuel Inlet Max. Restriction Fuel Transfer Pump Max. Flow Intake Air System: Air Cleaner Max. Restriction Allowed Combustion Air Flow Required Lube Oil System: Refill Volume with Filter Change Mounting System:** Length Overall with Std. Radiator Arrg. Height Overall with Std. Radiator Arrg. Width Overall with Std. Radiator Arrg. Unit Wet Weight Total w/Std. Rad. Arrg. w/o Fuel Starting System: Electric Starter Quantity Motors Used Electric Starter Motor Voltage Electric Starter Ground Type Rolling Current* Breakaway Current* Performance Curves * Cranking current with 70°F (21°C) ambient temperature, SAE 30 oil and battery capacity of 870 CCA. “*With factory base. kW kW gal gal gal Btu/min Btu/min Btu/min cfm in H,O °F °F ft H,O gpm ft in H,O cfm °F Btu/min in Hg gph in H,O cfm amps amps 27 900 842 6426 20.5 30 375 31 121.64 63.03 48 4544 24 Negative: 289 723 27 1030 7393 30 405 31 121.64 63.03 4844 24 Negative 289 723 3306 T 60 Hz Prime Standby 135 155 130 150 4.2 4.2 11.8 11.8 11.1 1141 6597 7393 2673 3014 716.6 870.1 8400 8400 5 5 130 122 114 105 24 24 40 40 57 57 27 27 1230 1400 977 1022 8815 9725 8 8 21.8 21.8 30 30 460 510 31 31 121.64 121.64 63.03 63.03 48 48 4709 4874 1 1 24 24 Negative Negative 289 289 723 723 3306 T Ow <a -eD Oreo aw MW 23a0 <x Dw xR Ow jo o=< wo E MANI KPA URE xm <wm bu —1. GENERATOR POWER KW ENGINE POWER KW ATE er ja We FU L 500 400 300 200 80 bo 40 20 150 100 50 150 100 50 40 30 20 10 +20 +10 DEG F IN-HG ENGINE DATA ENGINEERING MODEL €209 ASPIRATION T AFTERCOOLER NONE EXHAUST MANIFOLO ORY COMBUSTION SYSTEM Pc TURBO MODEL T122b-1.00 COMPRESSION RATIO 17.5 TO 1 TORQUE CONTROL GROUP STANOARO TYPE OF DUTY PRIME RATED KW 110 RATEO HZ 50 RATEO RPM 1500 EFFECTIVE SERIAL NUM bb022b690 TOLERANCES CURVES REPRESENT TYPICAL VALUES OBTAINED UNDER NORMAL OPERATING CONDITIONS. AMBIENT AIR CONDITIONS AND FUEL USEO WILL AFFECT THESE VALUES. EACH OF THE VALUES MAY VARY IN ACCOROANCE WITH THE FOLLOWING TOLERANCES EXHAUST STACK £42 DEG C TEMPERATURE £75 OEG F INTAKE MANIFOLO £10 KPA PRESSURE -GAGE +3 IN HG POWER +3 PERCENT FUEL RATE tb G/KW-HR r 300 200 HP t 100 +15 +10 GAL/HR + — + + 25 50 79 100 PERCENT LOAD +-010 L6/HP-HR PERFORMANCE DATA PERCENT ENGINE POWER GEN POWER LOAD KH OHP AT 0.8 PF KW 100 122 Ib4 110 75 al 122 83 50 bo 80 55 25 31 42 28 PERCENT BSFC FUEL RATE LOAD = G/KW-HR LB/HP-HR LTR/HR GAL/HR 100 237 0.390 34.1 9.0 7s 240 0.395 25.8 b.8 50 259 0.426 18.3 4.8 25 304 0.500 11.1 2.9 AUR FLOW AT FULL LOAD INLET 10.6 CU M/MIN 375 CFA EXHAUST 22.5 CU M/MIN 900 CFA CONOITIONS PERFORMANCE BASEO ON SAE J81b8 STANDARO CONDITIONS OF 99.2 KPA (29.38 IN HG) AND 30 OEG C (85 DEG F). PERFORMANCE ALSO APPLIES AT OIN 6270 STANOARO CONOITIONS OF 97.8 KPA (28.97 IN HG) ANO 20 DEG C (b8 DEG F). FUEL CONSUMPTION IS BASED ON FUEL OIL HAVING AN HHV OF 45570 KJ/KG (19590 BTU/LB) AND WEIGHING 848 G / LITRE (7.076 LB / U.S. GAL). ENGINE POWER CURVE REPRESENTS THE POWER REQUIREO FOR ORIVING A CATERPILLAR GENERATOR USING AN ENGINE EQUIPPED WITH FUEL. LUBE OIL, AND JACKET WATER PUMPS BUT WITHOUT FAN. THE GENERATOR POWER CURVE REPRESENTS THE ELECTRICAL OUTPUT OF THE GENERATOR STACK TEMPERATURE. INTAKE MANIFOLO PRESSURE. ANO FUEL RATE ARE BASED ON ENGINE POWER CURVE NO ENGINE OERATION IS REQUIRED FOR AMBIENT TEMPERATURES UP TO 52 DEG C (125 DEG F) EXCEPT AS SHOWN ON THE APPLICABLE ALTITUDE DERATING CURVE. GENERATOR SET PERFORMANCE CURVE MODEL 330b T00737-03 28 3306 TA i 60 Hz Prime Standby Rating: Without Fan kw 155 180 With Std. Fan kW 150 175 Cooling System: Coolant Volume Engine Only gal 4.8 4.8 Coolant Volume w/Std. Radiator & Lines gal 12.4 12.4 Heat Rejection to Coolant @ Max. Btu/min 6824 7791 Heat Rejection Radiation from Engine @ Max. Btu/min 1706 1820 Heat Rejection Radiation from Gen @ Max. Btu/min 9 693.8 892.9 Radiator Air Max. Flow w/Opt. Arrg. cfm 8280... 10080 10080 Radiator Air Max. Flow w/Std. Arrg. cfm 69 8400 8400 Radiator Air Max. Outlet Restriction in HO 5 5 Radiator Air Max. Temperature w/Opt. Arrg. °F 130 125 Radiator Air Max. Temperature w/Std. Arrg. °F 127 117 | | Water Pump Max. External Resistance ft HO 24 24 Water Pump Flow @ Max. External Resistance gpm 35 35 Water Pump Max. Static Head ft 57 57 | Exhaust System: has Exhaust Gas Backpressure Allowed Max. in H,O i 27 27 27 | Exhaust Gas Flow cfm 1310 1360 1630 Exhaust Gas Temperature Max. °F 1076 1022 1094 Heat Rejection to Exhaust Gas Max. Btu/min 12113 10521 12909 Fuel System: . | Fuel Inlet Max. Restriction in Hg 8 8 8 Fuel Transfer Pump Max. Flow gph 22.4 23.8 23.8 | Intake Air System: Air Cleaner Max. Restriction Allowed in H,O ; 30 30 30 Combustion Air Flow Required cfm 455 495 565 Lube Oil System: | Refill Volume with Filter Change at 5 ; 31 31 31 Mounting System:** | Length Overall with Std. Radiator Arrg. in &-- 421.65 121.65 121.65 Height Overall with Std. Radiator Arrg. in 62.66 62.66 62.66 Width Overall with Std. Radiator Arrg. in ot 48 48 48 Unit Wet Weight Total w/Std. Rad. Arrg. w/o Fuel — Ib 4910 4910 4910 Starting System: Electric Starter Quantity Motors Used 1 1 1 Electric Starter Motor Voltage 24 24 24 Electric Starter Ground Type Negative Negative Negative Rolling Current* amps 289 289 289 Breakaway Current* amps 923 723 723 {Performance Curves a Bs ey *Cranking current with 70°F (21°C) ambient @ Fr ee ae OM 3306 TA ER GENERATOR POW KW KW ENGINE POWER FUEL RATE LTR/HR ’00 +— 500 400 300 150 100 50 200 150 100 50 200 150 100 50 bo 40 20 — + 4 25 50 7s 100 PERCENT LOAD DEG F IN-HG HP GAL/HR ENGINE DATA ENGINEERING MODEL €209 ASPIRATION TA AFTERCOOLER HAC EXHAUST MANIFOLO ORY COMBUSTION SYSTEN ec TURBO NOOEL €302-3.8b COMPRESSION RATIO 17.5 To 1 TORQUE CONTROL GROUr STANOARO TYPE OF DUTY STANOBY RATEO KW 1bs RATEO HZ 50 RATEO RPK 1500 EFFECTIVE SERIAL MUM bb022124 TOLERANCES: CURVES REPRESENT TYPICAL VALUES OBTAINED UNDER NORMAL OPERATING CONDITIONS. AMBIENT AIR CONOITIONS AND FUEL USEO WILL AFFECT THESE VALUES. EACH OF THE VALUES MAY VARY IN ACCORDANCE WITH THE FOLLOWING TOLERANCES EXHAUST STACK 242 OEG C TEMPERATURE 275 OEG F INTAKE MANIFOLO 210 KPA PRESSURE-GAGE 23 IN HG POWER 23 PERCENT FUEL RATE 2b G/KW-HR 2-010 LB/HP-HR PERFORMANCE DATA ira ENGINE POWER GEN POWER LOAl ne AT 0.8 PF KH 100 179 240 1b5 7s 133 179 124 50 8a 120 82 25 Yb b2 41 PERCENT BSFC FUEL RATE Load G/KW-HR LB/HP-HR = LTR/HR GAL/HR 100 257 0.422 S41 14.3 7s 237 0.389 37.2 9.8 50 230 0.378 24.2 bey 25 283 0.4bb 15.5 41 AIR FLOW AT FULL LOAD INLET 12.9 CU M/MIN 455 CFR EXHAUST 37.0 CU M/MIN 1310 CFH CONDITIONS PERFORMANCE BASED ON SAE _J81b5 STANOARO CONDITIONS OF 99.2 KPA (29.38 IN HG) ANO 30 OFG C (85 DES F). PERFORMANCE ALSO APPLIES AT DIN 6270 STANDARO CONOITIONS OF 97.8 KPA (28.97 IN HG) ANO 20 OEG C (b8 OEG F). FUEL CONSUMPTION IS BASEO ON FUEL OIL HAVING AN HHV OF 45570 KJ/KE (19590 STU/LB) AND WEIGHING 848 6 / LITRE (7.076 LB / U.S. GAL). ENGINE POWER CURVE REPRESENTS THE POWER REQUIRED FOR ORIVING A CATERPILLAR GENERATSR USING AN ENGINE EQUIPPED WITH FUEL. LUBE OIL. ANO JACKET WATER PUMPS BUT WITHOUT FAN. THE GENERATOR POWER CURVE REPRESENTS THE ELECTRICAL OUTPUT OF THE GENERATOR STACK TEMPERATURE. INTAKE MANIFOLO PRESSURE. AND FUEL RATE ARE BASED ON ENGINE POWER CURVE NO ENGINE OERATION IS REQUIRED FOR AMBIENT TEMPERATURES UP TO 52 DES C (125 DEG F) EXCEPT AS SHOWN ON THE APPLICABLE ALTITUDE DERATING CURVE. ia 46. GENERATOR SET PERFORMANCE CURVE | MODEL 3306 100883-00, rs rs a ae | wr) r | rr ee ee | 8 t | | | a & 6 2 | - 3 : 0 by vid 6 | - 7 J? 4 i | pata 8 Fy po Ng oot oo — fs | t ae 1 — 4 | o | Q we Ts T ] x. 5 | : 3 alta > = | z pe TF yaw Te i “pis | | | ae re Tso Qq 7 To oc i rr | - rd Oo | og | _k z 2 o uw i my) Eo | | w ~ 2 oo Gi up pb | — } o j | — pg Rt ep tH 0 0 0 t | Wo a \ | | | | | g. | i = 0 o— x N cl c oe | f © D | | x 4 —-la, +} | ++ +,___+_.__1 ae Sea | | a | | | SIA T a | a 2 OY. bir 3 ptf 4 _ { xX 5 ¢ Oo | 2m, st. qa 3 mi Tere ahr See Cee é& | ) ep a a QO ® S vo~ aw { | | Rg 8 te ‘am Uae Oa nd dt San - | | a | | | | rt ho ee ee ma a + yt | Sth ll el | | | L x bk Oo yp No | gi | | oF tee ye 4 + 1 eo {SO 1 1 to + —} oy +2 id* te 3 2a ta ee g nu 4 | ® foi. iM 3 | | | | i) a an) ~<a | | oe ee Reena ee =! OO [- Peet MOU Ve J Tan 8 a 20 oot a | | 39 t ’ } 2 | | | | | { | | ———r 4 = ) | } = | | | | \ j | j | | - r— T | r aa TI 1 1 | | ! | = | { | | of | | | | | | | / | | ; |} | | | PT rT Tf | | | | i 1 wd ae ae == — \ tL |} \ ; | i | | 74 | | lf | Tt | oe | |_| || pt TJ T | | rT | ' | | i Cary (Sse- eS | | | | el | | | | wW | | | itt i it Ie | | roy ; | Tao + UI. : : i—t = { an }——+——-+ | | | | | | | | | | ; | | | | . > rT iT i If | | ‘Ee - | ; | j = | ' | | o 4 ee i | | | | | | 0 | | | || it | | 7} r 1 rt 1 + | To b ==5 = —I oe - + — | ___f 4 1 ; } ae —-. —- ! Ha =o | Pt | } 4 FRE 0.6 PM PLATE PU WT. LBS. WT. LBS. vO. SIZE o1 | 316 S/S | TITAN. | GAL MATERIALS OF CONSTRUCTION [1 eo | sis 0] KONG Ee Te) Tastes | Sts cara] TIE BARS ARE 1.00 DIA. / PORT ARRANGEMENT erm -— AY ee MAXIMUM OPER. PRESSURE, v0 psig) >| eZ +/e Ho MAXIMUM TEST PRESSURE, 250 psig I~ /7 Zt | 720 MAXIMUM OPER. TEMP., o> *F [ 5 [| Pe 7 fp APPROVED FOR omen Ab sha re poste or ste COD Site ! [or TSCS™~—SY | oven | | YK oan oe ze : | STUDDED BOLT PATTERN FOR same aa ci EL 2d 2.5 IN. 1500 FLANGE |_ esse ap | | PUTESASETS: | Pe SS vr a a a) ALL DIMENSIONS ARE IN FT.-IM. | azs- | FO D| | [oe TITLE Mote, This interestion te canfigantiel and te the cl | MODEL SR25 ae ayer, me | pT I Date, 12 MY 1887 1¥-0. 80000 ]* ~ wen on | 2.80000. 025 AD fg) 8 ert STUDDED CONNECTIONS Iino 1 —- | : , 3412 DIT(S) 60 Hz Prime Standby Rating: Without Fan kw 320 370 With Std. Fan kw 300 350 Cooling System: Coolant Volume Engine Only gal 14.5 14.5 | Coolant Volume w/Opt. Radiator & Lines gal 29.5 29.5 j Coolant Volume wi/Std. Radiator & Lines gal 25.5 25.5 \ Heat Rejection to Coolant @ Max. Btu/min 13592 15810 | Heat Rejection Radiation from Engine @ Max. Btu/min 3810 4095 ' Heat Rejection Radiation from Gen @ Max. Btu/min 1393.3 1672.0 | Radiator Air Max. Flow w/Opt. Arrg. cfm 23750 29600 i Radiator Air Max. Flow w/Std. Arrg. cfm 14600 23750 Radiator Air Max. Outlet Restriction in H,O 5 5 | Radiator Air Max. Temperature w/Opt. Arrg. °F 130 130 | Radiator Air Max. Temperature w/Std. Arrg. °F 116 105 Water Pump Max. External Resistance ft HO 23 23 Water Pump Flow @ Max. External Resistance gpm 180 180 | Water Pump Max. Static Head ft 57 57 | Exhaust System: Exhaust Gas Backpressure Allowed Max. in HO 27 27 Exhaust Gas Flow cfm 2910 3285 Exhaust Gas Temperature Max. °F 779 842 Heat Rejection to Exhaust Gas Max. Btu/min 19506 22520 Fuel System: Fuel Inlet Max. Restriction in Hg 9 9 Fuel Transfer Pump Max. Flow gph 49 49 Fa Intake Air System: Air Cleaner Max. Restriction Allowed in H,O 30 30 Combustion Air Flow Required cfm 1257 1370 Lube Oil System: Refill Volume with Filter Change qt 72 72 Mounting System:** Length Overall with Std. Radiator Arrg. in 150.55 150.55 Height Overall with Std. Radiator Arrg. in 71.63 78.94 Width Overall with Std. Radiator Arrg. in 70.05 70.05 Unit Wet Weight Total w/Std. Rad. Arrg. w/o Fuel Ib 9239 9239 Starting System: Electric Starter Quantity Motors Used : 1 1 Electric Starter Motor Voltage 24 24 24 Electric Starter Ground Type ive Negative Negative Rolling Current* amps 525 525 Breakaway Current* amps 1313 1313 Performance Curves *Cranking current with 70°F (21°C) ambient temperature, SAE 30 oil and battery capacity of 870 CCA. **With factory base. 99 WASTE HEAT UTILIZATION SIMULATION WORK SHEET. Location:Manokotak April 30, 1990 Date: Annual O&M cost: Cost Estimate Fuel heat value: Fuel Fuel cost escal. Power increase Discount rate cost GENERATOR Heat Heat Heat Heat Heat Heat Heat Heat Heat Heat Heat rate rate rate rate rate rate rate rate rate rate rate 1811 $/year. 164000 $ 126000 Btu/gall. 1.25 $/gallon 0.02 /year 0.02 /year 0.04 /year DATA: at at at at at at at at at at at kw- load above: kw-load above: kw-load above: kw-load above: kw-load above: kw-load above: kw-load above: kw-load above: kw-load above: kw- load above: kw- load above: GENERATION DATA: Kwh/month: Janua, ry February March April May June July Augus t September October November December 83075 63827 55390 38310 53907 51863 45217 55546 65680 66112 30 60 90 120 150 180 210 240 270 300 PROGRAM RESULT! [Savings, year 0, gallons: 1084, C (10 year B/C ratio: [20 year B/C ratio: [Pay back time, years 1 3000 Btu/kwh 2900 Btu/kwh 2800 Btu/kwh 2800 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh WEATHER DATA: HDD/Month: 1515 1305 1395 1025 705 390 300 340 530 935 1245 1585 SYSTEM LOSS DATA: Constant losses: Plant piping: Subsurface piping: Engine preheating: Total constant: Variable losses: Surface piping: Plant heating: Radiator losses: 2000 Btu/hr. 64000 Btu/hr. 2000 Btu/hr. 68000 Btu/hr. 50 Btu/hr.xF 200 Btu/hr.xF 50 Btu/hr.xF BUILDING DATA: Fuel use, Non- Boiler gallons Seasonal Seasonal Efficiency School 30000 3000 Build. 0 0 Build. 0 0 Build. Build. Build. Build. Build. Build. Build. WONAUFWN— HEAT DEMAND 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 0.039 0.039 17 0.040 0.040 18 0.041 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 Year no. Seasonal consumption, gls.: Non-seasonal consump.,gls. Compound boiler efficiency: 0.7 0 0 30000 3000 0.70 Days: HDD: kwh: Building in use, 1=yes, 0=no POWER PRODUCTION VARIATION: January February 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 ~049 +046 ~043 -038 +038 +041 ~044 ~040 eo0000000 31 1515 83075 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 0.038 0.038 0.041 0.044 0.040 28 1305 63827 Building use per 4.2E+08 3.7E+08 eoo0c000000 4.2E+08 3.7E+08 3.9E+08 2.9&+08 2.1E+0: ecooococ00o March 0.038 0.036 0.034 0.034 0.033 0.034 0.038 eoeoooo0oo0coco°0co°0c°oc°oc°oo o 5 2 31 1395 55390 Sea saon naa month, Btu’s 3.9E+08 2.9E+08 eooooecooe ecooocoaoooe SSSDODDOCDOODOCOC DODO OCOCOCOOOOOSO Basse aa aaaso June -040 -037 -035 +034 +034 -037 -037 -039 +043 -046 -039 -047 +048 +049 -048 -048 +044 -047 +046 -042 +040 -039 -040 -041 30 390 eoocoeoeeCCCODe Besa oan July +040 -037 -035 -034 034 -037 -037 -039 -043 -046 -039 +047 +048 049 -048 +048 044 -047 046 0.042 0.040 0.039 0.040 0.041 SOSDDDPDDDODDDDDOOCOOOO0SO 31 300 0 eoocooeC CCC oDe Bese oan August 0.040 0.037 0.035 (———------—-- ---------) o 340 51863 cooceooeeeCCOoe September October +040 -037 -035 +034 +034 -037 -037 -039 +043 +046 -039 +047 +048 +049 +048 -048 +044 -047 +046 +042 +040 ~039 +040 +041 SSSDSDDDDDDDDDDDDOOCODOOCCOOSO 30 530 45217 1.7E+08 ecooocececc0ed 1.7E+08 2.7E+08 3.5€+0: 2. 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 SSC OCOCOCDOOOO DO OCOCOOOCOOCCOOOSO ua Se EREGRREEE ga NO SGEEREERESE 0.041 November -038 -036 a wu & So 3.5E+08 0 0 0 0 0 0 0 0 0 8 aoe ooo aaa December 0.038 0.036 0.034 0.034 0.033 $ ESSESESERS 8858S ecooeoeoeoo oO O OOOO oO Ro ge 288 66112 4.4E+08 eoocoeocoo0oeo 4.4E+08 12 12 12 12 12 12 12 12 12 2.9E+0 Oper .HD 1024 1127 1127 1127 1127 1127 1127 1127 1127 1127 =2 POOUMNAUEWNA= Nee oeonoaaK COMBNOUEWN NNNN RUNS Seo oesno ani WOANAURWNZODMONAUARWN= NUNN FWNSO Heat available per hour by month 202274 187266 172259 172259 164756 172259 202274 232288 232288 257210 264446 257210 242739 257210 264446 264446 271681 249975 239791 202274 202274 224784 247295 217281 1.7E+08 Heat demand by hour by month 670622 648901 624465 601387 581024 562019 544371 529438 517220 515863 502287 498215 498215 502287 502287 517220 529438 544371 562019 581024 601387 624465 647544 670622 4.2E+08 160360 147595 134830 134830 128447 134830 160360 185891 185891 217805 224187 217805 205039 217805 224187 224187 230570 211422 192274 160360 160360 179509 198657 173126 108413 98407 88401 88401 89294 88401 108413 128425 128425 153439 158442 153439 143434 153439 158442 158442 163445 148437 133428 108413 108413 123422 138431 118419 62275 54869 47462 47462 43759 47462 62275 77089 77089 89603 93179 89603 88199 89603 93179 93179 96754 91902 80792 62275 62275 73385 84495 69682 119738 105131 95393 96436 96436 105131 105131 114869 134345 148952 114869 153821 158690 163559 158690 158690 139214 153821 148952 129476 119738 114869 119738 124607 1.2E+08 94489987 53335446 95489367 646747 625799 602234 579977 560339 542010 524991 510589 498807 497497 484405 480478 480478 484405 484405 498807 510589 524991 542010 560339 579977 602234 624490 646747 3.7E+08 621214 601094 578458 557081 538218 520613 504265 490432 479114 477857 465282 461509 461509 465282 465282 479114 490432 504265 520613 538218 557081 578458 599836 621214 3.9E+08 484503 468811 451157 434483 419772 406041 393291 382502 373675 372695 362887 359944 359944 362887 362887 373675 382502 393291 406041 419772 434483 451157 467830 484503 2.9E+08 337120 326201 313918 302316 292080 282526 273654 266147 260006 259323 252499 250452 250452 252499 252499 260006 266147 273654 282526 292080 302316 313918 325519 337120 2.1E+08 SODSDSPDDDDDOCOODOODOCOOCOCCOOOO SESODDDDDDOCOCOCOOCC ODOC OOOO OO SCOSDDSPDCODOCOCOC OCC OOOO OCOCOCOO SEOCSCDDDDPDCOCOCDDCOCOCO ODOC OCOCCOOO 115886 101832 98319 93467 93467 101832 101832 111201 129939 143992 111201 148676 153361 158045 153361 153361 134623 148676 143992 125254 115886 111201 115886 120570 92561788 SCOOTDDDOCDDCOCOCOCOCOCO OOOO OCCOOO 95310 88226 79484 75113 75113, 88226 88226 96968 107971 120632 96968 124852 129072 133292 129072 129072 112191 124852 120632 103751 95310 96968 95310 99530 123434 108383 98349 93332 93332 108383 108383 118417 138485 153536 118417 158553 163570 168587 163570 163570 143502 158553 153536 133468 123434 118417 123434 128451 75184282 98056000 273903 265032 255051 245625 237309 229546 222338 216239 211249 210695 205150 203487 203487 205150 205150 211249 216239 222338 229546 237309 245625 255051 264477 273903 1.7E+08 431818 417832 402098 387238 374126 361888 350524 340909 333042 332168 323426 320804 320804 323426 323426 333042 340909 350524 361888 374126 387238 402098 416958 431818 2.7E+08 152295 140035 127775 127775 121644 127775 152295 176816 176816 207466 213596 207466 195206 207466 213596 213596 219727 201336 182946 152295 152295 170685 189076 164555 1.3E+08 578103 559379 538314 518420 500866 484483 469270 456397 445865 444695 432992 429481 429481 432992 432992 445865 456397 469270 484483 500866 518420 538314 558209 578103 3.5E+08 143375 131432 119489 119489 113518 119489 143375 167260 167260 197117 203089 197117 185175 197117 203089 203089 209060 191146 173232 143375 143375 161289 179203 155318 1.2E+08 1.0E+09 699443 676789 651303 627233 605995 586173 567766 552192 539449 538033 523874 519626 519626 523874 523874 539449 552192 567766 586173 605995 627233 651303 675373 699443 4.4E+08 2.9E+09 Nee e ee soonaan CWOBNADEWDNZOOMNAUERWN= 21 22 23 24 Data table, use DATA-2 command with default values as shown: Year 0 fuel saving, gals. = Year: 10842 .08 1 2 3 4 Fuelsave: 11166 11499 11841 12175 Fuel- $-saved: 14237 14955 15707 16474 Discntd.: 13690 13827 13964 14082 O&M/year discntd.: 1811 1811 1811 1811 Accumltd: 11879 23894 36047 48318 Balance : -152121 -140106 -127953 -115682 PB-years: 0.00 0.00 0.00 0.00 18 19 20 Fuelsave: 17560 17969 18397 Fuel- $-saved: 31350 32721 34170 Discntd.: 15475 15531 15595 O&M/year discntd.: 1811 1811 1811 Accumltd: 231158 244877 258661 Balance : 67158 80877 94661 PB-years: 0.00 0.00 0.00 Heat delivered by hour by month 202274 160360 108413 62275 = 119738 187266 147595 98407 54869 105131 172259 134830 88401 47462 95393 172259 134830 88401 47462 96436 164756 128447 89294 43759 96436 172259 134830 88401 47462 105131 202274 160360 108413 62275 = 105131 232288 = =185891 = 128425 77089 114869 232288 =6185891 = 128425 77089 = 134345 257210 217805 153439 89603 148952 264446 «224187 = 158442 93179 114869 257210 217805 153439 89603 153821 242739 = 205039 = 143434 88199 158690 257210 217805 153439 89603 163559 264446 224187 = 158442 93179 158690 264446 224187 = 158442 93179 158690 271681 = 230570 §=— 163445 96754 139214 249975 211422) 148437 91902 153821 239791 192274 = 133428 80792 148952 202274 160360 108413 62275 129476 202274 160360 108413 62275 = 119738 224784 179509 123422 73385 = 114869 247295 9198657 = 138431 84495 119738 217281 173126 = 118419 69682 124607 1.7E+08 1.2E+08 94489987 53335446 95489367 1898.3 1400.1 1071.3 604.7 1082.6 5 6 7 8 9 12519 12864 13214 13577 13930 17278 18108 18974 19884 20809 14201 14311 14419 14529 14620 1811 1811 1811 1811 1811 60708 73208 85815 98533 111343 -103292 -90792 -78185 -65467 -52657 0.00 0.00 0.00 0.00 0.00 SSCOCSCCOOC COC OOOO OOO OOOO OOOO OO ° 10 14306 21798 14726 1811 124258 ~39742 0.00 SCOSOSSDDDDODCDOOC OOOO OOOCOOCOOODO ° 1 14693 22837 14834 1811 137281 ~26719 0.00 SCOSDSTDDODDOCOCOCOCDOODOOCOOCD OOOO OOO ° 12 15085 23914 14937 1811 150407 13593 0.00 95310 88226 79484 75113 75113 88226 88226 96968 107971 120632 96968 124852 129072 133292 129072 129072 112191 124852 120632 103751 95310 96968 95310 99530 75184282 852.4 13 15492 25051 15045 1811 163641 -359 0.00 123434 108383 98349 93332 93332 108383 108383 118417 138485 153536 118417 158553 163570 168587 163570 163570 143502 158553 153536 133468 123434 118417 123434 128451 98056000 1111.7 14 15889 26207 15134 1811 176964 12964 13.03 152295 140035 127775 127775 121644 127775 152295 176816 176816 207466 213596 207466 195206 207466 213596 213596 219727 201336 182946 152295 152295 170685 189076 164555 1.3E+08 1426.7 15 16313 27443 15238 1811 190391 26391 0.00 143375 131432 119489 119489 113518 119489 143375 167260 167260 197117 203089 197117 185175 197117 203089 203089 209060 191146 173232 143375 143375 161289 179203 155318 1.2E+08 1394.1 16 16734 28715 15331 1811 203911 39911 0.00 9.6E+08 10842.1 17 17131 29984 15393 1811 217493 53493, 0.00 1756 3135 1547 181 23115 6715 0.0 Date: April 26, 1990 Annual 0&M cost: Cost Estimate Fuel heat value: Fuel cost Fuel cost escal. Power increase Discount rate GENERATOR Heat Heat Heat Heat Heat Heat Heat Heat Heat Heat Heat rate rate rate rate rate rate rate rate rate rate rate DATA: at at at at at at at at at at at kw- load kw- load kw- Load kw- Load kw- load kw- Load kw- load kw- Load kw- load kw- load kw- load GENERATION DATA: Kwh/month: January February March April May June July August September October November December 1811 $/year. 164000 $ 126000 Btu/gall. 1.08 $/gallon 0.02 /year 0.02 /year 0.04 /year above: above: above: above: above: above: above: above: above: above: above: 83075 63827 55390 38310 53907 51863 45217 55546 65680 66112 0 30 60 90 120 150 180 210 240 270 300 (Savings, year 0, C (10 year B/C ratio: [20 year B/C ratio: [Pay back time, years 1 3000 Btu/kwh 2900 Btu/kwh 2800 Btu/kwh 2800 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh 2700 Btu/kwh WEATHER DATA: HDD/Month: 1515 1305 1395 1025 705 390 300 340 530 935 1245 1585 SYSTEM LOSS DATA: Constant losses: Plant piping: Subsurface piping: Engine preheating: Total constant: Variable losses: Surface piping: Plant heating: Radiator losses: 2000 Btu/hr. 64000 Btu/hr. 2000 Btu/hr. 68000 Btu/hr. 50 Btu/hr.xF 200 Btu/hr.xF 50 Btu/hr.xF BUILDING DATA: Fuel use, Non- Boiler gallons Seasonal Seasonal Efficiency School 30000 3000 Build. 1 0 0 Build. 2 0 0 Build. 3 Build. 4 Build. 5 Build. 6 Build. 7 Build. 8 Build. 9 HEAT DEMAND 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 0.039 0.039 17 0.040 0.040 18 0.041 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 Year no. Seasonal consumption, gls.: consump. ,gls. Compound boiler efficiency: Non-seasonal 0.7 0 0 30000 3000 0.70 Days: HDD: kwh: Building in use, 1=yes, 0=no eee a anna Bese oon POWER PRODUCTION VARIATION: January February March 0.038 0.038 0.038 0.036 0.036 0.036 0.034 0.034 0.034 0.034 0.034 0.034 0.033 0.033 0.033 0.034 0.034 0.034 0.038 0.038 0.038 0.042 0.042 0.042 0.042 0.042 0.042 0.047 0.047 0.047 0.048 0.048 0.048 0.047 0.047 0.047 0.045 0.045 0.045 0.047 0.047 0.047 0.048 0.048 0.048 0.048 0.048 0.048 0.049 0.049 0.049 0.046 0.046 0.046 0.043 0.043 0.043 0.038 0.038 0.038 0.038 0.038 0.038 0.041 0.041 0.041 0.044 0.044 0.044 0.040 0.040 0.040 31 28 31 1515 1305 1395 83075 63827 55390 Building use per month, Btu’s 3.9E+08 2.9E+08 4.2E+08 3.7E+08 eoooeeooeo eoococa000e eoooeca000o 4.2E+08 3.7E+08 3.9&+08 2.9E+08 2.1£+0 April 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 0.038 0.038 0.041 0.044 0.040 30 1025 38310 ecooeooeoooe eee ey 0.040 0.037 Bee aaa 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 ecoecCDCDeCCCCOOD See saoaannansid July 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 31 300 ecco epeC CCC OO See ean naid August 0.040 0.037 0.035 0.034 0.034 0.037 0.037 0.039 0.043 0.046 0.039 ° g 3 0.048 belt etd REE NTRBSS SoOON eessosss RRERRRRR ecco oeCeCCC0O 1 1 1 1 9 1 1 1 1 12 1 1 1 1 12 1 1 1 1 12 1 1 1 1 12 1 1 1 1 12 1 1 1 1 12 1 1 1 1 12 1 1 1 1 12 1 1 1 1 12 September October November December 0.040 0.040 0.038 0.038 0.037 0.037 0.036 0.036 0.035 0.035 0.034 0.034 0.034 0.034 0.034 0.034 0.034 0.034 0.033 0.033 0.037 0.037 0.034 0.034 0.037 0.037 0.038 0.038 0.039 0.039 0.042 0.042 0.043 0.043 0.042 0.042 0.046 0.046 0.047 0.047 0.039 0.039 0.048 0.048 0.047 0.047 0.047 0.047 0.048 0.048 0.045 0.045 0.049 0.049 0.047 0.047 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.048 0.044 0.044 0.049 0.049 0.047 0.047 0.046 0.046 0.046 0.046 0.043 0.043 0.042 0.042 0.038 0.038 0.040 0.040 0.038 0.038 0.039 0.039 0.041 0.041 0.040 0.040 0.044 0.044 0.041 0.041 0.040 0.040 30 31 30 31 530 935 1245 1585 11270 45217 55546 65680 66112 578927 1.7E+08 2.7E+08 3.56+08 4.4E+08 2.9E+09 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 1.7E+08 2.7E+08 3.5€+08 4.4€+08 2.9E+09 Oper. HD 10240 1270 11270 11270 11270 11270 11270 W270 11270 11270 Nee ease sanswan OCVBNADEWDNZOOVMNAUEWNO= NNN WN WCONAURWN= Heat available per hour by month 202274 187266 172259 172259 164756 172259 202274 232288 232288 257210 264446 257210 242739 257210 264446 264446 271681 249975 239791 202274 202274 224784 247295 217281 1.7E+08 Heat demand by hour by month 670622 648901 624465 601387 581024 562019 544371 529438 517220 515863 502287 498215 498215 502287 502287 517220 529438 544371 562019 581024 601387 624465 647544 670622 4.2E+08 160360 147595 134830 134830 128447 134830 160360 185891 185891 217805 224187 217805 205039 217805 224187 224187 230570 211422 192274 160360 160360 179509 198657 173126 108413 98407 88401 88401 89294 88401 108413 128425 128425 153439 158442 153439 143434 153439 158442 158442 163445 148437 133428 108413 108413 123422 138431 118419 62275 54869 47462 47462 43759 47462 62275 77089 77089 89603 93179 89603 88199 89603 93179 93179 96754 91902 80792 62275 62275 73385 84495 69682 119738 105131 95393 96436 96436 105131 105131 114869 134345 148952 114869 153821 158690 163559 158690 158690 139214 153821 148952 129476 119738 114869 119738 124607 1.2E+08 94489987 53335446 95489367 646747 625799 602234 579977 560339 542010 524991 510589 498807 497497 484405 480478 480478 484405 484405 498807 510589 524991 542010 560339 579977 602234 624490 646747 3.7E+08 621214 601094 578458 557081 538218 520613 504265 490432 479114 477857 465282 461509 461509 465282 465282 479114 490432 504265 520613 538218 557081 578458 599836 621214 3.9E+08 484503 468811 451157 434483 419772 406041 393291 382502 373675 372695 362887 359944 359944 362887 362887 373675 382502 393291 406041 419772 434483 451157 467830 484503 2.9E+08 337120 326201 313918 302316 292080 282526 273654 266147 260006 259323 252499 250452 250452 252499 252499 260006 266147 273654 282526 292080 302316 313918 325519 337120 2.1£+08 SCOSDSDSDSDDDDDDODOCDOCOCOCDOOOCOCOCOO CSCEOODDDOCDCOOCOCOOC OOOO OOOO COOOO COCOCOCCCOCOCO COO OC COCO OOCOCCOCO SSPOCOODODOCOCOOCOC OOOO ODOC OCOOCOOO 115886 101832 98319 93467 93467 101832 101832 111201 129939 143992 111201 148676 153361 158045 153361 153361 134623 148676 143992 125254 115886 111201 115886 120570 92561788 CSCOOSDDCODOOCOCOCOCOC OOOO OOOO ODO 95310 88226 79484 75113 75113 88226 88226 96968 107971 120632 96968 124852 129072 133292 129072 129072 112191 124852 120632 103751 95310 96968 95310 99530 75184282 273903 265032 255051 245625 237309 229546 222338 216239 211249 210695 205150 203487 203487 205150 205150 211249 216239 222338 229546 237309 245625 255051 264477 273903 1.7E+08 123434 108383 98349 93332 93332 108383 108383 118417 138485 153536 118417 158553 163570 168587 163570 163570 143502 158553 153536 133468 123434 118417 123434 128451 98056000 431818 417832 402098 387238 374126 361888 350524 340909 333042 332168 323426 320804 320804 323426 323426 333042 340909 350524 361888 374126 387238 402098 416958 431818 2.7E+08 152295 140035 127775 127775 121644 127775 152295 176816 176816 207466 213596 207466 195206 207466 213596 213596 219727 201336 182946 152295 152295 170685 189076 164555 1.3E+08 578103 559379 538314 518420 500866 484483 469270 456397 445865 444695 432992 429481 429481 432992 432992 445865 456397 469270 484483 500866 518420 538314 558209 578103 3.5E+08 143375 131432 119489 119489 113518 119489 143375 167260 167260 197117 203089 197117 185175 197117 203089 203089 209060 191146 173232 143375 143375 161289 179203 155318 1.2E+08 1.0E+09 699443 676789 651303 627233 605995 586173 567766 552192 539449 538033 523874 519626 519626 523874 523874 539449 552192 567766 586173 605995 627233 651303 675373 699443 4.4E+08 2.9E+09 Nee oooa nia CWVBNAUFWNBAODONAUERWN= Data table, use DATA-2 command with default values as shown: Year O fuel saving, gals. = Year: 10842 .08 1 Fuelsave: 11166 Fuel - $-saved: 12301 Discntd.: 11828 O&M/year discntd.: 1811 Accumltd: 10017 Balance : -153983 PB-years: 0.00 18 Fuelsave: 17560 Fuel - $-saved: 27087 Discntd.: 13371 O&M/year discntd.: 1811 Accumltd: 195287 Balance : 31287 PB-years: 0.00 2 11499 12921 11946 1811 20152 - 143848 0.00 19 17969 28271 13419 1811 206895 42895 0.00 21 22 23 24 3 4 11841 12175 13571 14233 12065 12167 1811 1811 30406 40761 -133594 -123239 0.00 0.00 20 18397 29523 13474 1811 218558 54558 0.00 Heat delivered by hour by month 202274 187266 172259 172259 164756 172259 202274 232288 232288 257210 264446 257210 242739 257210 264446 264446 271681 249975 239791 202274 202274 224784 247295 217281 1.7E+08 1898.3 12519 14928 12270 1811 51220 -112780 0.00 160360 108413 147595 98407 134830 88401 134830 88401 128447 89294 134830 88401 160360 108413 185891 = 128425 185891 128425 217805 = 153439 224187 = 158442 217805 = 153439 205039 = 143434 217805 = 153439 224187 = 158442 224187 = 158442 230570 = 163445 211422 = 148437 192274 133428 160360 108413 160360 108413 179509 = 123422 198657 138431 173126 = 118419 1.2E+08 94489987 1400.1 1071.3 6 7 12864 13214 15645 16393 12365 12458 1811 1811 61774 72420 -102226 -91580 0.00 0.00 62275 54869 47462 47462 43759 47462 62275 77089 77089 89603 93179 89603 88199 89603 93179 93179 96754 91902 80792 62275 62275 73385 84495 69682 53335446 604.7 13577 17180 12553 1811 83162 0.00 119738 105131 95393 96436 96436 105131 105131 114869 134345 148952 114869 153821 158690 163559 158690 158690 139214 153821 148952 129476 119738 114869 119738 124607 95489367 1082.6 9 13930 17979 12632 1811 93983 -70017 0.00 SEOSDDDDDDDDOCDDDCOCDOOCCOCCOCOOOD ° 10 14306 18834 12723 1811 104896 -59104 0.00 SESDDDSDDPDDDDCODOCOCOCCCOOOOCOODO ° 11 14693 19731 12817 1811 115902 -48098 0.00 SEOSOSDSDSDDDOCDOOCOCOCO COO OCOCOCCOCOOO ° 12 15085 20662 12905 1811 126996 ~37004 0.00 95310 88226 79484 75113 75113 88226 88226 96968 107971 120632 96968 124852 129072 133292 129072 129072 112191 124852 120632 103751 95310 96968 95310 99530 75184282 852.4 13 15492 21644 12999 1811 138184 ~25816 0.00 123434 108383 98349 93332 93332 108383 108383 118417 138485 153536 118417 158553 163570 168587 163570 163570 143502 158553 153536 133468 123434 118417 123434 128451 98056000 1111.7 14 15889 22643 13076 1811 149449 -14551 0.00 152295 140035 127775 127775 121644 127775 152295 176816 176816 207466 213596 207466 195206 207466 213596 213596 219727 201336 182946 152295 152295 170685 189076 164555 1.3E+08 1426.7 15 16313 23711 13166 1811 160804 -3196 0.00 143375 131432 119489 119489 113518 119489 143375 167260 167260 197117 203089 197117 185175 197117 203089 203089 209060 191146 173232 143375 143375 161289 179203 155318 1.2E+08 9.6£+08 1394.1 10842.1 16 17 16734 17131 24809 13246 25906 13300 1811 172239 8239 15.28 1811 183727 19727 0.00 1756 2708 1337 181 19528 3128 0.0