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Trane H-V WSHP .5 to 25 Tons Catalogue

1. E m ERE v 08 6 Ee SOR C WRG 208 60 1 Ti JCOMPRESSOR COMTACTOR 5 2 z POWER RELAT a naer cor SECTION 7 a 7 eee pee TTE T TERM STHIP LOW VOLIAGE CUST 6 FIELD NSTALLED DEVICE 11 c ONTROLLER UC 200 4 EQUIPMENT Z5 1 MOTOR COMPRESSOR 7 GROUND ZE ICI COWPRESSOR RUN CAPACITOR 7 2E IS SWITCH HIGH PRESSURE 3 p Zens LOW PRESSURE ZEE EWIICE FREEZESTAT 6 281 ZL SOL REVERSING VALVE e 3EZ HGTOR PSC HICWER TE REC NCH OVERFLOW 29 dRTT ISOR ENTERING WATER 37 ART EENSOR LEAVING WATER EU a o ZETE SENSOR DISCHARCE AR 33 R Esa FUSED DISCONNECT SWITCH Es 9 355 FAN STATUS 3327 10 LEAD COLORS EaD eck ere ORS FED m SPEED HIGH MED HIGH wen Low Low 12 13 4 is 16 w ig 19 20 naoa a IMC 22 7 VAC 23 24 A 25 B 26 ic oml IN 45 LE 1TB 1 15 1TB1 18 75 o9 9 04 DAMPER 28 VAC A pb 30 29 1761 18 6A OB ISO VLV i 1TB1 9 aE o 94 8 aut 9 en 26x 494 8 per B7A szad O t 07 1B
2. TEGEND y DEVICE UNE 460 60 3 DESIGNATION DESCo TION NUMBER K COMPRESSOR CONTACTOR 37878 C LLL 3 ars as le EQUIPMENT GROUND Ko H20 ECON RELAY 10 24 38 26 A Te HEAT CONTACTOR y 281 Se es Ce Pat JET Ty e cusTomer Low v termeLock ir P4 2 DEVICE PREF LOCATION CODE Tu CONTROL POWER TRANSFORMER m Pas ua TA AREA LOCATION 1 CONTROL PANEL Tus N62 BOARD 3o 2 GOWPRESSOR SECTION i Hd 3 pecon ANAND cor SECTION os g eio T E 5 RETURN AND FRESH AR SECTION 6 FED INSTALLED DEVICE UA BH IGH PRESSOR CUTOUT EJ PIS jr6 LOW PRESSURE CUTOUT zu 12 2 9 s 3 zd REVERSING VALVE COL 3t l o B pod 2J 5 15 38 16 Iz o ee irum A s TERS COLORS ez esee were rewesenson ERE sue ORS ara renew waren reu E 18 NOTE CONNECT 7A LEAD WITH 460 60 3 8A LEAD WHEN BLACK WIRE OF 19 1m MOTOR IS NOT BEING USED ev FUSED DISCONNECT SWITCH M KLZP 17824182 p 3 1782384 Ay mE zi 26 2h 2 FIELD SUPPLIED 1TBI 17 90A 8 TN PEE OP lt Q Y Z 91A 91A 2 FIELD SUPPLIED 1TB1 16 ISO VLV 5 O sea i 92 2 wy 1TB1 13 of fo 938 93A 25 1K10 10 11 12 s a 28 M 2B1S1 w 2B1S2 s X E 468 478 2 488
3. Model Max Min External Static Pressure in of wg Number cfm cfm 0 55 0 6 0 65 0 7 0 75 0 8 0 85 0 9 0 95 1 1 05 GEH GEV006 High 258 279 248 204 143 GEH GEV006 Med 236 205 161 100 GEH GEV006 Low 172 200 169 125 GEH GEV009 High 342 279 248 204 GEH GEV009 Med 236 205 GEH GEV009 Low 228 GEH GEV012 High 456 488 450 373 237 GEH GEV012 Med 462 424 347 211 GEH GEV012 Low 304 428 390 313 177 GEH GEV015 High 570 488 450 373 237 GEH GEV015 Med 462 424 347 GEH GEV015 Low 380 428 390 313 GEH GEV018 High 684 725 676 623 566 503 431 GEH GEV018 Med 657 608 556 504 450 GEH GEV018 Low 456 626 580 533 483 431 GEH GEV024 High 912 841 802 755 695 615 504 GEH GEV024 Med 766 723 675 623 572 GEH GEV024 Low 608 715 670 621 577 GEH GEV030 High 1080 841 802 755 695 GEH GEV030 Med 766 723 675 GEH GEV030 Low 720 715 GEH GEV036 High 1368 1396 1364 1329 1291 1249 1203 1154 1100 1042 979 GEH GEV036 Med 1272 1247 1219 1187 1152 1112 1068 1018 963 901 GEH GEV036 Low 912 1132 1116 1096 1073 1044 1010 969 922 867 GEH GEV042 High 1596 1396 1364 1329 1291 1249 1203 1154 1100 1042 GEH GEV042 Med 1272 1247 1219 1187 1152 1112 1068 1018 GEH GEV042 Low 1064 1132 1116 1096 1073 1044 GEH GEV048 High 1824 1831 1782 1734 1684 1636 1587 1540 GEH GEV048 Med 1854 1808 1761 1712 1664 1615 1566 1517 1470 GEH GEV048 Low 1216 1689
4. Table 17 Horizontal GEH ARI ISO performance Cooling Heating Cooling Heating Cooling Heating Unit Btuh EER Btuh COP Btuh EER Btuh COP Btuh EER Btuh COP Size GPM scfm WHLP WLPH WLHP WLHP GWHP GWHP GWHP GWHP GLHP GLHP GLHP GLHP 006 18 215 7 500 12 60 9 300 4 60 8 600 18 36 7 900 4 00 7 900 14 10 6 000 3 30 009 2 1 285 8 800 13 00 11 300 4 90 10 100 18 00 9 300 4 20 9 300 14 50 7 200 3 40 012 2 8 380 11 700 14 00 14 600 4 90 12 700 20 00 12 000 4 20 12 000 15 40 9 300 3 40 015 3 5 475 14 300 13 50 18 300 4 50 15 800 20 60 15 300 4 00 14 800 15 40 12 100 3 30 018 4 2 570 18 000 13 30 21 900 4 80 19 500 19 50 18 100 4 20 18 500 14 90 14 300 3 40 024 5 6 760 24 000 14 40 29 700 4 70 26 800 21 80 24 900 4 20 25 100 16 80 19 300 3 40 030 7 0 900 28 200 13 80 35 700 4 60 32 000 20 40 29 800 4 10 29 500 15 70 22 800 3 40 036 8 4 1140 35 200 14 20 44 100 4 60 39 400 21 60 36 000 4 10 36 600 16 30 28 200 3 30 042 9 8 1330 41 500 13 60 51 900 4 60 45 900 19 50 42 900 4 00 43 100 15 40 34 100 3 40 048 11 2 1520 49 700 13 90 58 200 4 80 55 700 20 60 49 300 4 20 51 800 15 90 38 700 3 60 060 14 0 1900 59 700 13 40 70 500 4 50 66 200 19 30 58 000 4 00 62 200 15 40 46 400 3 40 Note Rated in accordance with ISO Standard 13256 1 1998 Water to Air and Brine to Air Heat Pumps Certified conditions 80 6 F DB 66 2
5. EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 32 11 2 40 8 29 2 3 39 26 8 10 7 32 11 8 40 8 29 2 3 38 27 0 11 7 32 12 3 41 0 29 4 3 39 27 2 12 7 32 13 4 41 1 29 6 3 39 27 6 14 8 45 3 3 45 9 34 0 3 48 35 7 4 7 45 9 0 46 8 34 9 3 50 37 2 6 8 45 10 1 47 1 35 2 3 50 38 0 8 4 45 11 2 47 6 35 6 3 51 38 6 10 1 45 11 8 47 7 35 7 3 51 38 9 11 0 45 12 3 47 9 35 9 3 52 39 2 12 0 45 13 4 48 1 36 1 3 52 39 6 14 0 55 7 3 51 6 39 4 3 58 44 2 4 6 55 9 0 52 7 40 4 3 60 46 0 6 6 55 10 1 53 4 41 0 3 61 46 9 8 1 55 11 2 53 6 41 3 3 62 47 6 9 8 55 11 8 53 9 41 6 3 62 47 9 10 6 55 12 3 54 1 41 7 3 62 48 2 11 6 55 13 4 54 4 42 0 3 63 48 7 13 5 68 7 3 57 5 44 9 3 72 55 7 4 4 68 9 0 59 0 46 2 3 74 57 7 6 3 68 10 1 59 8 46 9 3 76 58 7 7 8 68 11 2 60 5 47 7 3 78 59 5 9 4 68 11 8 60 8 47 9 3 77 59 8 10 2 68 12 3 61 1 48 2 3 79 60 2 11 1 68 13 4 61 3 48 4 3 78 60 8 12 9 75 7 3 61 8 48 8 3 79 61 6 4 3 75 9 0 63 5 50 4 3 82 63 7 6 2 75 10 1 64 3 51 2 3 84 64 8 7 6 75 11 2 64 9 51 8 3 85 65 8 9 1 75 11 8 65 2 52 0 3 85 66 1 10 0 75 12 3 65 5 52 3 3 86 66 5 10 8 75 13 4 66 1 52 8 3 87 67 1 12 6 86 7 3 68 9 55 5 3 93 70 8 4 2 86 9 0 70 6 57 0 3 96 73 3 6 0 86 10 1 71 6 58 0 3 99 74 5 7 4 86 11 2 72 2 58 6 3 98 75 5 8 9 86 11 8 72 5 58 9 3 99 76 0 9 7 86 12 3 72 9 59 2 4 00 76 4 10 5 86 13 4 73 5 59 8 4 01 71 1 12 2 Notes 86 Heating performance data is tabulated at 68 F DB entering
6. continued on next page 34 WSHP PRCO17H EN e TRANE Performance Data Table 25 GEHO09 cooling performance continued Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 105 1 4 8 2 6 9 0 84 0 96 8 6 11 5 121 4 1 6 105 1 7 8 2 6 9 0 84 0 94 8 8 11 4 118 4 2 3 105 1 9 8 2 6 9 0 84 0 92 8 9 11 4 117 0 2 8 105 2 1 8 2 6 9 0 84 0 92 9 0 11 3 115 8 3 3 105 2 2 8 2 6 9 0 84 0 91 9 0 11 3 115 3 3 6 105 2 3 8 2 6 9 0 84 0 91 9 0 11 3 114 8 3 9 105 2 5 8 2 6 9 0 84 0 90 9 1 11 3 114 0 4 5 110 1 4 8 1 6 8 0 84 1 06 7 7 11 8 126 8 1 6 110 1 7 8 1 6 8 0 84 1 04 7 9 11 7 123 7 2 2 110 1 9 8 1 6 8 0 84 1 01 8 0 11 5 122 1 2 7 110 2 1 8 1 6 8 0 84 1 01 8 0 11 6 121 0 3 3 110 2 2 8 1 6 8 0 84 1 00 8 1 11 5 120 5 3 5 110 2 3 8 1 6 8 0 84 0 99 8 1 11 5 120 0 3 8 110 2 5 8 1 6 8 0 84 1 00 8 1 11 5 119 2 4 4 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 2 1 Minimum cfm 228 Rated cfm 285 Maximum cfm 342 Table 26 GEHO09 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP
7. Table 6 Models GEH030 060 air to refrigerant coil Model GEH 030 036 042 048 060 Working Pressure psig 650 650 650 650 650 Tubes High 17 18 18 20 20 Tubes Deep 4 3 4 4 4 No of Circuits 4 3 4 5 5 Finned vol h w d 16 x 19 x 3 5 18 x 21 x 2 6 18 x 21 x3 5 20 x 29x 3 5 20 x 29 x 3 5 Coil Surface Area Sq Ft 2 11 2 63 2 63 4 03 4 03 Fins per Inch 12 12 12 12 12 Tube Material Copper Copper Copper Copper Copper Tube OD in 3 8 3 8 3 8 3 8 3 8 Wall Thickness 0 014 0 014 0 014 0 014 0 014 Return Bends Copper Copper Copper Copper Copper Table 7 Models GEH030 060 water to refrigerant coil Model GEH 030 036 042 048 060 Working Pressure psig 780 780 780 780 660 Table 8 Models GEV006 024 Model GEV 006 009 012 015 018 024 Unit ma e 21 x 31 x 19 2134 x 314 x 19 4 21 x 31 x 1942134 x 31 x 1952134 x 39 x 2142114 x 39 x 21 Compressor Type Rotary Rotary Rotary Rotary Rotary Scroll Net Weight Ibs 165 165 173 173 248 253 Ship Weight Ibs 195 195 203 203 268 285 Filter Size Actual in 15 7 8 x 19 7 8 15 7 8 x 19 7 8 15 7 8x 19 7 8 15 7 8 x 19 7 8 19 7 8 x 19 7 8 19 7 8 x 19 7 8 Water in out size FPT p p p EZ 3A 3A Condensate size NPTI 34 34 34 34 34 34 Blower Wheel Size in 9x4 9x4 9x4 9x4 9x6 10x6 Table 9 Models GEV006 024 air to refrigerant coil Model GEV 006 009 012 015 018 024 Working Pressure psig 650 650 650 650 650 650 Tubes High 14 14 14 14 21 21 Tubes Deep 3 3 3 3 3 3 Vo of Circu
8. p 3 4 19 NPTI z eo BACK FRONT z RIGHT SIDE Table 106 Dimensional data left return left supply Unit A B c D a E FxG H J K LNPTI MNPTI N P Q R b S 006 009 40 20 15 20 15 6 7 8x 8 11 1 2 4 1 2 1 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 1016 508 381 508 381 175 x 203 292 114 45 13 13 984 476 346 470 83 012 015 49 20 15 20 15 6 7 8 x 9 7 8 11 1 2 4 1 4 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 i 1016 508 381 508 381 175 x 251 292 108 19 13 13 984 476 346 470 83 018 46 23 18 23 18 8 1 4 x 9 3 4 13 1 2 4 3 4 1 3 8 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 248 343 121 35 19 19 1137 552 422 470 108 024 030 46 23 18 23 18 8 1 4 x 11 3 8 13 1 2 4 3 4 1 3 8 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 289 343 121 35 19 19 1137 552 422 597 108 036 042 _50 25 19 25 20 10 1 2 x 13 1 2 17 4 1 3 4 3 4 48 3 4 23 3 4 17 5 8 23 1 2 3 1 4 1270 635 483 635 508 267 x 343 432 102 25 19 19 1238 603 448 597 83 Std 048 58 33 21 29 1 2 23 1 2 13 1 8 x 11 3 8 18 5 1 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 1473 838 533 597 749 333 x 289 457 133 38 25 25 1441 806 498 597 140 Hi 048 58 33 21 29 1 2 23 1 2 13 7 8 x 13 7 8 18 5 1 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8
9. Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 2 1 Minimum cfm 228 Rated cfm 285 Maximum cfm 342 Table 29 GEVO09 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 25 1 4 6 5 4 3 0 63 3 0 18 8 3 0 25 1 7 6 6 4 4 0 64 3 0 19 8 4 3 25 1 9 6 7 4 5 0 64 3 1 20 3 5 2 25 2 1 6 7 4 5 0 64 3 1 20 7 6 2 25 2 2 6 7 4 6 0 64 3 1 20 9 6 7 25 2 3 6 8 4 6 0 64 3 1 21 0 7 2 25 2 5 6 8 4 6 0 64 3 1 21 3 8 3 32 1 4 7 1 4 9 0 64 3 2 25 0 3 0 32 1 7 7 3 5 1 0 65 3 3 26 0 4 1 32 1 9 7 3 5 1 0 65 3 3 26 6 5 0 GLHP 32 2 1 7 4 5 2 0 65 3 3 27 1 6 0 32 2 2 7 4 5 2 0 65 3 4 27 3 6 5 32 2 3 7 5 5 2 0 65 3 4 27 4 7 0 32 2 5 7 5 5 3 0 65 3 4 27 8 8 1 45 1 4 8 5 6 3 0 66 3 8 36 1 2 4 45 1 7 8 7 6 4 0 67 3 8 37 4 3 3 45 1 9 8 8 6 5 0 67 3 9 38 2 4 0 45 2 1 8 8 6 6 0 67 3 9 38 7 4 8 45 2 2 8 9 6 6 0 67 3 9 39 0 5 2 45 2 3 8 9 6 6 0 67 3 9 39 2 5 6 45 2 5 9 0 6 7 0 67 3 9 39 7 6 5 55 1 4 9 6 7 3 0 68 4 1 44 6 2 3 55 1 7 9 8 7 4 0 68 4 2 46 2 3 2 continued on next page 38 WSHP PRCO17H EN e TRANE Performance Data Table 29 GEV009 heating
10. 140 Notes 1 All dimensions are in inches followed by millimeters in parenthesis 2 Access to the unit for service purposes should be provided at installation All configurations require an 18 in surround clearance from other mechanical and electrical equipment to enable panel removal from the unit for service maintenance ability Local and or NEC codes require greater service clearance Check all code requirements prior to unit installation Installer is responsible for following all local and NEC code requirements 3 Forklift is recommended when rigging the unit If hot gas reheat is specified for a size 018 or 024 the actual cabinet size increases to an 036 cabinet a Return air opening dimension b Filter rack dimension WSHP PRC017H EN 115 e TRANE Dimensional Data Figure 15 Right return back supply p 1 25 4 M c w TOP N gt lt x FXG OPENING g E lt _ o gt BLOWER ACCESS PANEL REFRIG AND CONTROL ACCESS WCI mounting location LO VOLT LEFT SIDE I H u e DRAIN 3 4 19 NPTI BACK S RIGHT SIDE 3 8 35 gt lt x Table 110 Dimensional data right return back supply Unit A B C p a E FxG H J K LNPTI MNPTI N P Q R b S 006 009 49 20 15 20 15 6 7 8x 8 11 1 2 4 1
11. 381 508 381 175 x 203 292 114 45 13 13 984 476 346 470 83 012 015 49 20 15 20 15 6 7 8x9 7 8 11 1 2 4 1 4 2 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 1016 508 381 508 381 175 x 251 292 108 70 13 13 984 476 346 470 83 018 46 23 18 23 18 8 1 4x 9 3 4 13 1 2 4 3 4 3 1 4 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 248 343 121 83 19 19 1137 552 422 470 108 024 030 46 23 18 23 18 8 1 4 x 11 3 8 13 1 2 4 3 4 3 M4 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 289 343 121 83 19 19 1137 552 422 597 108 036 042 _59 25 19 25 20 10 1 2x13 1 2 17 4 1 3 4 3 4 48 3 4 23 3 4 17 5 8 23 1 2 3 1 4 1270 635 483 635 508 267 x 343 432 102 25 19 19 1238 603 448 597 83 std o48 28 33 21 29 1 2 23 1 2 13 1 8 x 11 3 8 18 5 1 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 1473 838 533 597 749 333 x 289 457 133 38 25 25 1441 806 498 597 140 Hi 048 58 33 21 29 1 2 23 1 2 13 7 8 x 13 7 8 18 5 1 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 060 1473 838 533 597 749 352 x 352 4
12. Table 76 GEH042 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 926 0 997 0 970 1 037 1 105 53 0 1 024 0 867 56 3 0 927 0 997 0 795 1 008 1 107 58 0 1 013 0 906 60 3 0 928 0 997 0 601 0 832 1 051 63 0 1 009 0 952 63 2 0 954 0 997 0 459 0 688 0 919 1 136 68 0 1 000 1 000 66 2 1 000 1 000 0 538 0 769 1 000 1 216 73 0 0 990 1 047 72 1 1 098 1 009 0 467 0 699 0 931 78 0 0 983 1 099 77 1 1 176 0 999 0 382 0 629 83 0 0 975 1 154 Note Sensible equals total capacity 80 WSHP PRC017H EN e TRANE Performance Data Table 77 GEV042 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Uh LWT Feet Head 45 6 4 46 7 33 7 0 72 2 22 54 3 62 0 7 3 45 7 8 46 9 33 9 0 72 2 16 54 3 58 9 10 6 45 8 8 47 1 34 0 0 72 2 14 54 4 57 3 13 1 45 9 8 47 2 34 0 0 72 2 12 54 4 56 1 15 7 45 10 3 47 2 34 1 0 72 2 11 54 4 55 6 17 1 45 10 8 47 3 34 1 0 72 2 10 54 4 55 1 18 5 45 11 8 47 3 34 1 0 72 2 09 54 4 54 3 21 5 55 6 4 45 2 33 1 0 73 2 44 53 5 71 8 7 0 55 7 8 45 4 33 3 0 73 2 38 53 5 68 7 10 2 55 8 8 45 5 33 3 0 73 2 35 53 5 67 1 12 5 55 9 8 45 6 33 4 0 73 2 33 53
13. Methanol concentration by volume e TRANE Unit Fan Performance Item 0 10 20 30 40 50 Cooling Capacity 1 000 0 998 0 997 0 995 0 993 0 992 Heating Capacity 1 000 0 995 0 990 0 985 0 979 0 974 Pressure Drop 1 000 1 023 1 057 1 091 1 122 1 160 Ethylene Glycol concentration by volume Item 0 10 20 30 40 50 Cooling Capacity 1 000 0 996 0 991 0 987 0 983 0 979 Heating Capacity 1 000 0 993 0 985 0 977 0 969 0 961 Pressure Drop 1 000 1 024 1 068 1 124 1 188 1 263 Propylene Glycol concentration by volume Item 0 10 20 30 40 50 Cooling Capacity 1 000 0 993 0 987 0 980 0 974 0 968 Heating Capacity 1 000 0 986 0 973 0 960 0 948 0 935 Pressure Drop 1 000 1 040 1 098 1 174 1 273 1 405 continued on next page Brine NaCL concentration by volume Item 0 10 20 30 40 50 Cooling Capacity 1 000 0 994 0 987 0 979 0 971 0 963 Heating Capacity 1 000 0 993 0 987 0 982 0 978 0 976 Pressure Drop 1 000 1 154 1 325 1 497 1 669 1 841 Figure 8 Cooling capacity correction factor Cooling Capacity Correction Factor 1 010 i i 1 000 S 0 990 W 0980 c e Melth 9 0 970 EG E 0 960 PG 8 0 950 4 4 4 Brine 0 940 4 i WSHP PRC017H EN 0 930 10 4 20 Percent Volume of Antifreeze 30 40 50 103 e TRANE Unit Fan Performance 104 Figure 9 Heating capacity correction factor
14. Table 30 GEV009 fan correction factors Cooling I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 228 0 959 0 874 1 005 0 979 1 075 242 0 969 0 905 1 002 0 985 1 053 257 0 981 0 937 1 002 0 991 1 033 271 0 991 0 968 1 001 0 994 1 014 285 1 000 1 000 1 000 1 000 1 000 314 1 017 1 066 0 997 1 006 0 972 328 1 020 1 093 0 993 1 012 0 962 342 1 027 1 123 0 993 1 011 0 950 WSHP PRC017H EN 39 e TRANE Performance Data Table 31 GEH012 cooling performance Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 45 1 8 12 6 9 7 0 76 0 63 20 0 14 8 61 5 1 9 45 2 2 12 7 9 7 0 76 0 62 20 6 14 8 58 5 2 7 45 2 5 12 7 9 7 0 76 0 61 21 0 14 8 56 8 3 4 45 2 8 12 8 9 7 0 76 0 60 21 3 14 8 55 6 4 1 45 2 9 12 8 9 7 0 76 0 60 21 4 14 8 55 2 4 4 45 3 1 12 8 9 7 0 76 0 59 21 5 14 8 54 6 5 0 45 3 4 12 8 9 7 0 76 0 59 21 7 14 8 53 7 5 8 55 1 8 12 4 9 6 0 77 0 70 17 7 14 8 71 4 1 8 55 2 2 12 4 9 6 0 77 0 68 18 2 14 7 68 4 2 6 55 2 5 12 4 9 6 0 77 0 67 18 5 14 7 66 8 3 3 55 2 8 12 5 9 6 0 77 0 66 18 8 14 7 65 5 4 0 55 2 9 12 5 9 6 0 77 0 66 18 8 14 7 65 2 4 2 55 Sd 12 5 9 6 0 77 0 66 19 0 14 7 64 5 4 8 55 3 4 12 5 9 6 0 77 0 65 19 2 14 7 63 7 5 6 68 1 8 12 0 9 4 0 79 0 80 14 9 14 7 84 3 1 7 68 2 2 12 0 9 4 0 78 0 78 15 4 14 7 81 3 2 5 68 2 5 12 0 9 4 0 78 0 77 15 7 14 7 79 7 3 1 68 2 8 12 1
15. Table 58 GEH030 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 86 5 6 42 5 34 2 2 45 73 8 8 7 86 6 3 43 0 34 6 2 46 75 0 10 7 86 7 0 43 4 35 0 2 47 76 0 12 8 86 7 3 43 6 35 1 2 47 76 4 14 0 86 7 7 43 7 35 3 2 48 76 8 15 2 86 8 4 44 0 35 5 2 48 77 5 17 7 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 7 0 Maximum cfm 720 Rated cfm 900 Maximum cfm 1080 Table 59 GEH030 fan correction factors Cooling I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 720 0 955 0 877 1 002 0 986 1 082 765 0 968 0 907 1 002 0 989 1 057 810 0 979 0 939 1 001 0 993 1 037 855 0 990 0 970 1 000 0 997 1 019 900 1 000 1 000 1 000 1 000 1 000 990 1 018 1 060 0 999 1 006 0 973 1035 1 025 1 089 0 999 1 009 0 961 1080 1 033 1 120 0 999 1 013 0 951 Table 60 GEH030 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65
16. e TRANE Unit Fan Performance Model Max Min External Static Pressure in of wg Number cfm cfm 0 55 0 6 0 65 0 7 0 75 0 8 0 85 0 9 0 95 1 1 05 GEH GEVO006 High 258 236 205 161 GEH GEVO06 Med 200 169 GEH GEV006 Low 172 169 GEH GEVO009 High 342 236 205 GEH GEV009 Med GEH GEV009 Low 228 GEH GEVO012 High 456 462 424 347 211 GEH GEV012 Med 428 390 313 177 GEH GEVO12 Low 304 400 362 285 GEH GEVO015 High 550 462 424 347 GEH GEV0O15 Med 428 390 313 GEH GEV015 Low 380 400 362 GEH GEVO018 High 684 457 427 GEH GEVO18 Med 429 GEH GEV018 Low 456 GEH GEV024 High 912 766 723 675 623 572 GEH GEV024 Med 715 670 621 577 GEH GEV024 Low 608 642 605 GEH GEVO030 High 1009 766 723 675 GEH GEV030 Med 715 GEH GEV030 Low 720 GEH GEV036 High 1368 1272 1247 1219 1187 1152 1112 1068 1018 963 901 GEH GEV036 Med 1132 1116 1096 1073 1044 1010 969 922 867 GEH GEV036 Low 912 1025 1007 985 958 927 890 GEH GEV042 High 1436 1272 1247 1219 1187 1152 111
17. 18 3 4 13 5 8 18 1 2 3 1 4 i 1016 508 381 508 381 175 x 203 292 114 45 13 13 984 476 346 470 83 012 015 49 20 15 20 15 6 7 8 x 9 7 8 11 1 2 4 1 4 2 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 1016 508 381 508 381 175 x 251 292 108 70 13 13 984 476 346 470 83 018 46 23 18 23 18 8 1 4 x 9 3 4 13 1 2 4 3 4 3 1 4 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 248 343 121 83 19 19 1137 552 422 470 108 024 030 46 23 18 23 18 8 14x11 3 8 13 1 2 4 3 4 3 1 4 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 i 1168 584 457 584 457 210 x 289 343 121 83 19 19 1137 552 422 597 108 036 042 29 25 19 25 20 10 1 2x13 1 2 17 i402 1 3 4 3 4 48 3 4 23 3 4 17 5 8 23 1 2 3 1 4 f 1270 635 483 635 508 267 x 343 432 25 19 19 1238 603 448 597 83 std o48 28 33 21 29 1 2 23 1 2 13 1 8 x 11 3 8 18 5 1 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 1473 838 533 597 749 333 x 289 457 133 38 25 25 1441 806 498 597 140 Hi 048 58 33 21 29 1 2 23 1 2 13 7 8x 13 7 8 18 5 1 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 060 1473 83
18. Heating Capacity Correction Factor 1010 T 1 1 000 0990 S 0 980 2 e Meith S 0970 EG 8 0 960 PG 8 0 950 0 940 0 930 0 10 40 50 96 3096 Percent Volume of Anitreeze Figure 10 Water pressure drop correction factor Water Pressure Drop Correction Factor 2 200 2 000 S 1 1800 d c 1 600 e Meith eg 1400 s EG 8 PG 1200 Brine o 1 000 0 800 096 1096 30 4096 5096 2096 96 E Percent Volume of Antifreeze Example 1 Ethylene Glycol The antifreeze solution is 2096 by volume of Ethylene Glycol Determine the corrected cooling capacity and waterside pressure drop for a GEHE018 when the EWT is 86 F and the GPM is 4 2 From the catalog data the cooling capacity at these conditions with 10096 water is 18 6 Mbtuh and the waterside pressure drop is 6 0 feet of head At 2096 Ethylene Glycol the correction factor for cool capacity is 0 9912 and the pressure drop is 1 068 The corrected cooling capacity Mbtuh 18 6 0 9912 18 4 The corrected water side pressure drop Ft head 6 9 1 068 7 4 Example 2 Propylene Glycol The antifreeze solution is 3096 by volume of Propylene Glycol Determine the corrected heating capacity and waterside pressure drop for a GEHE042 when the EWT is 45 F and the GPM is 9 7 From the catalog data the heating capacity at these conditions with 10096 water is 36 7 Mbtuh and the waterside pressure drop is 16 1 fee
19. Performance Data Table 50 GEH024 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 55 5 0 26 8 20 2 1 92 47 0 10 2 55 5 6 26 9 20 4 1 92 47 7 12 2 55 5 9 27 0 20 5 1 92 48 0 13 3 55 6 2 27 1 20 5 1 92 48 3 14 5 55 6 7 27 2 20 7 1 93 48 9 16 9 68 3 6 29 2 22 4 1 99 55 7 5 5 68 4 5 29 9 23 0 2 00 57 7 7 8 68 5 0 30 2 23 3 2 01 58 7 9 6 68 5 6 30 6 23 7 2 02 59 5 11 5 68 5 9 30 6 23 7 2 02 59 9 12 5 68 6 2 30 7 23 8 2 02 60 3 13 6 68 6 7 30 8 23 9 2 02 60 9 15 9 75 3 6 31 3 24 4 2 04 61 6 5 3 75 4 5 32 1 25 0 2 07 63 8 7 6 75 5 0 32 4 25 3 2 08 64 9 9 3 75 5 6 32 7 25 6 2 09 65 9 11 1 75 5 9 32 9 25 7 2 09 66 3 12 1 75 6 2 33 0 25 8 2 10 66 6 13 2 75 6 7 33 2 26 0 2 10 67 3 15 4 86 3 6 34 9 27 5 2 17 70 9 5 2 86 4 5 35 8 28 2 2 21 73 4 7 3 86 5 0 36 2 28 6 2 23 74 7 8 9 86 5 6 36 5 28 9 2 25 75 7 10 7 86 5 9 36 7 29 0 2 25 76 1 11 6 86 6 2 36 8 29 1 2 26 76 6 12 6 86 6 7 37 1 29 3 2 27 71 3 14 7 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 5 6 Minimum cfm 608 Rated cfm 760 Maximum cfm 912 Table 51 GEH024 fan correct
20. 0 0 024 220 240 50 1 24 0 11 2 60 0 1 17 5 1 53 1 3 1 30 04 35 5 4 22 5 024 265 60 1 11 1 9 6 54 0 1 15 0 1 53 1 3 1 13 53 20 0 0 0 0 024 265 60 1 21 5 9 6 54 0 1 15 0 1 53 1 3 1 26 91 30 5 3 20 0 024 208 60 3 9 2 7 7 53 7 1 12 0 1 53 1 3 1 11 16 15 0 0 0 0 024 208 60 3 10 6 7 7 53 7 1 12 0 1 53 1 3 1 13 22 15 3 3 9 0 024 230 60 3 9 8 7 7 53 7 1 12 0 2 10 1 3 1 11 73 15 0 0 0 0 024 230 60 3 12 1 7 7 53 7 1 12 0 2 10 1 3 1 15 18 20 4 0 10 0 024 380 415 50 3 5 2 4 2 28 0 1 6 5 0 95 1 3 T 6 20 15 0 0 0 0 024 380 415 50 3 8 5 4 2 28 0 1 6 5 0 95 1 3 1 10 58 15 5 4 7 5 024 460 60 3 4 6 3 6 28 0 1 5 6 0 95 1 3 1 5 45 15 0 0 0 0 024 460 60 3 7 6 3 6 28 0 1 5 6 0 95 1 3 1 9 50 15 5 3 6 7 030 208 60 1 16 2 14 1 73 0 1 22 0 2 10 1 3 1 19 73 30 0 0 0 0 030 208 60 1 21 8 14 1 73 0 1 22 0 2 10 1 3 1 27 26 30 4 1 19 7 030 230 60 1 16 2 14 1 73 0 1 22 0 2 10 1 3 1 19 73 30 0 0 0 0 030 230 60 1 23 8 14 1 73 0 1 22 0 2 10 1 3 1 29 80 30 5 0 21 7 030 220 240 50 1 19 5 16 7 79 0 1 26 0 2 77 1 2 1 23 65 40 0 0 0 0 030 220 240 50 1 29 9 13 5 72 0 1 21 0 2 77 1 2 1 37 42 40 6 5 27 2 030 265 60 1 12 7 11 2 60 0 1 17 5 1 53 1 3 1 15 53 25 0 0 0 0 030 265 60 1 26 4 11 2 60 0 1 17 5 1 53 1 3 1 33 04 35 6 6 24 9 030 208 60 3 11 0 8 9 58 0 1 13 9 2 10 1 3 1 13 23 20 0 0 0 0 030 208 60 3 13 5 8 9 58 0 1 13 9 2 10 1 3 1 16 85 20 4 1 11 4 030 230 60 3 11 0 8 9 58 0 1 13 9 2 10 1 3 1 13 23 20 0 0 0 0
21. 0 1 22 0 2 10 1 3 1 27 26 30 4 1 19 7 030 230 60 1 16 2 14 1 73 0 1 22 0 2 10 1 3 1 19 73 30 0 0 0 0 030 230 60 1 23 8 14 1 73 0 1 22 0 2 10 1 3 1 29 80 30 5 0 21 7 030 220 240 50 1 19 5 16 7 79 0 1 26 0 2 77 1 2 1 23 65 40 0 0 0 0 030 220 240 50 1 29 9 13 5 72 0 1 21 0 2 77 1 2 1 37 42 40 6 5 27 2 030 265 60 1 12 7 11 2 60 0 1 17 5 1 53 1 3 1 15 53 25 0 0 0 0 030 265 60 1 26 4 11 2 60 0 1 17 5 1 53 1 3 1 33 04 35 6 6 24 9 030 208 60 3 11 0 8 9 58 0 1 13 9 2 10 1 3 1 13 23 20 0 0 0 0 030 208 60 3 13 5 8 9 58 0 1 13 9 2 10 1 3 1 16 85 20 4 1 11 4 030 230 60 3 11 0 8 9 58 0 1 13 9 2 10 1 3 1 13 23 20 0 0 0 0 030 230 60 3 14 7 8 9 58 0 1 13 9 2 10 1 3 1 18 31 20 5 0 12 6 030 380 415 50 3 7 5 5 8 38 0 1 9 0 1 70 1 2 1 8 95 15 0 0 0 0 030 380 415 50 3 10 8 5 8 38 0 1 9 0 1 70 1 2 1 13 46 15 6 5 9 1 030 460 60 3 5 2 4 2 28 0 1 6 5 0 95 1 3 1 6 20 15 0 0 0 0 030 460 60 3 9 2 4 2 28 0 1 6 5 0 95 1 3 1 11 54 15 6 6 8 3 036 208 60 1 20 3 16 7 79 0 1 26 0 3 60 1 2 1 24 48 40 0 0 0 0 036 208 60 1 27 2 16 7 79 0 1 26 0 3 60 1 2 1 33 95 40 4 9 23 6 036 230 60 1 20 3 16 7 79 0 1 26 0 3 60 1 2 1 24 48 40 0 0 0 0 036 230 60 1 29 7 16 7 79 0 1 26 0 3 60 1 2 1 37 11 40 6 0 26 1 036 265 60 1 16 3 13 5 72 0 1 21 0 2 77 1 2 1 19 65 30 0 0 0 0 036 265 60 1 32 8 13 5 72 0 1 21 0 2 77 1 2 1 40 96 45 8 0 30 0 036 208 60 3 14 0 10 4 73 0 1 16 3 3 60 1 2 1 16 60 25 0 0 0 0 036 208 60 3 17 2 10 4 73 0 1 16 3 3 60 1 2 1 21 50
22. 0 81 2 40 28 8 119 4 12 2 110 6 7 20 7 16 8 0 81 2 38 28 8 118 6 14 0 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 5 6 Minimum cfm 608 Rated cfm 760 Maximum cfm 912 Table 50 GEH024 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 3 6 17 9 11 7 1 83 18 6 6 8 25 4 5 18 2 12 0 1 83 19 7 9 6 25 5 0 18 4 12 1 1 83 20 2 11 7 25 5 6 18 5 12 2 1 83 20 6 13 9 25 5 9 18 5 12 3 1 83 20 8 15 2 25 6 2 18 6 12 3 1 83 21 0 16 4 25 6 7 18 7 12 4 1 83 21 3 19 1 32 3 6 19 6 13 4 1 84 24 7 6 6 32 4 5 20 0 13 7 1 84 25 9 9 3 32 5 0 20 2 13 9 1 84 26 5 11 4 32 5 6 20 3 14 0 1 84 27 0 13 6 32 5 9 20 4 14 1 1 84 27 2 14 8 32 6 2 20 4 14 1 1 84 27 4 16 0 32 6 7 20 5 14 2 1 84 27 8 18 6 45 3 6 23 2 16 9 1 87 35 7 6 2 45 4 5 23 6 17 2 1 87 37 3 8 8 45 5 0 23 9 17 5 1 88 38 1 10 7 45 5 6 24 0 17 6 1 88 38 7 12 8 45 5 9 24 1 17 7 1 88 39 0 14 0 45 6 2 24 1 17 7 1 87 39 3 15 2 45 6 7 24 2 17 8 1 88 39 7 17 7 55 3 6 26 1 19 5 1 91 44 3 5 9 55 4 5 26 5 20 0 1 91 46 1 8 3 continued on next page WSHP PRC017H EN 59 e TRANE
23. 0 84 4 87 59 7 119 7 8 0 110 13 4 43 2 36 4 0 84 4 84 59 7 118 9 9 4 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 11 2 Minimum cfm 1216 Rated cfm 1520 Maximum cfm 1824 88 WSHP PRCO17H EN e TRANE Performance Data Table 86 GEV048 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 7 3 32 1 21 1 3 23 19 2 5 0 25 9 0 32 8 21 8 3 24 20 1 4 4 25 10 1 33 2 22 1 3 25 20 6 6 2 25 11 2 33 4 22 3 3 25 21 0 7 7 25 11 8 33 5 22 4 3 26 21 2 9 3 25 12 3 33 7 22 5 3 26 21 3 10 1 25 13 4 33 8 22 7 3 26 21 6 11 0 32 7 3 35 4 24 2 3 28 25 3 13 0 32 9 0 36 0 24 8 3 29 26 5 4 3 32 10 1 36 2 25 0 3 29 27 0 6 1 32 11 2 36 6 25 3 3 30 27 5 7 5 32 11 8 36 7 25 4 3 30 27 7 9 0 32 12 3 36 9 25 6 3 30 27 8 9 9 32 13 4 36 9 25 6 3 30 28 2 10 8 45 7 3 40 9 29 4 3 38 36 9 8 3 45 9 0 41 6 30 1 3 39 38 3 4 9 45 10 1 41 9 30 3 3 39 39 0 6 4 45 11 2 42 2 30 6 3 40 39 5 7 8 45 11 8 42 3 30 7 3 40 39 8 8 9 45 12 3 42 4 30 8 3 40 40 0 9 7 45 13 4 42 6 31 0 3 41 40 4 11 0 55 7 3 46 2 34 4 3 46 45 6 7 9 55
24. 030 230 60 3 14 7 8 9 58 0 1 13 9 2 10 1 3 1 18 31 20 5 0 12 6 030 380 415 50 3 7 5 5 8 38 0 1 9 0 1 70 1 2 1 8 95 15 0 0 0 0 030 380 415 50 3 10 8 5 8 38 0 1 9 0 1 70 1 2 1 13 46 15 6 5 9 1 030 460 60 3 5 2 4 2 28 0 1 6 5 0 95 1 3 1 6 20 15 0 0 0 0 030 460 60 3 9 2 4 2 28 0 1 6 5 0 95 1 3 1 11 54 15 6 6 8 3 continued on next page 106 WSHP PRCO17H EN Table 103 Electrical data standard static motors 2 5 tons continued e TRANE Electrical Data Maximum Total Comp Comp Blower Blower Fan Minimum Overcurrent Electric Electric Model Unit RLA LRA No of Cmp Motor Motor Motor Circuit Protective Heat Heat No Volts FLA ea ea Comp MCC FLA hp Num Ampacity Device kW Amps GEHE GEVE 036 208 60 1 20 3 16 7 79 0 1 26 0 3 60 1 2 1 24 48 40 0 0 0 0 036 208 60 1 27 2 16 7 79 0 1 26 0 3 60 1 2 I 33 95 40 4 9 23 6 036 230 60 1 20 3 16 7 79 0 1 26 0 3 60 1 2 1 24 48 40 0 0 0 0 036 230 60 1 29 7 16 7 79 0 1 26 0 3 60 1 2 1 37 11 40 6 0 26 1 036 265 60 1 16 3 13 5 72 0 1 21 0 2 77 1 2 1 19 65 30 0 0 0 0 036 265 60 1 32 8 13 5 72 0 1 21 0 2 77 1 2 1 40 96 45 8 0 30 0 036 208 60 3 14 0 10 4 73 0 1 16 3 3 60 1 2 1 16 60 25 0 0 0 0 036 208 60 3 17 2 10 4 73 0 1 16 3 3 60 1 2 1 21 50 25 4 9 13 6 036 230 60 3
25. 048 230 60 1 37 6 21 4 135 0 1 33 4 2 80 1 2 1 46 98 50 8 0 34 8 048 208 60 3 17 3 14 5 98 0 1 22 6 2 80 1 2 1 20 93 35 0 0 0 0 048 208 60 3 20 8 14 5 98 0 1 22 6 2 80 1 2 1 26 05 35 6 5 18 0 048 230 60 3 17 3 14 5 98 0 1 22 6 2 80 1 2 1 20 93 35 0 0 0 0 048 230 60 3 22 9 14 5 98 0 1 22 6 2 80 1 2 1 28 60 35 8 0 20 1 048 380 415 50 3 10 5 7 8 52 0 1 12 1 2 70 1 1 12 45 20 0 0 0 0 048 380 415 50 3 14 7 7 8 52 0 1 12 1 2 70 1 1 18 33 20 8 6 12 0 048 460 60 3 7 7 6 3 55 0 1 9 9 1 40 1 2 1 9 28 15 0 0 0 0 048 460 60 3 14 7 6 3 55 0 1 9 9 1 40 1 2 1 18 38 20 10 6 13 3 continued on next page WSHP PRC017H EN 107 e TRANE Electrical Data Table 103 Electrical data standard static motors 2 5 tons continued Maximum Total Comp Comp Blower Blower Fan Minimum Overcurrent Electric Electric Model Unit RLA LRA No of Cmp Motor Motor Motor Circuit Protective Heat Heat No Volts FLA ea ea Comp MCC FLA hp Num Ampacity Device kW Amps 048 575 60 3 7 4 6 0 41 0 1 9 4 1 40 1 2 1 8 90 15 0 0 0 0 060 208 60 1 31 7 26 3 134 0 1 41 0 5 40 1 1 38 28 60 0 0 0 0 060 208 60 1 36 7 26 3 134 0 1 41 0 5 40 1 1 45 81 60 6 5 31 3 060 230 60 1 31 7 26 3 134 0 1 41 0 5 40 1 I 38 28 60 0 0 0 0 060 230 60 1 40 2 26 3 134 0 1 41 0 5 40 1 1 50 23 60 8 0 34 8 060
26. 1 000 1 000 1 000 1 000 1 000 1254 1 019 1 064 1 000 1 007 0 973 1311 1 027 1 095 1 000 1 005 0 959 1368 1 035 1 126 1 000 1 006 0 948 Table 72 GEV036 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 926 1 004 0 993 1 062 1 131 53 0 1 019 0 866 56 3 0 927 1 005 0 800 1 032 1 133 T 58 0 1 015 0 909 60 3 0 928 1 005 0 594 0 832 1 072 63 0 1 007 0 954 63 2 0 959 1 002 0 440 0 681 0 920 1 157 68 0 1 000 1 000 66 2 1 000 1 000 0 518 0 758 1 000 1 237 73 0 0 992 1 046 72 1 1 092 0 999 0 429 0 672 0 915 78 0 0 984 1 095 71 1 1 176 0 999 0 382 0 629 83 0 0 975 1 145 Note Sensible equals total capacity Table 73 GEH042 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW PUR LWT Feet Head 45 6 4 47 1 34 2 0 73 2 22 54 7 62 2 7 8 45 7 8 47 4 34 4 0 73 2 16 54 8 59 0 11 3 45 8 8 47 6 34 6 0 73 2 13 54 9 57 5 13 8 45 9 8 47 7 34 6 0 73 2 11 54 9 56 2 16 6 45 10 3 47 1 34 6 0 73 2 11 54 9 55 7 18 1 45 10 8 47 8 34 7 0 73 2 10 55 0 55 2 19 6 continued on next page WSHP PRC017H EN 77 e TRANE Performance Data Table 73 GEH042 cooling performance continue
27. 1 10 z E TRIAC iE yap ISAE yaa EC7 CE qas JS 32 n 2D 4RT2 J6A 5 93A 4B eve 23B X IA blu 06 a aq UZFO SRS mam 838 ev B3B WE 205 34 J6A 4 cz 42A J9A gt lasa 2B153 aaa 2B152434 2B1S1 aan SI ead AE 20A E 3 B04 428 z Si 5A 5A u9Ae2 1731 4 qas t Eco p52 36 e i Eb Eco i 37 a 69A 89 da 52 1781 3 q us r 38 Z 68A 68A El y 181 29 D S 40 F EC2 e wa 67A 67A ua E 1TB1 1 qai 5a ES i e EE 2 42 a3 44 dg 79A do 1781 5 Q9 QA p iTR1 59 q eos wb J6A 2 FAN LOW 63 818 BIA NO ao A m Big P Em 808 dl soad so 50 T ECS RELAYS weg NC N g glz 1 1781 qr EC9 o at mes r1 8 g 1181 8 c T al 52 BO 5 FAN 52 I T RABIN Wl Sp HAZARDOUS VOLTAGE a 1 3 E 1 UNLESS OTHERWISE NOTED ALL SWITCHES DISCONNECT ALL ELECTRIC POWER F z ARE SHOWN AT 25 C Q7 F AT RICLIONG REMGTE DISCONNECTS f lg 55 ATMOSPHERIC PRESSURE AT 50 RELATIVE FARINE TO DISCOMNEET POMR R HUMIDITY WITH ALL UTILITIES TURNED OFF BEFORE SERVIGNG CAN CAUSE n 56 AND AFTER A NORMAL SHUTDOWN HAS SEVERE PERSONAL INJURY OR DEATH 5 N CAUTION 57 2 DASHED LINES INDICATE RECOMMENDED FIELD USE COPPER CONDUCTORS ONLY WIRING BY OTHERS FIELD WIRINC TO BE RATED UNIT TERMINALS ARE NOT DESIGNED alr FOR 500 VOLTS DASHED LINE ENCLOSURE Ba ER 25 0 58 AND OR DASHED DEVICE OUTLINES INDICATE lt a COMPONENTS PROVIDED BY THE FIELD SOLID
28. 1 14 9 12 8 58 3 1 20 0 2 10 1 3 1 18 10 30 0 0 0 0 024 230 60 1 19 5 12 8 58 3 1 20 0 2 10 1 3 1 24 36 30 4 0 17 4 024 220 240 50 1 12 7 11 2 60 0 1 17 5 1 53 1 3 1 15 53 25 0 0 0 0 024 220 240 50 1 24 0 11 2 60 0 1 17 5 1 53 1 3 1 30 04 35 5 4 22 5 024 265 60 1 11 1 9 6 54 0 1 15 0 1 53 1 3 1 13 53 20 0 0 0 0 024 265 60 1 21 5 9 6 54 0 1 15 0 1 53 1 3 1 26 91 30 5 3 20 0 024 208 60 3 9 2 7 7 53 7 1 12 0 1 53 1 3 1 11 16 15 0 0 0 0 024 208 60 3 10 6 7 7 53 7 1 12 0 1 53 1 3 L 13 22 15 3 3 9 0 024 230 60 3 9 8 7 7 53 7 1 12 0 2 10 1 3 1 11 73 15 0 0 0 0 024 230 60 3 12 1 7 7 53 7 1 12 0 2 10 1 3 X 15 18 20 4 0 10 0 024 380 415 50 3 5 2 4 2 28 0 1 6 5 0 95 1 3 1 6 20 15 0 0 0 0 024 380 415 50 3 8 5 4 2 28 0 1 6 5 0 95 1 3 1 10 58 15 5 4 7 5 024 460 60 3 4 6 3 6 28 0 1 5 6 0 95 1 3 1 5 45 15 0 0 0 0 024 460 60 3 7 6 3 6 28 0 1 5 6 0 95 1 3 1 9 50 15 5 3 6 7 continued on next page WSHP PRCO17H EN 109 e TRANE Electrical Data Table 104 Electrical data High static motors 2 5 tons continued Maximum Total Comp Comp Blower Blower Fan Minimum Overcurrent Electric Electric Model Unit RLA LRA No of Cmp Motor Motor Motor Circuit Protective Heat Heat No Volts FLA ea ea Comp MCC FLA hp Num Ampacity Device kW Amps GEHE GEVE 030 208 60 1 16 2 14 1 73 0 1 22 0 2 10 1 3 1 19 73 30 0 0 0 0 030 208 60 1 21 8 14 1 73
29. 1 32 3 7 36 0 3 9 45 3 3 17 0 12 5 1 33 3 8 37 4 5 5 45 3 7 17 2 12 7 1 33 3 8 38 1 6 7 45 4 2 17 4 12 9 1 34 3 8 38 9 8 3 45 4 4 17 5 12 9 1 34 3 8 39 1 9 0 45 4 6 17 6 13 0 1 34 3 8 39 4 9 7 45 5 0 17 7 13 1 1 34 3 9 39 8 11 2 55 2 7 18 8 14 2 1 37 4 0 44 5 3 7 55 3 3 19 3 14 6 1 38 4 1 46 1 5 2 continued on next page WSHP PRC017H EN 53 e TRANE Performance Data Table 44 GEHO18 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 3 7 19 5 14 8 1 38 4 1 47 0 6 4 55 4 2 19 7 15 0 1 38 4 2 47 9 8 0 55 4 4 19 8 15 1 1 38 4 2 48 1 8 6 55 4 6 19 9 15 1 1 39 4 2 48 4 9 3 55 5 0 20 0 15 3 1 39 4 2 48 9 10 8 68 2 7 21 7 16 8 1 42 4 5 55 5 3 5 68 3 3 22 1 17 3 1 42 4 6 57 5 5 0 68 3 7 22 4 17 5 1 43 4 6 58 5 6 1 WLHP 68 4 2 22 6 17 7 1 43 4 6 59 6 7 6 68 4 4 22 7 17 8 1 43 4 6 59 9 8 2 68 4 6 22 8 17 9 1 44 4 7 60 2 8 9 68 5 0 22 9 18 0 1 43 4 7 60 8 10 3 75 2 7 23 1 18 2 1 43 4 7 61 5 3 5 75 3 3 23 6 18 7 1 44 4 8 63 7 4 9 75 3 7 23 8 18 9 1 44 4 8 64 8 6 0 75 4 2 24 1 19 1 1 44 4 9 65 9 7 4 75 4 4 24 2 19 2 1 45 4 9 66 3 8 0 75 4 6 24 2 19 3 1 45 4 9 66 6 8 7 75 5 0 24 4 19 5 1 45 4 9 67 2 10 0 86 2 7 25 1 20 1 1 45 5 1 71 1 3 3 86 3 3 25 5 20 6 1 45 5 2 73 5 4 7 86 3 7 25 8 20 8 1 45 5 2 74 7 5 8 86 4 2 26 0 21 1 1 45 5 3 76 0 7 2 86 4 4 26 1 21 2 1 45 5 3 76 4 7 8 86 4 6 26 2 21 3 1 45 5 3 76 7 8 4 86 5 0 26 3 21 3 1
30. 1 7 6 6 4 36 0 1 8 6 1 20 1 12 1 9 20 15 0 0 0 0 009 208 60 1 4 3 3 7 16 0 1 4 8 0 60 1 12 l 5 23 15 0 0 0 0 009 208 60 1 6 5 3 7 16 0 1 4 8 0 60 1 12 1 8 14 15 1 2 5 9 009 230 60 1 4 1 3 5 17 0 1 4 8 0 60 1 12 1 4 98 15 0 0 0 0 009 230 60 1 7 1 3 5 17 0 1 4 8 0 60 1 12 1 8 90 15 1 5 6 5 009 220 240 50 1 6 0 5 3 23 0 1 7 4 0 72 1 8 1 7 35 15 0 0 0 0 009 220 240 50 1 9 8 5 3 23 0 1 7 4 0 72 1 8 1 12 20 15 2 2 9 0 009 265 60 1 3 3 2 8 13 0 1 3 7 0 52 1 12 1 4 02 15 0 0 0 0 009 265 60 1 8 1 2 8 13 0 1 3 7 0 52 1 12 1 10 08 15 2 0 7 5 012 115 60 1 13 7 12 1 58 0 1 16 9 1 57 1 8 1 16 70 25 0 0 0 0 012 208 60 1 7 0 6 3 30 0 1 8 8 0 70 1 8 1 8 58 15 0 0 0 0 012 208 60 1 8 5 6 3 27 0 1 8 8 0 70 1 8 1 10 67 15 1 6 7 8 continued on next page 108 WSHP PRC017H EN Table 104 Electrical data High static motors 2 5 tons continued e TRANE Electrical Data Maximum Total Comp Comp Blower Blower Fan Minimum Overcurrent Electric Electric Model Unit RLA LRA No of Cmp Motor Motor Motor Circuit Protective Heat Heat No Volts FLA ea ea Comp MCC FLA hp Num Ampacity Device kW Amps GEHE GEVE 012 230 60 1 7 0 6 3 30 0 1 8 8 0 70 1 8 1 8 58 15 0 0 0 0 012 230 60 1 9 4 6 3 30 0 1 8 8 0 70 1 8 1 11 74 15 2 0 8 7 012 220 240 50 1 7 4 6 7 30 0 1 9 4 0 72 1 8 1 9 10
31. 10 1 14 4 111 0 1 6 95 2 2 10 9 9 0 0 83 1 04 10 5 14 4 108 1 2 3 95 2 5 10 8 9 0 0 83 1 02 10 6 14 3 106 4 2 9 95 2 8 10 8 9 0 0 83 1 02 10 7 14 3 105 2 3 6 95 2 9 10 9 9 0 0 83 1 01 10 8 14 4 104 9 3 8 95 3 10 9 9 0 0 83 1 00 10 9 14 3 104 2 4 3 95 3 4 10 9 9 0 0 83 1 00 11 0 14 3 103 4 5 0 continued on next page WSHP PRC017H EN 43 e TRANE Performance Data Table 34 GEV012 cooling performance continued Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 105 1 8 10 7 9 0 0 82 1 21 8 8 14 8 121 5 1 6 105 2 2 10 8 9 0 0 82 1 17 9 2 14 8 118 4 2 3 105 2 5 10 7 9 0 0 82 1 14 9 3 14 6 116 7 2 8 105 2 8 10 7 9 0 0 82 1 12 9 5 14 5 115 4 3 5 105 2 9 10 7 9 0 0 82 1 12 9 6 14 5 115 0 3 7 105 3 1 10 7 9 0 0 82 1 10 9 7 14 5 114 3 4 2 105 3 4 10 7 9 0 0 82 1 10 9 8 14 5 113 5 4 9 110 1 8 10 3 8 8 0 83 1 25 8 3 14 6 126 2 1 6 110 2 2 10 4 8 9 0 82 1 21 8 6 14 5 123 2 2 2 110 2 5 10 3 8 8 0 83 1 19 8 7 14 4 121 5 2 8 110 2 8 10 3 8 8 0 83 1 17 8 8 14 3 120 2 3 4 110 2 9 10 4 8 8 0 83 1 16 8 9 14 3 119 9 3 7 110 3 1 10 4 8 8 0 83 1 15 9 0 14 3 119 2 4 1 110 3 4 10 4 8 8 0 83 1 14 9 1 14 3 118 4 4 9 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditio
32. 1441 806 498 597 140 Notes 1 All dimensions are in inches followed by millimeters in parenthesis 2 Access to the unit for service purposes should be provided at installation All configurations require an 18 in surround clearance from other mechanical and electrical equipment to enable panel removal from the unit for service maintenance ability Local and or NEC codes require greater service clearance Check all code requirements prior to unit installation Installer is responsible for following all local and NEC code requirements 3 Forklift is recommended when rigging the unit If hot gas reheat is specified for a size 018 or 024 the actual cabinet size increases to an 036 cabinet a Return air opening dimension b Filter rack dimension 116 WSHP PRCO17H EN Figure 16 Right return right supply TOP BLOWER ACCESS PANEL gt 1 25 4 Le LEFT SIDE FXG HIVOLT WCI mounting location LO VOLT REFRIG AND CONTROL ACCESS e TRANE Dimensional Data BACK OPENING S M W l m 3 4 19 NPTI M i e8 RIGHT SIDE Fd E APPS t Table 111 Dimensional data right return right supply Unit A B c p E FxG H J K LNPTI MNPTI N P Q R b S 006 00g 49 20 15 20 15 6 7 8x 8 11 1 2 4 1 2 1 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 i 1016 508
33. 1644 1598 1551 1502 1454 1405 1356 1307 1260 GEH GEVO60 High 2280 1969 1924 1878 1831 1782 1734 1684 1636 1587 1540 GEH GEVO60 Med 1899 1854 1808 1761 1712 1664 1615 1566 1517 GEH GEVO60 Low 1520 1689 1644 1598 1551 1502 Table 100 Fan performance for high static motor includes wet coil and 1 filter Model Max Min External Static Pressure in of wg Number cfm cfm 1 1 1 15 1 2 1 25 1 3 1 35 1 4 GEH GEV048 High 1824 1448 1404 1362 1321 1281 1242 1201 GEH GEV048 Med 1378 1334 1292 1251 1211 GEH GEV048 Low 1216 WSHP PRCO17H EN 101 e TRANE Unit Fan Performance Table 101 Waterside economizer performance 12 5 ton Input Data Output Data Tonnage Total Sensible of Heat Model Capacity Capacity LVG Air LVG Air WB Standard APD LVG Fluid Fluid PD Pump GEH scfm GPM Mbh Mbh DB F F in wg Temp F FT H20 0 50 006 215 1 5 6 63 4 92 58 8 57 3 0 04 53 8 0 34 0 50 006 215 1 8 7 15 5 01 58 4 56 5 0 04 52 9 0 46 0 50 006 215 2 0 7 45 5 11 58 0 56 0 0 04 52 5 0 55 0 75 009 285 1 7 7 86 5 91 61 1 58 4 0 07 54 2 0 42 0 75 009 285 2 1 8 49 6 14 60 3 57 7 0 07 53 1 0 60 0 75 009 285 2 3 8 76 6 25 60 0 57 3 0 07 52 6 0 71 1 00 012 380 2 2 9 75 7 41 62 2 59 1 0 11 53 8 0 65 1 00 012 380 2 8 10 60 7 72 61 4 58 3 0 11 52 6 0 99 1 00 012 380 3 1 11 03 7 91 61 0 57 9 0 11 52 1
34. 18 0 106 6 4 1 95 3 5 13 7 11 2 0 82 1 24 11 0 17 9 105 2 5 1 95 3 6 13 7 11 2 0 82 1 24 11 1 17 9 105 0 5 3 95 3 8 13 7 11 2 0 82 1 23 11 1 17 9 104 4 5 9 95 4 2 13 7 11 2 0 82 1 22 11 2 17 9 103 5 7 0 continued on next page WSHP PRC017H EN 49 e TRANE Performance Data Table 40 GEV015 cooling performance continued Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kw EER Mbtuh LWT Feet Head 105 2 2 13 2 11 0 0 84 1 46 9 0 18 1 121 5 2 2 105 2 8 13 2 11 0 0 83 1 42 9 3 18 0 117 9 3 3 105 3 1 13 2 11 0 0 83 1 41 9 4 18 0 116 6 4 0 105 3 5 13 2 11 0 0 83 1 39 9 5 17 9 115 3 4 9 105 3 6 13 2 11 0 0 83 1 39 9 5 17 9 115 0 5 2 105 3 8 13 2 11 0 0 83 1 38 9 6 17 9 114 4 5 7 105 4 2 13 2 11 0 0 83 1 37 9 6 17 9 113 5 6 8 110 2 2 12 9 10 9 0 84 1 55 8 3 18 2 126 6 2 1 110 2 8 12 9 10 9 0 84 1 51 8 6 18 1 122 9 3 3 110 3 1 12 9 10 9 0 84 1 49 8 7 18 0 121 6 3 9 110 3 5 12 9 10 9 0 84 1 48 8 8 18 0 120 3 4 9 110 3 6 12 9 10 9 0 84 1 47 8 8 18 0 120 0 5 1 110 3 8 12 9 10 9 0 84 1 47 8 8 18 0 119 5 5 6 110 4 2 13 0 10 9 0 84 1 46 8 9 17 9 118 5 6 7 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interp
35. 2 118 7 13 6 110 10 1 30 2 25 1 0 83 2 93 40 2 118 0 15 8 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 8 4 Minimum cfm 912 Rated cfm 1140 Maximum cfm 1368 Table 66 GEH036 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 5 5 26 7 19 5 2 11 17 9 7 7 25 6 7 27 1 19 9 2 11 19 1 10 8 25 7 6 27 3 20 1 2 12 19 7 13 2 25 8 4 27 5 20 3 2 12 20 2 15 8 25 8 8 27 6 20 4 2 12 20 4 17 3 25 9 2 27 6 20 4 2 11 20 6 18 7 25 10 1 27 7 20 5 2 12 20 9 21 7 32 5 5 29 4 22 0 2 16 23 9 7 4 32 6 7 29 9 22 5 2 17 25 3 10 6 32 7 6 30 1 22 7 2 17 26 0 12 9 continued on next page 72 WSHP PRCO17H EN e TRANE Performance Data Table 66 GEH036 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 32 8 4 30 4 22 9 2 18 26 5 15 5 32 8 8 30 5 23 0 2 18 26 8 16 9 32 9 2 30 6 23 1 2 18 27 0 18 4 32 10 1 30 7 23 2 2 19 27 4 21 3 45 5 5 34 9 27 1 2 26 35 1 6 8 45 6 7 35 4 27 6 2 26 36 8 9 9 45 7 6 35 7 27 9 2 27 37 6 12 1 45
36. 20 0 45 4 6 27 1 20 1 2 04 36 2 6 3 45 5 6 27 7 20 7 2 05 37 6 9 1 45 6 3 28 0 20 9 2 06 38 4 11 2 45 7 0 28 2 21 2 2 06 38 9 13 5 45 73 28 4 21 3 2 07 39 2 14 7 45 7 7 28 5 21 4 2 07 39 4 16 0 45 8 4 28 7 21 6 2 07 39 9 18 6 55 4 6 30 4 23 3 2 10 44 8 6 0 55 5 6 31 3 24 1 2 12 46 4 8 7 continued on next page WSHP PRC017H EN 69 e TRANE Performance Data Table 62 GEV030 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 55 6 3 31 7 24 4 2 12 47 2 10 7 55 7 0 31 9 24 7 2 13 47 9 13 0 55 7 3 32 1 24 8 2 13 48 3 14 1 55 7 7 32 2 24 9 2 13 48 5 15 3 55 8 4 32 3 25 0 2 13 49 0 17 8 68 4 6 34 3 26 8 2 20 56 2 5 6 68 5 6 35 3 27 7 2 22 58 1 8 2 68 6 3 35 7 28 1 2 22 59 1 10 1 68 7 0 36 0 28 4 2 23 59 9 12 1 68 7 3 36 1 28 5 2 23 60 3 13 2 68 7 7 36 3 28 7 2 23 60 6 14 3 68 8 4 36 6 28 9 2 24 61 1 16 7 75 4 6 36 8 29 2 2 24 62 2 5 5 75 5 6 37 8 30 1 2 26 64 2 7 9 75 6 3 38 3 30 6 2 28 65 3 9 8 75 7 0 38 8 31 0 2 28 66 2 11 8 75 7 3 38 9 31 1 2 29 66 5 12 9 75 7 7 39 1 31 3 2 29 66 9 14 0 75 8 4 39 4 31 5 2 30 67 5 16 3 86 4 6 41 0 33 1 2 34 71 5 5 3 86 5 6 42 2 34 1 2 36 73 8 7 7 86 6 3 42 8 34 7 2 38 75 0 9 5 86 7 0 43 1 35 0 2 38 76 0 11 4 86 7 3 43 3 35 2 2 39 76 4 12 4 86 7 7 43 5 35 4 2 39 76 8 13 5 86 8 4 43 9 35 7 2 40 71 5 15 7 Notes Heating performance data is tabulated at 68 F DB entering ai
37. 208 60 1 12 7 9 6 42 0 1 13 4 0 90 1 8 1 15 91 20 2 5 11 8 018 230 60 1 10 5 9 6 42 0 1 13 4 0 90 1 8 1 12 90 20 0 0 0 0 018 230 60 1 13 9 9 6 42 0 1 13 4 0 90 1 8 1 17 43 20 3 0 13 0 continued on next page WSHP PRC017H EN 105 e TRANE Electrical Data Table 103 Electrical data standard static motors 2 5 tons continued Maximum Total Comp Comp Blower Blower Fan Minimum Overcurrent Electric Electric Model Unit RLA LRA No of Cmp Motor Motor Motor Circuit Protective Heat Heat No Volts FLA ea ea Comp MCC FLA hp Num Ampacity Device kW Amps GEHE GEVE 018 220 240 50 1 11 1 9 6 54 0 1 15 0 1 53 1 3 1 13 53 20 0 0 0 0 018 220 240 50 1 19 7 9 6 54 0 1 15 0 1 53 1 3 1 24 57 25 4 4 18 1 018 265 60 1 8 5 7 7 35 0 1 10 8 0 80 1 8 1 10 43 15 0 0 0 0 018 265 60 1 15 9 7 7 35 0 1 10 8 0 80 1 8 1 19 87 20 4 0 15 1 018 380 415 50 3 5 2 4 2 28 0 1 6 5 0 95 1 3 1 6 20 15 0 0 0 0 018 380 415 50 3 7 0 3 6 28 0 1 5 6 0 95 1 3 1 8 75 15 4 4 6 1 024 208 60 1 14 9 12 8 58 3 1 20 0 2 10 1 3 1 18 10 30 0 0 0 0 024 208 60 1 17 8 12 8 58 3 1 20 0 2 10 1 3 1 22 22 30 3 3 15 7 024 230 60 1 14 9 12 8 58 3 1 20 0 2 10 1 3 1 18 10 30 0 0 0 0 024 230 60 1 19 5 12 8 58 3 1 20 0 2 10 1 3 1 24 36 30 4 0 17 4 024 220 240 50 1 12 7 11 2 60 0 1 17 5 1 53 1 3 1 15 53 25 0 0
38. 25 4 9 13 6 036 230 60 3 14 0 10 4 73 0 1 16 3 3 60 1 2 1 16 60 25 0 0 0 0 036 230 60 3 18 7 10 4 73 0 1 16 3 3 60 1 2 1 23 33 25 6 0 15 1 036 380 415 50 3 7 7 6 0 44 0 1 9 3 1 70 1 2 1 9 20 15 0 0 0 0 036 380 415 50 3 11 6 6 0 44 0 1 9 3 1 70 1 2 1 14 56 15 7 2 9 9 036 460 60 3 7 5 5 8 38 0 1 9 0 1 70 1 2 1 8 95 15 0 0 0 0 036 460 60 3 11 7 5 8 38 0 1 9 0 1 70 1 2 i 14 60 15 8 0 10 0 042 208 60 1 21 5 17 9 112 0 1 28 0 3 60 1 2 1 25 98 40 0 0 0 0 042 208 60 1 31 0 17 9 112 0 1 28 0 3 60 1 2 1 38 75 40 5 7 27 4 042 230 60 1 21 5 17 9 112 0 I 28 0 3 60 1 2 1 25 98 40 0 0 0 0 042 230 60 1 34 0 17 9 112 0 1 28 0 3 60 1 2 L 42 54 45 7 0 30 4 042 208 60 3 17 1 13 5 88 0 1 21 1 3 60 1 2 1 20 48 30 0 0 0 0 042 208 60 3 19 4 13 5 88 0 1 21 1 3 60 1 2 1 24 28 30 5 7 15 8 042 230 60 3 17 1 13 5 88 0 1 21 1 3 60 1 2 1 20 48 30 0 0 0 0 042 230 60 3 21 2 13 5 88 0 1 21 1 3 60 1 2 L 26 46 30 7 0 17 6 042 380 415 50 3 9 0 6 3 55 0 1 9 9 2 70 1 1 10 58 15 0 0 0 0 042 380 415 50 3 14 7 6 3 55 0 1 9 9 2 70 1 1 18 33 20 8 6 12 0 continued on next page 110 WSHP PRCO17H EN Table 104 Electrical data High static motors 2 5 tons continued e TRANE Electrical Data Maximum Total Comp Comp Blower Blower Fan Mi
39. 29 5 1 76 5 6 8 86 4 2 22 5 18 1 1 29 5 1 77 4 8 1 Notes Table 39 GEHO015 fan correction factors Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 3 5 Minimum cfm 380 Rated cfm 475 Maximum cfm 570 Cooling Input Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 380 0 960 0 878 1 005 0 993 1 100 404 0 970 0 907 1 004 0 991 1 067 428 0 981 0 939 1 002 0 998 1 045 451 0 991 0 969 1 001 0 996 1 017 475 1 000 1 000 1 000 1 000 1 000 523 1 017 1 059 0 998 1 000 0 963 546 1 024 1 088 0 997 1 000 0 948 570 1 031 1 117 0 996 1 002 0 932 48 WSHP PRCO17H EN e TRANE Performance Data Table 40 GEV015 cooling performance Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 45 2 2 15 5 11 9 0 77 0 70 22 1 17 9 61 3 2 6 45 2 8 15 6 11 9 0 77 0 66 23 5 17 8 57 7 4 1 45 3 1 15 6 11 9 0 76 0 65 24 0 17 8 56 5 4 9 45 35 15 7 12 0 0 76 0 64 24 6 17 9 55 2 6 0 45 3 6 15 7 12 0 0 76 0 63 24 8 17 8 54 9 6 3 45 3 8 15 7 12 0 0 76 0 63 25 0 17 9 54 4 7 0 4
40. 3 0 82 1 75 9 3 22 2 113 9 8 3 110 2 7 15 8 13 2 0 83 2 00 7 9 22 6 126 8 2 7 110 3 3 15 8 13 2 0 83 1 95 8 1 22 5 123 6 3 9 110 3 7 15 8 13 2 0 83 1 92 8 2 22 4 122 1 4 8 110 4 2 15 9 13 2 0 83 1 90 8 4 22 3 120 6 6 0 110 4 4 15 9 13 2 0 83 1 89 8 4 22 3 120 2 6 5 110 4 6 15 9 13 2 0 83 1 88 8 4 22 3 119 7 7 0 110 5 0 15 9 13 2 0 83 1 87 8 5 22 3 118 9 8 1 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 4 2 Minimum cfm 456 Rated cfm 570 Maximum cfm 684 Table 44 GEHO018 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 25 2 7 12 6 8 4 1 24 3 0 18 8 4 9 25 3 3 12 8 8 6 1 24 3 0 19 8 7 0 25 3 7 13 0 8 7 1 25 3 1 20 3 8 5 25 4 2 13 1 8 8 1 25 3 1 20 8 10 6 25 4 4 13 1 8 9 1 25 3 1 21 0 11 5 25 4 6 13 2 8 9 1 25 3 1 21 1 12 4 25 5 0 13 3 9 0 1 25 3 1 21 4 14 4 32 2 7 13 8 9 5 1 26 3 2 25 0 4 8 32 3 3 14 1 9 8 1 27 3 3 26 1 6 8 32 3 7 14 2 9 9 1 27 3 3 26 6 8 3 GLHP 32 4 2 14 4 10 0 1 27 3 3 27 2 10 3 32 4 4 14 5 10 1 1 28 3 3 27 4 11 2 32 4 6 14 5 10 2 1 28 3 3 27 6 12 1 32 5 0 14 6 10 3 1 28 3 3 27 9 14 0 45 2 7 16 6 12 1
41. 31 7 0 81 3 50 51 2 106 6 11 0 95 9 8 39 3 31 7 0 81 3 46 51 1 105 4 13 3 95 10 3 39 3 31 8 0 81 3 45 51 1 104 9 14 4 95 10 8 39 4 31 8 0 81 3 44 51 1 104 5 15 7 95 11 8 39 4 31 8 0 81 3 42 51 1 103 7 18 3 105 6 4 36 7 30 5 0 83 4 06 50 5 120 9 6 0 105 7 8 36 9 30 7 0 83 3 96 50 4 117 9 8 7 105 8 8 37 0 30 8 0 83 3 91 50 4 116 4 10 7 105 9 8 37 1 30 9 0 83 3 88 50 3 115 3 12 9 105 10 3 37 1 30 9 0 83 3 86 50 3 114 8 14 1 105 10 8 37 1 30 9 0 83 3 85 50 3 114 3 15 3 105 11 8 37 2 31 0 0 83 3 83 50 2 113 5 17 8 continued on next page 78 WSHP PRCO17H EN e TRANE Performance Data Table 73 GEH042 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW MD LWT Feet Head 110 6 4 35 5 30 1 0 85 4 30 50 2 125 8 5 9 110 7 8 35 7 30 3 0 85 4 20 50 1 122 8 8 6 110 8 8 35 8 30 3 0 85 4 15 50 0 121 3 10 6 110 9 8 35 9 30 4 0 85 4 11 49 9 120 2 12 7 110 10 3 35 9 30 4 0 85 4 10 49 9 119 7 13 9 110 10 8 35 9 30 4 0 85 4 08 49 9 119 3 15 1 110 11 8 36 0 30 5 0 85 4 06 49 8 118 5 17 5 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 9 3 Minimu
42. 4 5 26 9 18 8 0 70 1 19 31 0 58 8 8 4 45 5 0 27 0 18 9 0 70 1 17 31 0 57 3 10 3 45 5 6 27 1 18 9 0 70 1 15 31 0 56 1 12 3 45 5 9 27 1 19 0 0 70 1 14 31 0 55 6 13 4 45 6 2 27 2 19 0 0 70 1 14 31 1 55 1 14 6 45 6 7 27 2 19 0 0 70 1 12 31 1 54 2 17 1 55 3 6 26 0 18 4 0 71 1 41 30 8 71 9 5 7 55 4 5 26 1 18 5 0 71 1 36 30 8 68 7 8 0 55 5 0 26 2 18 6 0 71 1 34 30 8 67 2 9 8 55 5 6 26 3 18 6 0 71 1 32 30 8 66 0 11 8 55 5 9 26 3 18 6 0 71 1 31 30 8 65 5 12 8 55 6 2 26 3 18 6 0 71 1 31 30 8 65 0 13 9 55 6 7 26 4 18 7 0 71 1 29 30 8 64 2 16 3 68 3 6 25 0 18 5 0 74 1 61 30 5 84 7 5 3 68 4 5 25 1 18 6 0 74 1 57 30 5 81 6 7 6 68 5 0 25 2 18 7 0 74 1 54 30 5 80 1 9 2 68 5 6 25 3 18 7 0 74 1 53 30 5 78 9 11 1 68 5 9 25 3 18 7 0 74 1 52 30 5 78 4 12 1 68 6 2 25 4 18 8 0 74 1 51 30 5 77 9 13 1 68 6 7 25 4 18 8 0 74 1 50 30 5 77 1 15 4 75 3 6 24 4 18 2 0 75 1 75 30 3 91 7 5 1 75 4 5 24 5 18 4 0 75 1 70 30 3 88 5 7 4 75 5 0 24 6 18 4 0 75 1 67 30 3 87 0 9 0 75 5 6 24 7 18 5 0 75 1 66 30 4 85 8 10 8 75 5 9 24 7 18 5 0 75 1 65 30 4 85 3 11 7 75 6 2 24 8 18 5 0 75 1 64 30 4 84 9 12 7 75 6 7 24 8 18 6 0 75 1 63 30 4 84 0 14 9 86 3 6 23 5 18 0 0 77 1 97 30 2 102 6 5 0 continued on next page WSHP PRC017H EN 61 e TRANE Performance Data Table 53 GEV024 cooling performance continued Notes Table 54 GEV024 heating performance EWT GPM Total Mbtuh Sen Mbtuh SHR Po
43. 44 5 3 71 5 9 7 Notes Table 45 GEHO18 fan correction factors Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 4 2 Minimum cfm 456 Rated cfm 570 Maximum cfm 684 Cooling Input Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 456 0 963 0 880 1 003 0 983 1 089 485 0 973 0 909 1 002 0 991 1 063 513 0 983 0 940 1 001 0 995 1 039 542 0 993 0 971 1 001 0 995 1 017 570 1 000 1 000 1 000 1 000 1 000 627 1 014 1 060 1 000 1 001 0 964 656 1 021 1 086 1 000 1 004 0 951 684 1 026 1 113 1 000 1 006 0 939 54 WSHP PRCO17H EN e TRANE Performance Data Table 46 GEVO18 cooling performance Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 45 2 7 18 5 14 1 0 76 0 92 20 1 21 6 61 0 3 2 45 3 3 18 5 14 1 0 76 0 89 20 8 21 6 58 1 4 6 45 3 7 18 5 14 1 0 76 0 88 21 2 21 5 56 6 5 6 45 4 2 18 5 14 1 0 76 0 86 21 5 21 5 55 2 7 0 45 4 4 18 5 14 1 0 76 0 85 21 7 21 4 54 7 7 6 45 4 6 18 5 14 1 0 76 0 85 21 8 21 4 54 3 8 2 45 5 0 18 5 14 1 0 76 0 84 22 0 21 4
44. 475 GEH GEV018 Low 456 632 624 615 604 592 578 561 540 513 481 431 GEH GEV024 High 912 922 903 883 860 833 802 GEH GEVO24 Med 915 901 891 879 866 851 835 819 801 779 751 GEH GEVO24 Low 608 827 819 806 793 780 769 756 741 723 701 674 GEH GEV030 High 1009 1009 988 971 955 939 922 903 883 860 833 802 GEH GEV030 Med 915 901 891 879 866 851 835 819 801 719 751 GEH GEV030 Low 720 827 819 806 793 780 769 756 741 723 701 GEH GEV036 High 1368 1381 1366 1351 1334 1315 1295 GEH GEV036 Med 1221 1218 1216 1211 1206 1199 1190 1181 1170 1159 1146 GEH GEV036 Low 912 1099 1094 1090 1087 1083 1079 1075 1069 1062 1052 1040 GEH GEV042 High 1436 1436 1427 1417 1406 1394 1381 1366 1351 1334 1315 1295 GEH GEV042 Med 1221 1218 1216 1211 1206 1199 1190 1181 1170 1159 1146 GEH GEV042 Low 1064 1099 1094 1090 1087 1083 1079 1075 1069 1062 GEH GEVO048 High 1824 1850 1786 1732 1686 1646 1608 1572 1536 1499 1459 1417 GEH GEV048 Med 1783 1724 1675 1632 1595 1560 1526 1491 1455 1417 1376 GEH GEV048 Low 1216 1687 1639 1598 1562 1530 1499 1467 1434 1399 1362 1321 GEH GEVO060 High 2226 2266 2246 2221 2194 2165 2133 2099 2063 2024 1984 1943 GEH GEVO60 Med 2056 2036 2011 1984 1955 1923 1889 1853 1814 1774 1733 GEH GEVO60 Low 1520 1883 1863 1838 1811 1782 1750 1716 1680 1641 1601 1560 98 WSHP PRCO17H EN Table 98 Fan performance for standard static motor includes wet coils and 1 filter continued
45. 5 105 7 4 25 6 20 7 0 81 2 67 34 7 114 4 11 5 105 7 7 25 6 20 7 0 81 2 66 34 7 114 0 12 5 105 8 4 25 7 20 7 0 81 2 65 34 7 113 3 14 5 110 4 6 24 5 20 1 0 82 2 98 34 6 125 2 4 9 110 5 6 24 7 20 3 0 82 2 92 34 7 122 4 7 0 110 6 3 24 7 20 3 0 82 2 87 34 5 121 0 8 6 110 7 0 24 8 20 3 0 82 2 85 34 5 119 9 10 4 110 7 4 24 8 20 3 0 82 2 84 34 5 119 4 11 3 110 7 7 24 8 20 4 0 82 2 83 34 5 119 0 12 3 110 8 4 24 9 20 4 0 82 2 81 34 5 118 2 14 3 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 7 0 Maximum cfm 720 Rated cfm 900 Maximum cfm 1080 Table 62 GEV030 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 4 6 21 2 14 5 1 96 18 6 6 8 25 5 6 21 6 14 9 1 96 19 7 9 9 25 6 3 21 8 15 1 1 97 20 2 12 3 25 7 0 21 9 15 2 1 97 20 7 14 9 25 7 3 22 1 15 3 1 97 20 8 16 2 25 7 7 22 15 4 1 97 21 0 17 6 25 8 4 22 2 15 5 1 97 21 3 20 5 32 4 6 23 3 16 5 1 99 24 7 6 7 32 5 6 23 7 16 9 1 99 26 0 9 8 32 6 3 24 0 17 2 1 99 26 5 12 1 32 7 0 24 2 17 4 2 00 27 0 14 6 32 7 3 24 3 17 5 2 00 27 3 15 9 32 7 7 24 4 17 6 2 00 27 4 17 2 32 8 4 24 5 17 7 2 00 27 8
46. 5 9 6 0 77 0 58 21 6 14 4 55 3 4 2 45 2 9 12 5 9 6 0 77 0 57 21 7 14 4 55 0 4 5 45 3 1 12 5 9 6 0 77 0 57 21 9 14 4 54 3 5 0 45 3 4 12 5 9 6 0 76 0 57 22 1 14 4 53 5 5 9 55 1 8 12 3 9 5 0 77 0 71 17 3 14 7 71 4 1 9 55 2 2 12 4 9 6 0 77 0 69 17 9 14 7 68 4 2 6 55 2 5 12 4 9 6 0 77 0 68 18 2 14 7 66 8 3 3 55 2 8 12 4 9 6 0 77 0 67 18 5 14 7 65 5 4 1 55 2 9 12 4 9 6 0 77 0 67 18 5 14 7 65 1 4 3 55 3 1 12 4 9 6 0 77 0 67 18 7 14 7 64 5 4 9 55 3 4 12 4 9 6 0 77 0 66 18 8 14 7 63 7 5 7 68 1 8 11 9 9 4 0 79 0 81 14 8 14 6 84 3 1 8 68 2 2 11 9 9 4 0 79 0 79 15 2 14 6 81 3 2 5 68 2 5 12 0 9 4 0 79 0 77 15 4 14 6 79 7 3 2 68 2 8 12 0 9 4 0 79 0 77 15 6 14 6 78 4 3 9 68 2 9 12 0 9 4 0 79 0 76 15 7 14 6 78 1 4 1 68 3 1 12 0 9 4 0 79 0 76 15 8 14 6 77 4 4 6 68 3 4 12 0 9 4 0 78 0 75 15 9 14 6 76 6 5 4 77 1 8 11 6 9 3 0 80 0 88 13 1 14 6 93 2 1 7 77 2 2 11 6 9 3 0 80 0 86 13 5 14 5 90 2 2 4 77 2 5 11 6 9 3 0 80 0 85 13 7 14 5 88 6 3 1 GLHP 77 2 8 11 6 9 3 0 80 0 84 13 9 14 5 87 4 3 8 77 2 9 11 6 9 3 0 80 0 84 13 9 14 5 87 0 4 0 77 Bid 11 7 9 3 0 80 0 83 14 0 14 5 86 4 4 5 77 3 4 11 7 9 3 0 80 0 83 14 1 14 5 85 5 5 3 86 1 8 11 2 9 1 0 81 0 97 11 6 14 5 102 1 1 7 86 2 2 11 3 9 1 0 81 0 94 11 9 14 5 99 2 2 4 86 2 5 11 3 9 1 0 81 0 93 12 1 14 4 97 6 3 0 WLHP 86 2 8 11 3 9 2 0 81 0 92 12 3 14 4 96 3 3 6 86 2 9 11 3 9 2 0 81 0 92 12 3 14 4 95 9 3 9 86 3 1 11 3 9 2 0 81 0 91 12 4 14 4 95 3 4 4 86 3 4 11 3 9 2 0 81 0 91 12 5 14 4 94 5 5 1 95 1 8 10 8 9 0 0 83 1 06
47. 6 65 9 15 1 55 10 3 45 6 33 4 0 73 2 32 53 6 65 4 16 4 55 10 8 45 7 33 5 0 73 2 31 53 6 64 9 17 8 55 11 8 45 8 33 5 0 73 2 29 53 6 64 1 20 7 68 6 4 43 3 32 6 0 75 2 75 52 7 84 6 6 6 68 7 8 43 6 32 8 0 75 2 67 52 7 81 4 9 6 68 8 8 43 7 32 9 0 75 2 64 52 7 80 0 11 9 68 9 8 43 8 33 0 0 75 2 62 52 7 78 8 14 2 68 10 3 43 9 33 0 0 75 2 61 52 8 78 3 15 5 68 10 8 43 9 33 0 0 75 2 60 52 8 77 8 16 8 68 11 8 44 0 33 1 0 75 2 58 52 8 77 0 19 6 75 6 4 42 1 32 2 0 76 2 94 52 2 91 4 6 5 75 7 8 42 4 32 3 0 76 2 87 52 2 88 3 9 4 75 8 8 42 5 32 4 0 76 2 84 52 2 86 8 11 5 75 9 8 42 6 32 5 0 76 2 81 52 2 85 7 13 9 75 10 3 42 6 32 5 0 76 2 80 52 2 85 1 15 1 75 10 8 42 7 32 6 0 76 2 79 52 2 84 7 16 4 75 11 8 42 7 32 6 0 76 2 77 52 2 83 9 19 1 86 6 4 39 7 30 9 0 78 3 26 50 8 102 0 6 2 86 7 8 40 0 31 1 0 78 3 18 50 8 99 0 9 0 86 8 8 40 1 31 2 0 78 3 15 50 8 97 5 11 1 86 9 8 40 2 31 3 0 78 3 12 50 8 96 4 13 3 86 10 3 40 2 31 3 0 78 3 11 50 8 95 9 14 5 86 10 8 40 2 31 4 0 78 3 10 50 8 95 4 15 7 86 11 8 40 3 31 4 0 78 3 08 50 8 94 6 18 2 95 6 4 38 0 30 3 0 80 3 60 50 3 110 8 5 9 95 7 8 38 2 30 5 0 80 3 51 50 2 107 8 8 5 95 8 8 38 4 30 6 0 80 3 47 50 2 106 4 10 5 95 9 8 38 4 30 7 0 80 3 44 50 2 105 2 12 6 95 10 3 38 5 30 7 0 80 3 43 50 2 104 8 13 8 95 10 8 38 5 30 7 0 80 3 42 50 2 104 3 14 9 95 11 8 38 6 30 8 0 80 3 39 50 2 103 5 17 4 continued on next page WSHP PRC017H EN 81 e TRANE Performance Data Table 77 GEV042 cooling perfo
48. 60 3 L2 r 1 1 d EQUIPMENT GROUND 1 uE 2 4 5A y 58 P42 J4 2 72 4A gt 4B 2B1 m PAV J n IBI 2 P O P4 3 J4 3 3 ee ae i INSET A A 1 15 l 181 6 ISOLATION vave B14 i NT OPENI J I 17 1 eost 1 1 i i 18 181 1 FOR TWO WIRE VALVE USE 1 19 TERMINALS 1TB1 6 AND 1TB1 1 L 4 AC 3782 1 amp 2 g 21 460 60 3 171 q fi CUSTOMER LOW V TERM BLOCK 1782 CONTROL TERMINAL BLOCK 71 CONTROL POWER TRANSFORMER 1U2 COMPR CONTROL MODULE 6 FELD INSTALLED DEVICE OVERFLOW SWITCH LOW PRESSURE SWITCH FREEZE PROTECTION SWITCH Bat 1TB2 3 amp 4 FUSED DISCONNECT SWITCH 21 22 23 2 1 24 234 AP 25 26 237 21c 28 29 30 31 32 3 Mo cm la N B 1TB1 1 41TB1 2 l1TB1 3 ITB1 4 36 ga F22 ES Ne Swarp STAGE 39 ROOM i8 R 4 TSA s Tr REFER TO THERMOSTAT MANUAL 4 FOR FIELD CONNECTIONS 42 43 45 46 4 48 49 50 51 52 5 54 55 NOTES 4 ALL FIELD WIRING MUST BE IN ACCORDANCE WITH TEM ins NOTED AL SWITCHES THE NATIONAL ELECTRIC CODE NEC STATE AND Dm ATMOSP
49. 7 0 30 4 22 5 0 74 1 76 36 4 78 4 12 1 68 7 4 30 4 22 6 0 74 1 75 36 4 77 9 13 2 68 7 7 30 4 22 6 0 74 1 75 36 4 77 5 14 3 68 8 4 30 5 22 6 0 74 1 73 36 4 76 7 16 7 75 4 6 29 2 22 0 0 75 2 01 36 1 90 9 5 5 75 5 6 29 4 22 1 0 75 1 95 36 1 87 9 7 9 75 6 3 29 5 22 2 0 75 1 93 36 1 86 5 9 8 75 7 0 29 6 22 2 0 75 1 91 36 1 85 3 11 8 75 7 4 29 6 22 3 0 75 1 90 36 1 84 8 12 9 75 7 7 29 6 22 3 0 75 1 89 36 1 84 4 14 0 75 8 4 29 7 22 3 0 75 1 88 36 1 83 6 16 3 86 4 6 27 9 21 5 0 77 2 26 35 6 101 7 5 3 86 5 6 28 1 21 6 0 77 2 20 35 6 98 7 7 7 86 6 3 28 1 21 6 0 77 2 17 35 6 97 3 9 5 86 7 0 28 2 21 7 0 77 2 15 35 6 96 2 11 4 86 7 4 28 2 21 7 0 77 2 14 35 6 95 7 12 4 86 7 7 28 3 21 7 0 77 2 14 35 6 95 2 13 5 86 8 4 28 3 21 8 0 77 2 12 35 6 94 5 15 7 95 4 6 26 7 21 0 0 79 2 50 35 3 110 5 5 1 95 5 6 26 9 21 2 0 79 2 44 35 2 107 6 7 3 95 6 3 27 0 21 2 0 79 2 41 35 2 106 2 9 0 95 7 0 27 0 21 3 0 79 2 39 35 2 105 1 10 8 95 7 4 27 1 21 3 0 79 2 38 35 2 104 6 11 8 95 7 7 27 1 21 3 0 79 2 37 35 2 104 1 12 8 95 8 4 27 1 21 3 0 79 2 35 35 2 103 4 14 9 continued on next page 68 WSHP PRCO17H EN e TRANE Performance Data Table 61 GEV030 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW CUR LWT Feet Head 105 4 6 25 3 20 4 0 81 2 81 34 9 120 3 4 9 105 5 6 25 4 20 5 0 81 2 74 34 8 117 4 7 1 105 6 3 25 5 20 6 0 81 2 71 34 8 116 0 8 7 105 7 0 25 6 20 7 0 81 2 68 34 8 114 9 10
50. 73 5 2 7 86 2 5 17 4 14 0 1 02 5 0 74 8 3 4 86 2 8 17 7 14 2 1 02 Sul 75 9 4 1 86 2 9 17 7 14 3 1 02 5 4 76 2 4 4 86 3 1 17 8 14 3 1 02 5 1 76 8 4 9 86 3 4 17 9 14 4 1 02 E 77 5 5 7 Notes Table 33 GEH012 fan correction factors Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 2 8 Minimum cfm 304 Rated cfm 380 Maximum cfm 456 Cooling I nput Heating Input Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 304 0 959 0 874 1 005 0 987 1 094 323 0 970 0 906 1 003 0 989 1 065 342 0 981 0 937 1 002 0 996 1 041 361 0 991 0 969 1 001 0 994 1 016 380 1 000 1 000 1 000 1 000 1 000 418 1 017 1 062 0 999 1 002 0 964 437 1 024 1 091 0 998 1 006 0 952 456 1 031 1 121 0 997 1 004 0 937 42 WSHP PRCO17H EN e TRANE Performance Data Table 34 GEV012 cooling performance Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 45 1 8 12 4 9 5 0 77 0 61 20 3 14 5 61 1 1 9 45 2 2 12 4 9 5 0 77 0 59 20 9 14 4 58 1 2 7 45 2 5 12 5 9 5 0 77 0 59 21 3 14 5 56 6 3 4 45 2 8 12
51. 9 0 14 6 118 2 2 2 105 2 5 10 6 8 9 0 84 1 16 9 1 14 5 116 6 2 8 105 2 8 10 6 8 9 0 84 1 15 9 2 14 5 115 3 3 4 105 2 9 10 6 8 9 0 84 1 14 9 2 14 5 115 0 3 6 105 3 1 10 6 8 9 0 84 1 14 9 3 14 5 114 3 4 1 105 3 4 10 6 8 9 0 84 1 13 9 3 14 4 113 5 4 8 110 1 8 10 2 8 8 0 86 1 29 7 9 14 6 126 2 1 5 110 2 2 10 2 8 8 0 86 1 26 8 2 14 5 123 2 2 2 110 2 5 10 3 8 8 0 85 1 24 8 3 14 5 121 6 2 7 110 2 8 10 3 8 8 0 85 1 23 8 4 14 5 120 4 3 3 110 2 9 10 3 8 8 0 85 1 22 8 4 14 5 120 0 3 6 110 3 1 10 3 8 8 0 85 1 22 8 5 14 5 119 3 4 0 110 3 4 10 3 8 8 0 85 1 21 8 5 14 5 118 5 4 7 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 2 8 Minimum cfm 304 Rated cfm 380 Maximum cfm 456 Table 32 GEH012 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 25 1 8 8 5 5 5 0 87 2 8 18 9 2 8 25 2 2 8 6 5 7 0 87 2 9 19 9 4 0 25 2 5 8 7 5 7 0 88 2 9 20 4 5 0 25 2 8 8 8 5 8 0 88 2 9 20 8 6 1 25 2 9 8 8 5 8 0 88 2 9 21 0 6 5 25 3 1 8 9 5 9 0 88 3 0 21 2 7 3 25 3 4 8 9 5 9 0 88 3 0 21 5 8 5 32 1 8 9 3 6 3 0 89 3 1 25 0 2 7 32 2 2 9 5 6 5 0 89 3 1 26 1 3 9 32
52. 9 0 46 9 35 1 3 47 47 2 4 7 55 10 1 47 3 35 4 3 48 48 0 6 2 55 11 2 47 7 35 8 3 49 48 6 7 5 55 11 8 47 8 35 9 3 49 48 9 8 6 55 12 3 48 0 36 1 3 49 49 1 9 4 55 13 4 48 1 36 2 3 49 49 6 10 6 68 7 3 52 3 40 1 3 59 57 0 7 7 68 9 0 53 2 40 9 3 61 58 9 4 5 68 10 1 53 7 41 4 3 62 59 8 6 0 68 11 2 54 1 41 8 3 62 60 5 7 3 68 11 8 54 2 41 8 3 62 60 9 8 3 68 12 3 54 4 42 0 3 63 61 2 9 0 68 13 4 54 6 42 2 3 63 61 7 10 2 75 7 3 56 3 43 8 3 66 63 0 7 4 75 9 0 57 4 44 8 3 68 65 0 4 4 75 10 1 57 9 45 3 3 69 66 0 5 8 75 11 2 58 3 45 7 3 70 66 8 7 1 75 11 8 58 7 46 0 3 71 67 2 8 1 75 12 3 58 7 46 1 3 71 67 5 8 8 75 13 4 59 0 46 3 3 71 68 1 9 9 86 7 3 62 8 50 0 3 76 72 3 7 1 continued on next page WSHP PRC017H EN 89 e TRANE Performance Data Table 86 GEV048 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 86 9 0 64 0 51 1 3 78 74 6 4 2 86 10 1 64 9 51 9 3 80 75 7 5 6 86 11 2 65 0 52 1 3 80 76 7 6 8 86 11 8 65 2 52 3 3 80 77 1 7 7 86 12 3 65 4 52 5 3 80 77 5 8 4 86 13 4 65 8 52 8 3 81 78 1 9 5 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 11 2
53. 9 7 5 0 76 0 57 17 5 11 9 67 5 3 2 55 2 1 10 0 7 5 0 76 0 56 17 7 11 9 66 3 3 9 55 2 2 10 0 7 6 0 76 0 56 17 8 11 9 65 8 4 2 55 2 3 10 0 7 6 0 75 0 56 17 9 11 9 65 4 4 6 55 2 5 10 0 7 6 0 75 0 56 18 0 11 9 64 6 5 3 68 1 4 9 3 7 3 0 78 0 64 14 6 11 5 84 4 1 8 68 1 7 9 4 7 3 0 78 0 62 15 0 11 5 81 5 2 5 68 1 9 9 4 7 3 0 78 0 62 15 2 11 5 80 1 3 1 68 2 1 9 4 7 3 0 78 0 61 15 4 11 5 79 0 3 7 68 2 2 9 5 7 4 0 78 0 61 15 5 11 5 78 5 4 0 68 2 3 9 5 7 4 0 78 0 61 15 5 11 6 78 0 4 3 68 2 5 9 5 7 4 0 78 0 61 15 6 11 6 71 3 5 0 77 1 4 9 0 7 2 0 80 0 69 13 0 11 4 93 3 1 8 77 1 7 9 1 7 2 0 79 0 68 13 4 11 4 90 4 2 5 77 1 9 9 1 7 2 0 79 0 67 13 6 11 4 89 0 3 0 GLHP 77 2 1 9 1 7 2 0 79 0 66 13 7 11 4 87 8 3 6 77 2 2 9 1 7 2 0 79 0 66 13 8 11 4 87 4 3 9 77 2 3 9 1 7 2 0 79 0 66 13 9 11 4 86 9 4 2 77 2 5 9 2 7 2 0 79 0 65 14 0 11 4 86 1 4 9 86 1 4 8 7 ToL 0 81 0 76 11 6 11 3 102 2 1 7 86 1 7 8 8 7 1 0 81 0 74 11 9 11 3 99 3 2 4 86 1 9 8 8 7 1 0 81 0 73 12 0 11 3 97 9 2 9 WLHP 86 2 1 8 8 7 1 0 81 0 72 12 2 11 3 96 7 3 5 86 2 2 8 8 7 1 0 81 0 72 12 2 11 3 96 2 3 8 86 2 3 8 8 7 1 0 81 0 72 12 3 11 3 95 8 4 1 86 2 5 8 8 7 1 0 81 0 72 12 4 11 3 95 0 4 8 95 1 4 8 5 7 0 0 82 0 84 10 1 11 3 111 2 1 7 95 17 8 5 7 0 0 82 0 82 10 4 11 3 108 3 2 3 95 1 9 8 5 7 0 0 82 0 81 10 5 11 3 106 9 2 9 95 2 1 8 5 7 0 0 82 0 80 10 6 113 105 7 3 4 95 2 2 3 5 7 0 0 82 0 80 10 6 11 2 105 2 3 7 95 2 3 8 5 7 0 0 82 0 80 10 7 11 2 104 8 4 0 95 2 5 8 5 7 0 0 82 0 79 10 8 11 2 104 0 4 6
54. 95 11 2 56 8 45 0 0 79 5 33 75 0 108 4 9 7 95 12 6 57 1 45 2 0 79 5 27 75 1 106 9 12 0 95 14 0 57 2 45 3 0 79 5 23 75 1 105 7 14 5 95 14 7 57 3 45 4 0 79 5 21 75 1 105 2 15 8 95 15 4 57 4 45 4 0 79 5 19 75 1 104 7 17 1 95 16 8 57 5 45 5 0 79 5 16 75 1 103 9 19 9 continued on next page 94 WSHP PRC017H EN e TRANE Performance Data Table 93 GEVO60 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Sah LWT Feet Head 105 9 1 53 1 43 4 0 82 6 01 73 7 121 2 6 6 105 11 2 53 5 43 7 0 82 5 88 73 6 118 1 9 5 105 12 6 53 7 43 9 0 82 5 81 73 6 116 7 11 6 105 14 0 53 8 43 9 0 82 5 76 73 4 115 5 14 1 105 14 7 54 0 44 1 0 82 5 74 73 6 115 0 15 3 105 15 4 54 1 44 2 0 82 5 73 73 6 114 6 16 6 105 16 8 54 2 44 3 0 82 5 69 73 6 113 8 19 4 110 9 1 51 4 42 8 0 83 6 32 73 0 126 0 6 5 110 11 2 51 9 43 2 0 83 6 19 73 0 123 0 9 3 110 12 6 52 1 43 4 0 83 6 12 73 0 121 6 11 5 110 14 0 52 2 43 4 0 83 6 07 72 9 120 4 13 9 110 14 7 52 3 43 5 0 83 6 05 72 9 119 9 15 1 110 15 4 52 4 43 6 0 83 6 03 72 9 119 5 16 4 110 16 8 52 5 43 6 0 83 5 99 72 9 118 7 19 1 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance on
55. D E F G H J K L M N nominal 006 015 2 4 1 2 16 1 813 5 8 1 1 2 10 3 4 23 2 4 7 M2 M2 1 4 18 1 2 14 3 4 x 23 3 4 i 12 7 12 7 410 346 38 273 584 57 191 12 7 25 4 102 470 375 x 518 wigan Z 18 1 2 15 5 8 1 1 2 13 3 4 26 3 1 4 6 7 8 1 2 1 4 18 1 2 16 3 4 x 23 3 4 19 19 470 397 38 349 660 83 175 12 7 25 4 102 470 426 x 603 036 042 3 4 3 4 21 17 5 8 2 1 4 16 1 2 30 3 3 4 6 1 4 1 1 4 2 4 1 2 23 1 2 18 3 4 x 25 1 2 19 19 533 448 57 419 762 95 159 32 50 8 114 597 476 x 648 OHNE 1 23 y8 19 5 8 2 1 2 19 1 2 34 5 1 4 5 7 8 1 1 4 2 4 1 2 23 1 2 20 3 4 x 29 7 8 25 4 25 4 587 498 64 495 864 133 149 32 50 8 114 597 528 x 759 Note All dimensions are in inches followed by millimeters in parenthesis 118 WSHP PRCO17H EN Figure 18 Left return top supply e TRANE Dimensional Data Note Access to the unit for service purposes should be provided at installation All configurations require a 36 in surround clearance from other mechanical and electrical equipment to enable panel removal from the unit for service maintenance ability Local and or NEC codes require greater service clearance Check all code requirements prior to unit installation Installer is responsible for following all local and NE
56. EN e TRANE Accessories Dual Filtration Design Table 122 Dual filter accessory kit numbers Unit size 1 in filter 1 in filter kit part no 2 in filter kit part no 006 015 4474 0630 0100 4474 0634 0100 018 030 4474 5629 0100 4474 5630 0100 036 042 4474 0632 0100 4474 0636 0100 048 060 4474 0633 0100 4474 0637 0100 Automatic and Manual Balancing Kits Superior circuit balancing of the HVAC equipment is an important aspect to the overall layout and design of the HVAC system Proper balance of the system can protect the WSHP equipment while providing a longer equipment life Trane provides three hose kit selections for equipment balancing e Ball valve flow control manual e Circuit setter flow control manual e Automatic Self Balancing Flow Control Hose Kit Each selection provides some accuracy in equipment balancing Range of accuracy consist of 25 for the ball valve method 20 for the manual flow control method and 10 for the automatic flow control method Utilizing the ball valve flow control method the pressure temperature measurement on the leaving and entering side of the heat pump is measured within the water piping The ball valve is then throttled to change the amount of flow to the unit to reach the desired temperature or pressure differential The circuit setter manual flow control method uses an in line flow measurement device an and adjustment feature to measure and set flow rates
57. GARE T9 00 00 May CAUSE al ar Bom LINES INDICATE WIRING BY THE TRANE C s 5 I 3 NUMBERS ALONG THE LEFT SDE OF THE Se S us 8 co BOMEMATI DESIGNATE THE LOCATION OF THE CAUTION ATTENTION PRECAUCI N 22 8 CONTACTS BY UMBER o FBI i By SHINE NOMBEI USE COPPER CONDUCTORS ONLY N UTILISER QUE DES CONDUCTEURS EN CUIVRE iUTILICE GNICAMENTE CONDUCTORES DE COBR a 38 UNIT TERMINALS ARE NOT DESIGNED TO ACCEPT LES BORNES DE L UNITE NE SONT PAS CONQUES LAS TERMINALES DE LA UNIDAD NO ESTAN DISE ADAS lil se 4 ALL FIELD WIRING MUST BE IN ACCORDANCE WITH OTHER TYPES OF CONDUCTORS POUR RECEVOIR D AUTRES TYPES DE CONDUCTEURS PARA ACEPTAR OTROS TIPOS DE CONDUCTORES THE NATIONAL ELECTRIC CODE NEC STATE AND FAILURE TO DO SO MAY CAUSE DAMAGE TO THE L UTILISATION DE TOUT AUTRE CONDUCTEUR PEUT SI NO LO HACE PUEDE OCASIONAR DA O AL EQUIPO 3 LOCAL REQUIREMENTS EQUIPMENT ENDOMMAGER L QUIPEMENT S 8 a Wiring diagrams provided in the catalog 140 are generic A unit specific As Built wiring diagram is located on the unit control panel WSHP PRCO17H EN TRANE Mechanical Specifications WSHP PRC017H EN General Equipment shall be completely assembled piped internally wired fully charged with R 410A refrigerant and test operated at the factory Filters thermostat field interface terminal strip and all safety controls are furnished and factory installed The system water inlet and outlet connections shall be female
58. LWT Feet Head 25 1 4 6 4 4 2 0 64 2 9 19 0 2 8 25 1 7 6 5 4 3 0 64 3 0 19 9 4 0 25 1 9 6 6 4 4 0 64 3 0 20 4 4 8 25 2 1 6 6 4 4 0 64 3 0 20 8 5 7 25 2 2 6 7 4 5 0 64 3 0 20 9 6 2 25 2 3 6 7 4 5 0 64 3 0 21 1 6 7 25 2 5 6 7 4 5 0 65 3 1 21 4 7 8 32 1 4 7 1 4 8 0 65 3 2 25 1 2 8 32 1 7 7 2 5 0 0 65 3 2 26 1 3 9 32 1 9 7 3 5 1 0 66 3 3 26 7 4 7 GLHP 32 2 1 7 4 5 1 0 66 3 3 27 1 5 6 32 2 2 7 4 5 1 0 66 3 3 27 3 6 0 32 2 3 7 4 5 2 0 66 3 3 27 5 6 5 32 2 5 7 5 5 2 0 66 3 3 27 8 7 5 45 1 4 8 5 6 2 0 68 3 7 36 1 2 2 45 1 7 8 7 6 4 0 68 3 8 37 5 3 1 45 1 9 8 8 6 5 0 68 3 8 38 2 3 8 45 2 1 8 9 6 6 0 68 3 8 38 7 4 5 45 2 2 8 9 6 6 0 68 3 8 39 0 4 9 45 2 3 9 0 6 6 0 68 3 9 39 2 5 2 45 2 5 9 0 6 7 0 68 3 9 39 6 6 1 55 1 4 9 6 7 3 0 69 4 1 44 6 2 1 55 1 7 9 8 7 5 0 70 4 2 46 2 3 0 continued on next page WSHP PRC017H EN 35 e TRANE Performance Data Table 26 GEHO09 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 1 9 9 9 7 6 0 70 4 2 47 0 3 6 55 2 1 10 1 7 7 0 70 4 2 47 7 4 3 55 2 2 10 1 7 7 0 70 4 2 48 0 4 7 55 2 3 10 1 7 8 0 70 4 3 48 3 5 0 55 2 5 10 2 7 8 0 70 4 3 48 7 5 8 68 1 4 11 1 8 6 0 71 4 6 55 7 2 0 68 LT 11 4 8 9 0 72 4 6 57 5 2 8 68 1 9 11 5 9 1 0 72 4 7 58 5 3 5 WLHP 68 2 1 11 6 9 2 0 72 4 7 59 3 4 1 68 2 2 11 6 9 2 0 72 4 7 59 6 4 5 68 2 3 11 7 9 2 0 72 4 7 60 0 4 8 68 2 5 11 8 9 3 0 72 4 8 60 5 5 6 75 1 4 1
59. Minimum cfm 1216 Rated cfm 1520 Maximum cfm 1824 Table 87 GEVO48 fan correction factors Cooling Input Heating Input Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 1216 0 958 0 878 1 005 0 990 1 061 1292 0 970 0 909 1 002 0 994 1 044 1368 0 981 0 939 1 001 0 994 1 026 1444 0 991 0 970 1 001 0 997 1 012 1520 1 000 1 000 1 000 1 000 1 000 1672 1 016 1 061 0 999 1 003 0 978 1748 1 023 1 090 0 998 1 004 0 969 1824 1 030 1 121 0 998 1 006 0 960 Table 88 GEV048 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 933 1 009 1 003 1 068 1 133 53 0 1 021 0 872 56 3 0 935 1 009 0 810 1 030 1 134 T 58 0 1 014 0 912 60 3 0 935 1 009 0 618 0 840 1 066 63 0 1 007 0 956 63 2 0 958 1 006 0 475 0 699 0 925 1 147 5 68 0 1 000 1 000 66 2 1 000 1 000 0 550 0 774 1 000 1 222 73 0 0 991 1 045 72 1 1 083 0 985 0 474 0 700 0 925 78 0 0 985 1 095 71 1 1 158 0 975 0 440 0 666 83 0 0 980 1 148 Note Sensible equals total capacity Table 89 GEHO60 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW PER LWT Feet Head 45 9 1 69 0 48 1 0 70 3 47 80 8 62 8 7 3 4
60. Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 14 0 Minimum cfm 1520 Rated cfm 1900 Maximum cfm 2280 Table 90 GEHO60 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 9 1 43 7 29 2 4 26 18 6 7 9 25 11 2 44 5 29 9 4 28 19 7 11 5 25 12 6 44 7 30 1 4 28 20 2 14 1 25 14 0 45 1 30 4 4 30 20 7 16 8 25 14 7 45 0 30 4 4 29 20 9 18 2 25 15 4 45 2 30 5 4 29 21 0 19 7 25 16 8 45 4 30 8 4 30 21 3 22 7 32 9 1 47 9 33 1 4 33 24 7 7 8 32 11 2 48 8 34 0 4 36 25 9 11 2 32 12 6 49 1 34 2 4 36 26 6 13 8 32 14 0 49 3 34 5 4 36 27 1 16 5 32 14 7 49 5 34 6 4 36 27 3 17 9 32 15 4 49 7 34 8 4 37 27 5 19 4 32 16 8 50 1 35 1 4 38 27 8 22 3 45 9 1 55 2 39 9 4 47 36 2 7 3 45 11 2 56 1 40 8 4 48 37 7 10 6 45 12 6 56 4 41 1 4 49 38 5 13 0 45 14 0 56 8 41 4 4 49 39 1 15 7 45 14 7 57 0 41 6 4 50 39 3 17 1 45 15 4 57 1 41 7 4 51 39 6 9 3 45 16 8 57 4 42 0 4 51 40 0 10 8 55 9 1 62 0 46 3 4 60 44 8 7 1 55 11 2 63 2 47 4 4 63 46 5 10 2 55 12 6 63 5 47 7 4 63 47 4 12 6 25 14 0 63 9 48 1 4 63 48 1 15 1 55 14 7 64 2 48 3 4 64 48 4 16 5 55 15 4 64 3 48 5 4 65 48 7 1
61. Sensor 3 Condensate Overflow and Filter Maintenance Timer 6 Condensate Overflow and Fan Status J Fan Status Filter Maintenance Timer and Condensate Overflow Sensor Digit 20 Temperature Sensor 0 2 None 1 Entering Water Sensor Digit 21 Open Digit 22 Electric Heat 0 No Electric Heat 1 2 Internal Boilerless Electric Heat 4 External Boilerless Electric Heat Digit 23 Open Digit 24 Filter Type 1 1 Throwaway Filter 2 2 2 Throwaway Filter 4 MERV 8 5 MERV 13 Digit 25 Acoustic Arrangement 0 Enhanced Sound Attenuation 1 Deluxe Sound Attenuation Digits 26 36 Does Not Apply to GEH or GEV 00000000000 Digits 26 36 are not applicable to the GEH or GEV products WSHP PRCO17H EN General Data TRANE Table 2 Models GEH006 024 Model GEH 006 009 012 015 018 024 Unit Size Length x Height x Width in 40x15x20 40x 15 x 20 40 x 15x20 40x 15 x 20 46 x 18 x 23 46 x 18 x 23 Compressor Type Rotary Rotary Rotary Rotary Rotary Scroll Net Weight Ibs 165 165 173 173 248 253 Ship Weight Ibs 195 195 203 203 268 285 Filter Size Actual in 14 5 8 x 20 14 5 8 x 20 14 5 8 x 20 14 5 8 x 20 17 3 8 x 23 5 8 17 3 8 x 23 5 8 Water in out size FPT p p p Vy Aa 3A Condensate size NPTI 34 34 34 34 34 34 Blower Wheel Size in 9x4 9x4 9x4
62. at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 1 8 Minimum cfm 172 Rated cfm 215 Maximum cfm 258 Table 24 GEVOO6 fan correction factors Cooling I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 172 0 956 0 882 1 006 0 983 1 094 183 0 969 0 912 1 004 0 988 1 066 194 0 980 0 941 1 003 0 989 1 039 204 0 991 0 971 1 002 0 997 1 020 215 1 000 1 000 1 000 1 000 1 000 237 1 019 1 060 0 999 1 009 0 969 247 1 027 1 090 0 998 1 010 0 954 258 1 035 1 120 0 998 1 014 0 942 WSHP PRC017H EN 33 e TRANE Performance Data Table 25 GEHO09 cooling performance Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 45 1 4 10 2 7 6 0 75 0 55 18 6 12 1 62 3 2 0 45 1 7 10 3 7 7 0 74 0 54 19 0 12 2 59 4 2 8 45 1 9 10 4 7 7 0 74 0 54 19 3 12 3 57 9 3 4 45 2 1 10 5 7 7 0 74 0 54 19 5 12 3 56 7 4 0 45 2 2 10 5 7 8 0 74 0 54 19 6 12 4 56 2 4 4 45 2 3 10 6 7 8 0 74 0 54 19 7 12 4 55 8 4 7 45 2 5 10 6 7 8 0 73 0 53 19 9 12 4 55 0 5 5 55 1 4 9 8 7 5 0 76 0 58 16 8 11 7 71 8 1 9 55 1 7 9 9 7 5 0 76 0 57 17 3 11 8 68 9 2 7 55 1 9 9
63. i DISCONNECT ALL ELECTRIC POWER s EE e dg i FOR TWO WIRE VALVE USE 55 1 i FAILURE TO DISCONNECT POWER TERMINALS 11B1 6 AND 1TB1 4 1 BEFORE SERVICING CAN CAUSE s4 5s 4 SEVERE PERSONAL INJURY OR DEATH 3 E E CAUTION E ii i NOTES USE COPPER CONDUCTORS ONLY E 4 ALL FIELD WIRING MUST BE IN ACCORDANCE WITH UNIT TERMINALS ARE NOT DESIGNED 5 56 1 DANLEST OTHERINSE NOTED ALL SWITCHES THE NATIONAL ELECTRIC CODE NEC STATE AND TO ACCEPT OTHER TYPES OF ATMOSPHERIC PRESSURE AT ZOR RELATIVE LOCAL REQUIREMENTS erede 7 h FALURE TO DO SO MAY CAUSE 5 HUMIDITY WITH ALL UTILITIES TURNED OFF DAMAGE TO THE EQUIPMENT 1 AND AFTER A NORMAL SHUTDOWN HAS FIELD INSTALLED SOLENOID VALVE SEE INSET A A A wis 58 OCCURRED EE e 2 DASHED LINES INDICATE RECOMMENDED FIELD iB EE oa al Bilg 3 a AND OR DASHED DEVICE OUTLINES INDICATE 3 Es 60 COMPONENTS PROVIDED BY THE FIELD SOLID i2 REQUIRED FOR HARD WIRED DIGITAL THERMOSTATS gt i za LINES INDICATE WIRING BY THE TRANE CO Gj 24 WC FAKT SIGNAL WITH MX LOND 7 V 8 di Blo 1 E 3 NUMBERS ALONG THE RIGHT SIDE OF THE a H SCHEMATIC DESIGNATE THE LOCATION OF THE CONTACTS BY LINE NUMBER ca a Wiring diagrams provided in the catalog are generic A unit specific As Built wiring diagram is located on the unit control panel WSHP PRC017H EN 137 e TRANE Control Wiring Figure 27 Deluxe 24V 460V 60 Hz 3 ph UNITS REQUIRE A NEUTRAL WIRE 460
64. is constructed of heavy gauge non painted galvanized metal for maximum durability and corrosive resistive exterior controls and refrigeration circuitry Water in out connection and high low voltage hook up is accomplished at the 45 corners on the front side of the equipment The cabinet front allows service access for the ac The unit offers six product variations of return air and supply air combinations which may be order specific or job site modified Model GEV Cabinet The cabinet design contains a modular platform utilizing similar parts and assemblies to the horizontal to provide a repetitious look and feel for installation and maintenance personnel It is constructed of heavy gauge non painted galvanized metal for maximum durability and corrosive resistive exterior The cabinet front allows service access for the controls and refrigeration circuitry Water in out connection drain connection and high low voltage hook up is accomplished at the 45 chamfered corners on the front side of the equipment The vertical design offers four product variations of return air and supply air combinations The GEV model s supply air arrangement may be field converted through a service kit to aid in stocking of a single unit variation ACTORY MOUNTED HANGING DEVICE LEFT RETURN AIR ARRANGEMENT TOP SUPPLY AIR ower VALVE WATER OUT WATER IN WSHP PRCO17H EN e TRANE Fe
65. is not Rated GPM 4 2 Minimum cfm 456 Rated cfm 570 Maximum cfm 684 Table 47 GEV018 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 25 2 7 13 1 8 8 1 26 3 0 18 5 4 5 25 3 3 13 3 9 0 1 26 3 1 19 6 6 4 25 3 7 13 4 9 1 1 26 3 1 20 1 7 9 25 4 2 13 5 9 2 1 27 3 1 20 6 9 8 25 4 4 13 6 9 2 1 27 3 1 20 8 10 6 25 4 6 13 6 9 3 1 27 3 1 21 0 11 5 25 5 0 13 7 9 3 1 27 3 2 21 3 13 3 32 2 7 14 3 9 9 1 28 3 3 24 7 4 4 32 3 3 14 5 10 2 1 29 3 3 25 8 6 2 32 3 7 14 7 10 3 1 29 3 3 26 5 7 6 GLHP 32 4 2 14 8 10 4 1 29 3 4 27 0 9 5 32 4 4 14 9 10 5 1 29 3 4 27 2 10 3 32 4 6 14 9 10 5 1 29 3 4 27 4 ILI 32 5 0 15 0 10 6 1 29 3 4 27 8 12 9 45 2 7 17 1 12 5 1 34 3 7 35 7 3 6 45 3 3 17 5 12 9 1 35 3 8 37 2 5 0 45 3 7 17 6 13 0 1 35 3 8 38 0 6 1 45 4 2 17 8 13 2 1 35 3 9 38 7 7 6 45 4 4 17 9 13 3 1 35 3 9 39 0 8 3 45 4 6 18 0 13 3 1 36 3 9 39 2 9 0 45 5 0 18 1 13 4 1 36 3 9 39 6 10 4 55 2 7 19 2 14 5 1 38 4 1 44 3 3 4 55 3 3 19 6 14 9 1 39 4 1 46 0 4 8 continued on next page 56 WSHP PRCO17H EN e TRANE Performance Data Table 47 GEV018 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 3 7 19 8 15 1 1 39 4 2 46 8 5 9 55 4 2 20 1 15 3 1 40 4 2 47 7 7 4 55 4 4 20 1 15 3 1 40 4 2 48 0 8 0 55 4 6 20 2 15 4 1 40 4 2 48 3 8 6 55 5 0 20 3 15 5 1 40 4 2 48 8 10 0 68
66. of WCls per Network Each Trane wireless network can have a total of 31 WCls 30 member WCls plus 1 coordinator WCI Each network requires one WCI to function as network coordinator Quantity of Networks per Tracer SC ATracer SC can support up to 8 wireless networks 129 e TRANE Controls 130 Automatic Network Formation When aWCI is connected to aTracer SC it is auto assigned as the coordinator To enable the coordinator Tracer SC must be configured for wireless communication The coordinator WCI opens the network to allow all WCls having matching addresses to automatically join the network If no Tracer SC is present a centrally located WCI must be designated to act as the coordinator You can manually set the coordinator WCI so all WCls having matching addresses automatically join the network Wireless Zone Sensors The WCI also communicates with Trane wireless zone sensors eliminating the need for analog receivers Wired Zone Sensors Systems using Wireless Comm can also use wired zone sensors WSHP PRCO17H EN TRANE Thermostats and Zone Sensors Table 117 Thermostat selection for use with the Basic or Deluxe Controllers Thermostat Part Number Description X13511535010 1 Heat 1 Cool Non Programmable Commercial Thermostat for conventional air conditioners and heat pumps that are configured with or without auxiliary heat e 1HAC om X13511536010 3 Heat 2 Cool Non programmab
67. seal from the a 5 duct to the unit is possible The 172 in duct flange facilitates F AA g ease of field connection to the mechanical system This ssa v accessory is typically used when the return air filter is placed in a built in ceiling grille or placed within a field S z provided filter rack assembly Zt L CC Table 120 Duct panel opening size and part number Unit Size Unit Size 60 Hz 50 Hz A B Duct Collar Part Number 006 015 006 012 17 in 445 mm 13 in 330 mm 4474 1133 0100 018 030 015 024 20 in 521 mm 16 in 406 mm 4474 5628 0100 036 042 030 036 22 in 572 mm 17 in 432 mm 4474 1135 0100 048 060 042 060 26 in 673 mm 19 in 483 mm 4474 1136 0100 Ducted Filter Rack Figure 24 Ducted filter rack When it is necessary to have filter access at the unit in a ducted return a ducted filter rack is available This option allows access to the filter at the unit Vertical unit filter racks are available in right or left access configurations Horizontal units are available in top bottom or side access configurations Table 121 Ducted filter opening size Unit Size A in B in C in GEH 006 015 21 1 15 4 5 4 GEH 018 030 24 5 18 4 5 6 GEH 036 042 26 4 19 4 5 5 GEH 048 060 30 7 21 4 5 5 GEV 006 015 20 7 17 1 5 5 GEV 018 040 20 7 23 1 5 5 GEV 036 042 25 7 22 4 4 3 GEV 048 060 30 7 26 6 5 5 Note All dimensions in inches 134 WSHP PRCO17H
68. to meet a specific sound requirement however there are some general do s and don ts that should be observed Figure 4 Improper supply air ducting The drawing to the right shows a supply air duct that is placed too close to the blower to provide substantial noise attenuation It also represents the effects on sound that a short supply branch connected to the discharge may produce Avoid these forms of connections when designing ductwork where noise attenuation is critical WSHP PRC017H EN FILTER AND GRIKLE Ad a m BLOWER NOISE REACHES THE ROOM BECAUSE THE ROOM SUPPLY TAKE OFF IS TOO CLOSE TO THE BLOWER SHORT BRANCH SHINE PRODUCES ROOM DIFFUSER 19 e TRANE Application Considerations 20 The following suggestions will reduce the amount of sound that reaches the occupied space e Design the duct run with two 90 turns e Line the first 5 feet of the supply trunk e Line elbows and transition pieces as well as a short distance upstream and downstream of the fittings e Use flexible connections to isolate vibrations e Provide multiple discharges e Keep duct velocity low Figure 5 Desired supply air ducting TURNS ATTENUATE BLOWER NOISE LINING THE FIRST FIVE FEET OF SUPPLY DUCT REDUCES NOISE TAKE OFFS SHOULD BE AT LEAST FIVE FEET AWAY 5 FROM THE PLENUM Figure 6 Improper return air ducting ALINED RETURN NOISE REACHES THE WITH TWO EASY TURNS ROOM BECAUSE THE DE COUPLES
69. 0 1 12 1 4 98 15 0 0 0 0 009 230 60 1 Tek 3 5 17 0 1 4 8 0 60 1 12 1 8 90 15 1 5 6 5 009 220 240 50 1 6 0 5 3 23 0 1 7 4 0 72 1 8 1 7 35 15 0 0 0 0 009 220 240 50 1 9 8 5 3 23 0 1 7 4 0 72 1 8 1 12 20 15 2 2 9 0 009 265 60 1 3 3 2 8 13 0 1 3 7 0 52 1 12 1 4 02 15 0 0 0 0 009 265 60 1 8 1 2 8 13 0 1 3 7 0 52 1 12 1 10 08 15 2 0 7 5 012 115 60 1 13 7 12 1 58 0 1 16 9 1 57 1 8 1 16 70 25 0 0 0 0 012 208 60 1 7 0 6 3 30 0 1 8 8 0 70 1 8 1 8 58 15 0 0 0 0 012 208 60 1 8 5 6 3 27 0 1 8 8 0 70 1 8 1 10 67 15 1 6 7 8 012 230 60 1 7 0 6 3 30 0 1 8 8 0 70 1 8 1 8 58 15 0 0 0 0 012 230 60 1 9 4 6 3 30 0 1 8 8 0 70 1 8 1 11 74 15 2 0 8 7 012 220 240 50 1 7 4 6 7 30 0 1 9 4 0 72 1 8 1 9 10 15 0 0 0 0 012 220 240 50 1 12 0 6 7 30 0 1 9 4 0 72 1 8 1 14 96 15 2 47 11 3 012 265 60 1 5 7 5 0 23 0 1 7 0 0 72 1 8 1 6 97 15 0 0 0 0 012 265 60 1 10 7 5 0 23 0 1 7 0 0 72 1 8 1 13 40 15 2 7 10 0 015 208 60 1 8 6 7 9 36 0 1 11 1 0 70 1 8 1 10 58 15 0 0 0 0 015 208 60 1 10 3 7 9 36 0 1 11 1 0 70 1 8 1 12 89 15 2 0 9 6 015 230 60 1 8 6 7 9 36 0 1 11 1 0 70 1 8 1 10 58 15 0 0 0 0 015 230 60 1 11 6 7 9 36 0 1 11 1 0 70 1 8 1 14 46 15 2 5 10 9 015 220 240 50 1 9 0 8 2 36 0 1 11 5 0 80 1 8 1 11 05 15 0 0 0 0 015 220 240 50 1 14 5 8 2 36 0 1 11 5 0 80 1 8 1 18 08 20 3 3 13 7 015 265 60 1 7L 6 4 30 0 1 9 0 0 72 1 8 1 8 72 15 0 0 0 0 015 265 60 1 13 2 6 4 30 0 1 9 0 0 72 1 8 1 16 47 20 3 3 12 5 018 208 60 1 10 5 9 6 42 0 1 13 4 0 90 1 8 1 12 90 20 0 0 0 0 018
70. 0 1 57 10 8 22 4 105 7 5 9 95 4 4 17 0 13 5 0 79 1 57 10 9 22 4 105 2 6 4 95 4 6 17 0 13 5 0 79 1 56 10 9 22 4 104 7 6 9 95 5 0 17 0 13 5 0 79 1 55 11 0 22 3 103 9 8 0 continued on next page WSHP PRC017H EN 55 e TRANE Performance Data Table 46 GEV018 cooling performance continued Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 105 2 7 16 3 13 3 0 81 1 87 8 7 22 7 121 8 2 6 105 3 3 16 4 13 3 0 81 1 83 9 0 22 6 118 7 3 7 105 3 7 16 4 13 3 0 81 1 80 9 1 22 5 117 2 4 6 105 4 2 16 4 13 3 0 81 1 78 9 2 22 5 115 7 5 7 105 4 4 16 4 13 3 0 81 1 78 9 2 22 4 115 2 6 2 105 4 6 16 4 13 3 0 81 1 76 9 3 22 4 114 7 6 7 105 5 0 16 4 13 3 0 81 1 75 9 3 22 4 114 0 7 8 110 2 7 16 0 13 2 0 82 2 02 7 9 22 9 127 0 2 6 110 3 3 16 0 13 2 0 82 1 97 8 2 22 8 123 8 3 7 110 3 7 16 0 13 2 0 82 1 94 8 3 22 7 122 3 4 5 110 4 2 16 1 13 2 0 82 1 92 8 4 22 6 120 8 5 7 110 4 4 16 1 13 2 0 82 1 91 8 4 22 6 120 3 6 1 110 4 6 16 1 13 2 0 82 1 90 8 5 22 5 119 8 6 6 110 5 0 16 1 13 2 0 82 1 89 8 5 22 5 119 0 7 7 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation
71. 0 2 0 6 8 5 5 0 81 0 82 8 2 9 6 119 6 4 8 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only interpolation is permissible Extrapolation is not Rated GPM 1 8 Minimum cfm 172 Rated cfm 215 Maximum cfm 258 Table 20 GEHO06 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 25 1 1 5 6 3 6 0 59 2 8 18 5 2 3 25 1 4 5 7 3 7 0 59 2 9 19 7 3 5 25 1 6 5 8 3 8 0 59 2 9 20 3 4 4 25 1 7 5 8 3 8 0 59 2 9 20 5 4 9 25 1 8 5 9 3 8 0 59 2 9 20 7 5 4 25 1 9 5 9 3 9 0 59 2 9 20 9 5 9 25 2 0 5 9 3 9 0 59 2 9 21 1 6 5 32 1 1 6 2 4 1 0 59 3 0 24 5 2 2 32 1 4 6 3 4 3 0 60 3 1 25 9 3 4 32 1 6 6 4 4 4 0 60 3 1 26 5 4 3 32 1 7 6 4 4 4 0 60 3 2 26 8 4 8 GLHP 32 1 8 6 5 4 4 0 60 3 2 27 1 5 3 32 1 9 6 5 4 5 0 60 3 2 27 3 5 8 32 2 0 6 5 4 5 0 60 3 2 27 5 6 3 45 1 1 7 4 5 3 0 62 3 5 35 3 1 8 45 1 4 7 6 5 5 0 62 3 6 37 1 2 7 45 1 6 7 7 5 6 0 62 3 6 38 0 3 4 45 1 7 7 8 5 6 0 62 3 7 38 4 3 8 45 1 8 7 8 5 7 0 62 3 7 38 7 4 2 45 1 9 7 8 5 7 0 62 3 7 39 0 4 6 45 2 0 7 8 5 7 0 62 3 7 39 3 5 1 55 13 8 3 6 2 0 64 3 8 43 8 1 7 55 1 4 8 6 6 4 0 64 3 9 45 8 2 6 continued on next page WSHP PRC017H EN 2
72. 0 2 0 75 3 09 64 2 78 4 11 1 68 13 4 53 8 40 4 0 75 3 07 64 3 77 6 12 9 75 7 3 51 0 38 9 0 76 3 58 63 2 92 4 4 3 75 9 0 51 6 39 3 0 76 3 47 63 4 89 2 6 2 75 10 1 51 8 39 5 0 76 3 43 63 5 87 6 7 6 75 11 2 52 0 39 7 0 76 3 39 63 5 86 3 9 1 75 11 8 52 1 39 7 0 76 3 37 63 6 85 8 10 0 75 12 3 52 1 39 8 0 76 3 35 63 6 85 3 10 8 75 13 4 52 3 39 9 0 76 3 33 63 6 84 5 12 6 86 7 3 48 3 37 8 0 78 3 99 61 9 103 0 4 2 continued on next page 84 WSHP PRCO17H EN e TRANE Performance Data Table 81 GEH048 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Mh LWT Feet Head 86 9 0 48 8 38 1 0 78 3 87 62 0 99 8 6 0 86 10 1 49 1 38 3 0 78 3 82 62 1 98 3 7 4 86 11 2 49 3 38 5 0 78 3 78 62 2 97 1 8 9 86 11 8 49 4 38 6 0 78 3 76 62 2 96 6 9 7 86 12 3 49 4 38 6 0 78 3 75 62 2 96 1 10 5 86 13 4 49 6 38 7 0 78 3 72 62 2 95 3 12 2 95 7 3 46 1 36 8 0 80 4 38 61 0 111 8 4 0 95 9 0 46 6 37 2 0 80 4 26 61 1 108 6 5 8 95 10 1 46 8 37 4 0 80 4 21 61 2 107 1 7 1 95 11 2 47 0 37 6 0 80 4 17 61 2 105 9 8 6 95 11 8 47 1 37 6 0 80 4 15 61 2 105 4 9 3 95 12 3 47 2 37 7 0 80 4 13 61 3 105 0 10 1 95 13 4 47 3 37 8 0 80 4 10 61 3 104 1 11 8 105 7 3 43 3 35 9 0 83 4 87 60 0 121 5 3 9 105 9 0 43 8 36 3 0 83 4 75 60 1 118 4 5 6 105 10 1 44 1 36 5 0 83 4 69 60 1 116 9 6 9 105 11 2 44 3 36 6 0 83 4 64 60 1 115 7 8 3 105 11 8 44 3 36 7 0 83 4 62 60 1 115 2 9 1 105 12
73. 0 23 60 8 0 34 8 060 208 60 3 21 0 15 6 110 0 1 24 4 5 40 1 I 24 90 40 0 0 0 0 060 208 60 3 23 4 15 6 110 0 I 24 4 5 40 1 1 29 30 40 6 5 18 0 060 230 60 3 21 0 15 6 110 0 1 24 4 5 40 1 1 24 90 40 0 0 0 0 060 230 60 3 25 5 15 6 110 0 1 24 4 5 40 1 1 31 85 40 8 0 20 1 060 380 415 50 3 12 3 9 6 75 0 1 15 0 2 70 X L 14 70 20 0 0 0 0 060 380 415 50 3 14 7 9 6 75 0 1 15 0 2 70 1 1 18 33 20 8 6 12 0 060 460 60 3 10 5 7 8 52 0 1 12 1 2 70 1 1 12 45 20 0 0 0 0 060 460 60 3 16 0 7 8 52 0 1 12 1 2 70 1 1 20 01 25 10 6 13 3 060 575 60 3 8 0 5 8 38 9 li 9 1 2 20 1 1 9 45 15 0 0 0 0 Table 105 Electrical data minimum and maximum Minimum Maximum Minimum Maximum Rated Utilization Utilization Rated Utilization Utilization Digit 8 Voltage Hz Ph Voltage Voltage Digit 8 Voltage Hz Ph Voltage Voltage 0 115 60 1 104 126 5 575 60 3 518 633 1 208 60 1 197 229 6 220 240 50 1 198 264 2 230 60 1 207 253 7 265 60 1 239 292 3 208 60 3 187 229 8 230 60 3 207 253 4 460 60 3 414 506 9 380 415 60 3 342 456 WSHP PRCO17H EN 111 e TRANE Dimensional Data Figure 11 Left return left supply TOP FXG OPENING REFRIG AND CONTROL ACCESS BLOWER 171 ACCESS Q PANEL HIVOLT e L W O WCI mounting location M W l gt I lt 6 3 4 DRAIN 1 25 4
74. 0 4 8 55 3 1 13 4 10 2 0 95 4 1 48 4 5 4 55 3 4 13 4 10 2 0 95 4 1 49 0 6 3 68 1 8 14 5 11 2 0 97 4 4 55 6 2 0 68 2 2 14 8 11 5 0 97 4 5 57 5 2 8 68 2 5 15 0 11 7 0 98 4 5 58 6 3 5 WLHP 68 2 8 15 2 11 8 0 98 4 6 59 5 4 3 68 2 9 15 2 11 9 0 98 4 6 59 8 4 6 68 3 1 15 3 12 0 0 98 4 6 60 3 5 1 68 3 4 15 4 12 0 0 98 4 6 60 9 6 0 75 1 8 15 5 12 1 0 98 4 6 61 5 1 9 75 2 2 15 9 12 5 0 99 4 7 63 6 2 8 75 2 5 16 1 12 7 0 99 4 8 64 8 3 4 75 2 8 16 2 12 8 0 99 4 8 65 8 4 2 75 2 9 16 3 12 9 0 99 4 8 66 1 4 4 75 3 1 16 4 13 0 1 00 4 8 66 6 5 0 75 3 4 16 5 13 1 1 00 4 8 67 3 5 9 86 1 8 17 0 13 6 1 01 4 9 70 9 1 9 86 2 2 17 4 14 0 1 02 5 0 73 3 2 7 86 2 5 17 6 14 2 1 02 5 1 74 7 3 3 86 2 8 17 8 14 3 1 02 5 1 75 8 4 0 86 2 9 17 9 14 4 1 02 B 76 1 4 3 86 3 1 18 0 14 5 1 03 5 1 76 7 4 8 86 3 4 18 1 14 6 1 03 5 2 71 4 5 7 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 2 8 Minimum cfm 304 Rated cfm 380 Maximum cfm 456 Table 36 GEV012 fan correction factors Cooling I nput Heating Input Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 304 0 958 0 872 1 005 0 987 1 094 323 0 969 0 904 1
75. 0 62 3 6 37 1 2 4 45 1 6 7 4 5 6 0 62 3 7 38 0 3 0 45 1 7 7 8 5 7 0 62 3 7 38 3 3 4 45 1 8 7 8 5 7 0 62 3 7 38 7 3 7 45 1 9 7 8 5 7 0 62 3 7 39 0 4 1 45 2 0 7 9 5 7 0 62 3 7 39 3 4 5 55 1 1 8 3 6 2 0 63 3 9 43 7 1 5 55 1 4 8 6 6 4 0 64 4 0 45 8 2 3 continued on next page 32 WSHP PRCO17H EN e TRANE Performance Data Table 23 GEVOO6 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 1 6 8 7 6 5 0 64 4 0 46 8 2 9 55 1 7 8 7 6 6 0 64 4 0 47 3 3 2 55 1 8 8 8 6 6 0 64 4 0 47 7 3 6 55 1 9 8 8 6 6 0 64 4 0 48 0 3 9 55 2 0 8 9 6 7 0 64 4 0 48 3 4 3 68 1 1 9 5 7 3 0 66 4 3 54 8 1 4 68 1 4 9 8 7 6 0 66 4 4 57 2 2 2 68 1 6 9 9 7 7 0 66 4 4 58 4 2 8 68 1 7 10 0 7 7 0 66 4 4 58 9 3 1 WLHP 68 1 8 10 0 7 8 0 67 4 4 59 4 3 4 68 1 9 10 1 7 8 0 67 4 4 59 8 3 7 68 2 0 10 2 7 9 0 67 4 5 60 1 4 1 75 1 1 10 2 7 9 0 67 4 5 60 6 1 4 75 1 4 10 5 8 2 0 68 4 5 63 3 2 1 75 1 6 10 6 8 3 0 68 4 6 64 6 2 7 75 1 7 10 7 8 4 0 68 4 6 65 2 3 0 75 1 8 10 7 8 4 0 68 4 6 65 7 3 3 75 1 9 10 8 8 4 0 68 4 6 66 1 3 6 75 2 0 10 8 8 5 0 68 4 6 66 5 4 0 86 1 1 11 2 8 8 0 69 4 7 70 0 1 4 86 1 4 11 5 9 1 0 70 4 8 73 0 2 1 86 1 6 11 6 9 2 0 70 4 9 74 5 2 6 86 1 7 11 7 9 3 0 70 4 9 75 1 2 9 86 1 8 11 8 9 4 0 71 4 9 75 6 3 2 86 1 9 11 8 9 4 0 71 4 9 76 1 3 5 86 2 0 11 8 9 4 0 71 4 9 76 6 3 8 Notes Heating performance data is tabulated
76. 0 73 1 49 37 5 65 7 14 3 55 7 4 32 5 23 7 0 73 1 48 37 6 65 2 15 6 55 7 7 32 5 23 7 0 73 1 48 37 6 64 8 16 9 55 8 4 32 6 23 8 0 73 1 46 37 6 64 0 19 7 68 4 6 30 8 22 4 0 73 1 88 37 2 84 3 6 4 68 5 6 31 0 22 5 0 73 1 83 37 2 81 3 9 3 68 6 3 31 1 22 6 0 73 1 81 37 2 79 8 11 4 continued on next page 64 WSHP PRC017H EN e TRANE Performance Data Table 57 GEH030 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Sori LWT Feet Head 68 7 0 31 1 22 6 0 73 1 79 37 2 78 6 13 8 68 7 4 31 2 22 7 0 73 1 78 37 2 78 1 15 0 68 7 7 31 2 22 7 0 73 1 77 37 2 77 7 16 3 68 8 4 31 2 22 7 0 73 1 76 37 2 76 9 18 9 75 4 6 29 9 22 0 0 74 2 04 36 9 91 2 6 2 75 5 6 30 1 22 2 0 74 1 98 36 9 88 2 9 1 75 6 3 30 2 22 2 0 74 1 96 36 8 86 7 11 1 75 7 0 30 2 22 3 0 74 1 93 36 8 85 5 13 4 75 7 4 30 3 22 3 0 74 1 93 36 8 85 0 14 6 75 7 7 30 3 22 3 0 74 1 92 36 9 84 6 15 9 75 8 4 30 3 22 3 0 74 1 90 36 8 83 8 18 5 86 4 6 28 3 21 9 0 77 2 23 35 9 101 8 5 9 86 5 6 28 5 22 0 0 77 2 17 35 9 98 8 8 7 86 6 3 28 6 22 1 0 77 2 15 35 9 97 4 10 7 86 7 0 28 7 22 1 0 77 2 12 35 9 96 3 12 8 86 7 4 28 7 22 2 0 77 2 11 35 9 95 8 14 0 86 7 7 28 7 22 2 0 77 2 11 35 9 95 3 15 2 86 8 4 28 8 22 2 0 77 2 09 35 9 94 5 17 7 95 4 6 27 2 21 4 0 79 2 47 35 6 110 6 5 7 95 5 6 27 3 21 6 0 79 2 41 35 6 107 7 8 2 95 6 3 27 4 21 6 0 79 2 38 35 6 106 3 10 1 95 7 0 27
77. 0 minutes and the device is open for more than 45 seconds the control will be placed into a manual lockout mode halting compressor operation and initiating the general alarm In a condensate overflow situation the control will go into manual lockout mode halting compressor operation and initiating the general alarm The general alarm is initiated when the control goes into a manual lockout mode for either high pressure low pressure freezestat or condensate overflow conditions Safety Devices System safety devices are provided through the use of low high pressure switches in the refrigeration circuit to help prevent compressor damage The low pressure switch is set to activate at refrigerant pressures of 40 psig to fit most applications In cases where a low charge or excessive loss of charge occurs each compressor comes equipped with an external overload device to halt the compressor operation The high pressure switch prevents compressor operation during high or excessive discharge pressures that exceed 650 psig A lockout relay provides the mechanical communication of the low and high pressure switches to prevent compressor operation if the unit is under low or high refrigerant circuit pressure or during a condensate overflow condition The lockout relay may be reset at the thermostat or by cycling power to the unit 125 e TRANE Controls 126 General alarm is accomplished through the lockout relay and will driv
78. 000 66 2 1 000 1 000 0 533 0 765 1 000 1 225 73 0 0 985 1 039 72 1 1 092 0 998 0 457 0 689 0 923 78 0 0 976 1 084 77 1 1 174 1 000 0 418 0 654 83 0 0 965 1 130 Note Sensible equals total capacity WSHP PRC017H EN 97 e TRANE Unit Fan Performance Table 98 Fan performance for standard static motor includes wet coils and 1 filter Model Max Min External Static Pressure in of wg Number cfm cfm 0 0 05 0 1 0 15 0 2 0 25 0 3 0 35 0 4 0 45 0 5 GEH GEVO006 High 258 258 GEH GEVO06 Med 266 253 239 222 GEH GEVO06 Low 172 263 249 235 222 208 191 GEH GEVO009 High 342 345 330 316 302 289 275 258 GEH GEV0O09 Med 356 341 325 309 294 280 266 253 239 222 GEH GEV009 Low 228 342 325 310 294 278 263 249 235 222 GEH GEV012 High 456 GEH GEV012 Med 459 451 447 446 446 443 GEH GEV012 Low 304 464 453 441 431 423 419 418 418 415 GEH GEVO015 High 550 550 537 526 215 503 493 485 481 480 480 477 GEH GEV015 Med 516 503 492 481 469 459 451 447 446 446 443 GEH GEV015 Low 380 488 475 464 453 441 431 423 419 418 418 415 GEH GEVO018 High 684 688 675 664 649 633 612 587 560 522 GEH GEVO18 Med 657 652 644 633 621 605 587 568 543 512
79. 003 0 990 1 065 342 0 980 0 936 1 002 0 993 1 041 361 0 990 0 968 1 001 0 998 1 021 380 1 000 1 000 1 000 1 000 1 000 418 1 017 1 063 0 998 1 003 0 968 437 1 025 1 093 0 997 1 004 0 954 456 1 032 1 124 0 997 1 008 0 944 WSHP PRC017H EN 45 e TRANE Performance Data Table 37 GEHO15 cooling performance Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 45 2 2 15 5 11 7 0 76 0 71 21 8 17 9 61 3 2 5 45 2 8 15 6 11 8 0 76 0 68 23 1 17 9 57 8 3 8 45 3L 15 6 11 8 0 75 0 66 23 6 17 9 56 5 4 6 45 3 5 15 6 11 8 0 75 0 65 24 2 17 9 55 2 5 7 45 3 6 15 7 11 8 0 75 0 64 24 3 17 9 54 9 6 0 45 3 8 15 7 11 8 0 75 0 64 24 5 17 8 54 4 6 6 45 4 2 15 7 11 8 0 75 0 63 25 0 17 8 53 5 7 9 55 2 2 15 2 11 6 0 76 0 83 18 4 18 0 71 4 2 4 55 2 8 15 3 11 7 0 76 0 79 19 4 18 0 67 9 3 7 55 3 1 15 3 11 7 0 76 0 78 19 7 18 0 66 6 4 4 55 3 5 15 4 11 7 0 76 0 76 20 1 18 0 65 3 5 5 55 3 6 15 4 11 7 0 76 0 76 20 2 18 0 65 0 5 8 55 3 8 15 4 11 7 0 76 0 75 20 4 17 9 64 4 6 3 55 4 2 15 4 11 7 0 76 0 75 20 6 17 9 63 5 7 6 68 2 2 14 7 11 5 0 78 0 97 15 2 18 1 84 4 2 3 68 2 8 14 8 11 5 0 78 0 94 15 8 18 0 80 9 3 5 68 34 14 9 11 5 0 77 0 92 16 1 18 0 79 6 4 2 68 3 5 14 9 11 5 0 77 0 91 16 3 18 0 78 3 5 2 68 3 6 14 9 11 5 0 77 0 91 16 4 18 0 78 0 5 5 68 3 8 14 9 11 5 0 77 0 90 16 5 18 0 71 5 6 0 68 4 2 14 9 11 5 0 77 0 89 16 7 18 0 76 6 7 2 77 2 2 14 4 11 3 0 79 1 08
80. 1 75 6 2 24 6 18 2 0 74 1 62 30 1 84 8 13 2 75 6 7 24 6 18 2 0 74 1 60 30 1 84 0 15 4 86 3 6 23 0 17 4 0 76 1 93 29 6 102 3 5 2 86 4 5 23 2 17 5 0 76 1 88 29 6 99 2 7 3 86 5 0 23 2 17 6 0 76 1 86 29 6 97 7 8 9 86 5 6 23 3 17 6 0 76 1 84 29 6 96 6 10 7 86 5 9 23 3 17 7 0 76 1 83 29 6 96 1 11 6 86 6 2 23 4 17 7 0 76 1 82 29 6 95 6 12 6 86 6 7 23 4 17 7 0 76 1 81 29 6 94 8 14 7 95 3 6 22 0 17 1 0 77 2 14 29 4 111 1 5 3 95 4 5 22 2 17 2 0 77 2 09 29 3 108 1 7 3 95 5 0 22 3 17 3 0 77 2 06 29 3 106 6 8 8 95 5 6 22 4 17 3 0 77 2 04 29 4 105 5 10 5 95 5 9 22 4 17 3 0 77 2 03 29 3 105 0 11 4 95 6 2 22 4 17 3 0 77 2 02 29 3 104 5 12 3 95 6 7 22 5 17 4 0 77 2 01 29 3 103 7 14 3 continued on next page 58 WSHP PRC017H EN e TRANE Performance Data Table 49 GEHO024 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Pih LWT Feet Head 105 3 6 20 9 16 6 0 80 2 39 29 0 121 0 5 5 105 4 5 21 1 16 8 0 80 2 33 29 0 118 0 7 4 105 5 0 21 2 16 9 0 80 2 30 29 0 116 5 8 8 105 5 6 21 2 16 9 0 80 2 28 29 0 115 4 10 4 105 5 9 21 2 16 9 0 80 2 27 29 0 114 9 11 3 105 6 2 21 3 17 0 0 80 2 27 29 0 114 4 12 2 105 6 7 21 3 17 0 0 80 2 25 29 0 113 6 14 1 110 3 6 20 3 16 4 0 81 2 52 28 9 125 9 5 8 110 4 5 20 4 16 6 0 81 2 47 28 9 122 9 7 6 110 5 0 20 5 16 7 0 81 2 44 28 8 121 4 8 9 110 5 6 20 6 16 7 0 81 2 42 28 8 120 3 10 5 110 5 9 20 6 16 7 0 81 2 41 28 8 119 8 11 3 110 6 2 20 6 16 7
81. 1 0 991 0 969 1 002 0 999 1 020 475 1 000 1 000 1 000 1 000 1 000 523 1 017 1 062 0 997 1 007 0 968 546 1 024 1 092 0 996 1 006 0 953 570 1 031 1 122 0 995 1 009 0 940 WSHP PRC017H EN 51 e TRANE Performance Data Table 43 GEHO018 cooling performance Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 45 2 7 18 8 14 4 0 77 0 93 20 2 22 0 61 3 3 4 45 3 3 18 8 14 4 0 77 0 90 20 9 21 9 58 3 4 8 45 3 7 18 8 14 4 0 76 0 89 21 3 21 9 56 8 5 9 45 4 2 18 8 14 4 0 76 0 87 21 7 21 8 55 4 7 4 45 4 4 18 8 14 3 0 76 0 86 21 8 21 8 54 9 8 1 45 4 6 18 8 14 4 0 76 0 86 21 9 21 8 54 5 8 7 45 5 0 18 8 14 3 0 76 0 85 22 1 21 7 53 7 10 1 55 2 7 18 7 14 3 0 77 1 05 17 8 22 3 71 5 3 3 55 3 3 18 7 14 3 0 77 1 02 18 4 22 2 68 4 4 6 55 3 7 18 7 14 4 0 77 1 00 18 7 22 1 67 0 5 7 55 4 2 18 7 14 3 0 77 0 99 19 0 22 1 65 5 Jl 55 4 4 18 7 14 4 0 77 0 98 19 1 22 1 65 0 7 7 55 4 6 18 8 14 4 0 76 0 98 19 2 22 1 64 6 8 4 55 5 0 18 8 14 4 0 76 0 97 19 4 22 1 63 8 9 7 68 2 7 18 3 14 2 0 77 1 23 15 0 22 5 84 7 3 1 68 33 18 4 14 2 0 77 1 19 15 5 22 5 81 6 4 4 68 3 7 18 4 14 2 0 77 1 17 15 7 22 4 80 1 5 4 68 4 2 18 5 14 3 0 77 1 16 16 0 22 4 78 7 6 8 68 4 4 18 5 14 3 0 77 1 15 16 0 22 4 78 2 7 4 68 4 6 18 5 14 3 0 77 1 15 16 1 22 4 77 7 8 0 68 5 0 18 5 14 3 0 77 1 14 16 3 22 4 71 0 9 3 77 2 7 17 9 14 1 0 78 1 35 13 3 22 6 93 7 3 0 77 3 3 18 0 14 1 0 78 1 32 13 7
82. 1 004 0 972 874 1 026 1 093 1 001 1 007 0 961 912 1 034 1 123 1 002 1 008 0 950 Table 56 GEV024 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 929 1 007 1 007 1 075 1 143 53 0 1 025 0 863 56 3 0 930 1 007 0 806 1 035 1 144 s 58 0 1 017 0 908 60 3 0 931 1 006 0 600 0 836 1 070 63 0 1 009 0 953 63 2 0 963 1 005 0 445 0 684 0 920 1 157 i 68 0 1 000 1 000 66 2 1 000 1 000 0 523 0 761 1 000 1 236 73 0 0 992 1 051 72 1 1 081 1 001 0 431 0 674 0 913 78 0 0 982 1 101 77 1 1 153 1 008 0 387 0 632 83 0 0 973 1 154 Note Sensible equals total capacity Table 57 GEHO30 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Path LWT Feet Head 45 4 6 33 1 23 8 0 72 1 40 37 9 61 6 6 8 45 5 6 33 4 24 0 0 72 1 35 38 0 58 6 10 0 45 6 3 33 5 24 1 0 72 1 33 38 0 57 1 12 3 45 7 0 33 6 24 2 0 72 1 31 38 1 55 9 14 9 45 7 4 33 7 24 2 0 72 1 30 38 1 55 4 16 2 45 7 7 33 7 24 2 0 72 1 29 38 1 54 9 17 6 45 8 4 33 8 24 3 0 72 1 28 38 2 54 1 20 4 55 4 6 32 0 23 4 0 73 1 59 37 4 71 4 6 6 55 5 6 32 2 23 5 0 73 1 54 37 5 68 4 9 6 55 6 3 32 4 23 6 0 73 1 51 37 5 66 9 11 9 55 7 0 32 5 23 7
83. 1 019 570 1 000 1 000 1 000 1 000 1 000 627 1 016 1 060 0 997 1 006 0 968 656 1 022 1 089 0 996 1 009 0 955 684 1 029 1 118 0 995 1 012 0 943 WSHP PRC017H EN 57 e TRANE Performance Data Table 49 GEH024 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Ph LWT Feet Head 45 3 6 27 1 18 9 0 70 1 23 31 3 62 2 6 2 45 4 5 27 2 19 0 0 70 1 18 31 3 59 0 8 8 45 5 0 27 4 19 1 0 70 1 16 31 3 57 4 10 7 45 5 6 27 4 19 1 0 70 1 14 31 3 56 2 12 8 45 5 9 27 4 19 1 0 70 1 13 31 3 55 7 14 0 45 6 2 27 5 19 1 0 70 1 13 31 3 55 2 15 2 45 6 7 27 5 19 2 0 70 1 11 31 3 54 3 17 7 55 3 6 26 2 18 5 0 70 1 39 30 9 72 0 5 9 55 4 5 26 4 18 6 0 70 1 35 31 0 68 8 8 3 55 5 0 26 4 18 6 0 70 1 32 31 0 67 3 10 2 55 5 6 26 5 18 7 0 70 1 31 31 0 66 1 12 2 55 5 9 26 5 18 7 0 70 1 30 31 0 65 5 13 3 55 6 2 26 5 18 7 0 70 1 29 31 0 65 1 14 5 55 6 7 26 6 18 8 0 70 1 28 31 0 64 2 16 9 68 3 6 24 8 18 1 0 73 1 59 30 3 84 6 5 5 68 4 5 25 0 18 3 0 73 1 54 30 3 81 5 7 8 68 5 0 25 1 18 3 0 73 1 52 30 3 80 0 9 6 68 5 6 25 2 18 4 0 73 1 50 30 3 78 8 11 5 68 5 9 25 2 18 4 0 73 1 50 30 3 78 3 12 5 68 6 2 25 2 18 4 0 73 1 49 30 3 77 8 13 6 68 6 7 25 3 18 5 0 73 1 48 30 3 77 0 15 9 75 3 6 24 2 17 9 0 74 1 72 30 1 91 5 5 3 75 4 5 24 4 18 0 0 74 1 67 30 1 88 4 7 6 75 5 0 24 5 18 1 0 74 1 65 30 1 86 9 9 3 75 5 6 24 5 18 1 0 74 1 63 30 1 85 8 11 1 75 5 9 24 6 18 2 0 74 1 62 30 1 85 2 12
84. 1 1 078 0 982 0 475 0 701 0 924 78 0 0 973 1 107 71 1 1 149 0 972 0 442 0 666 83 0 0 961 1 165 Note Sensible equals total capacity Table 85 GEV048 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Ph LWT Feet Head 45 7 3 56 4 40 3 0 72 2 60 65 2 62 9 8 3 45 9 0 56 9 40 7 0 72 2 49 65 4 59 6 4 9 45 10 1 57 1 40 9 0 72 2 44 65 4 58 0 6 4 45 11 2 57 3 41 0 0 72 2 40 65 5 56 7 7 8 45 11 8 57 4 41 0 0 72 2 39 65 5 56 1 8 9 45 12 3 57 4 41 1 0 72 2 37 65 5 55 6 9 7 45 13 4 57 6 41 2 0 72 2 34 65 6 54 8 11 0 55 7 3 54 6 39 6 0 73 2 92 64 6 72 7 7 9 55 9 0 55 1 40 0 0 73 2 82 64 7 69 4 4 7 55 10 1 55 3 40 1 0 73 2 78 64 8 67 9 6 2 55 11 2 55 5 40 3 0 73 2 74 64 8 66 6 7 5 55 11 8 55 6 40 3 0 73 2 72 64 9 66 0 8 6 55 12 3 55 6 40 4 0 73 2 71 64 9 65 5 9 4 55 13 4 55 8 40 5 0 73 2 68 64 9 64 7 10 6 68 7 3 52 2 39 1 0 75 3 28 63 3 85 4 7 7 68 9 0 52 6 39 5 0 75 3 17 63 5 82 2 4 5 68 10 1 52 9 39 7 0 75 3 13 63 6 80 6 6 0 continued on next page WSHP PRC017H EN 87 e TRANE Performance Data Table 85 GEV048 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW bh LWT Feet Head 68 11 2 53 1 39 8 0 75 3 09 63 6 79 4 7 3 68 11 8 53 2 39 9 0 75 3 07 63 7 78 8 8 3 68 12 3 53 3 39 9 0 75 3 06 63 7 78 3 9 0 68
85. 1 18 1 25 015 460 2 8 11 44 8 68 62 7 59 3 0 15 53 1 0 99 1 25 015 460 3 5 12 33 9 03 62 1 58 7 0 15 52 0 1 46 1 25 015 460 3 8 12 69 9 19 61 7 58 4 0 15 51 7 1 69 1 50 018 570 3 3 16 27 11 71 61 2 58 1 0 12 54 8 1 36 1 50 018 570 4 2 17 61 12 25 60 4 57 3 0 12 53 4 2 08 1 50 018 570 4 6 18 05 12 42 60 1 57 0 0 12 52 8 2 45 2 00 024 760 4 4 20 25 14 65 62 4 58 7 0 19 54 2 2 26 2 00 024 760 5 5 21 58 15 21 61 7 0 2 0 19 52 8 3 4 2 00 024 760 6 1 22 19 15 43 61 4 57 9 0 19 52 3 4 03 2 50 030 900 5 5 23 27 16 81 62 9 59 0 0 25 53 4 3 4 2 50 030 900 6 9 24 71 17 38 62 3 58 5 0 25 52 1 5 01 2 50 030 900 7 6 25 28 17 64 62 1 58 3 0 25 51 6 5 95 3 00 036 1140 6 6 29 28 21 57 62 7 59 1 0 19 53 8 2 39 3 00 036 1140 8 3 31 47 22 41 62 0 58 4 0 19 52 6 5 25 3 00 036 1140 9 1 32 20 22 20 61 8 58 2 0 19 52 1 6 19 3 50 042 1330 7 8 32 88 24 88 63 4 59 4 0 25 53 4 4 70 3 50 042 1330 9 7 34 81 25 05 62 8 58 9 0 25 52 2 6 92 3 50 042 1330 10 7 35 67 25 37 62 6 58 7 0 25 51 6 8 24 4 00 048 1520 8 8 39 77 29 11 62 5 58 9 0 17 54 0 1 24 4 00 048 1520 11 0 42 44 30 25 61 8 58 3 0 17 52 7 1 86 4 00 048 1520 12 1 43 65 30 69 61 5 58 0 0 17 52 2 2 21 5 00 060 1900 11 6 47 59 34 73 63 3 59 3 0 24 53 2 2 04 5 00 060 1900 14 5 50 66 35 94 62 7 58 7 0 24 52 0 3 05 5 00 060 1900 16 0 51 87 36 39 62 5 58 5 0 24 51 5 3 65 Notes Entering Air DB WB 80 67 Entering Fluid F 45 102 WSHP PRCO17H EN Table 102 Antifreeze correction factors
86. 1 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 b 1016 508 381 508 381 175 x 203 292 114 45 13 13 984 476 346 470 83 012 015 49 20 15 20 15 6 7 8 x 9 7 8 11 1 2 4 1 4 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 1016 508 381 508 381 175 x 251 292 108 19 13 13 984 476 346 470 83 018 46 23 18 23 18 8 1 4 x 9 3 4 13 1 2 4 3 4 1 3 8 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 248 343 121 35 19 19 1137 552 422 470 108 024 030 46 23 18 23 18 8 1 4 x 11 3 8 13 1 2 4 3 4 1 3 8 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 289 343 121 35 19 19 1137 552 422 597 108 036 042 50 25 19 25 20 10 1 2 x 13 1 2 17 4 1 3 4 3 4 48 3 4 23 3 4 17 5 8 23 1 2 3 1 4 1270 635 483 635 508 267 x 343 432 102 25 19 19 1238 603 448 597 83 Std 048 58 33 21 29 1 2 23 1 2 13 1 8 x 11 3 8 18 5 1 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 1473 838 533 597 749 333 x 289 457 133 38 25 25 1441 806 498 597 140 Hi 048 58 33 21 29 1 2 23 1 2 13 7 8 x 13 7 8 18 5 1 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 060 1473 838 533 597 749 352 x 352 457 133 38 25 25 1441 806 498 597
87. 1 59 3 11 5 45 12 6 68 9 49 0 0 71 3 32 80 3 57 7 14 2 45 14 0 69 1 49 2 0 71 3 28 80 3 56 5 17 1 45 14 7 69 3 49 3 0 71 3 26 80 4 55 9 18 6 45 15 4 69 3 49 3 0 71 3 25 80 4 55 4 20 2 45 16 8 69 5 49 4 0 71 3 22 80 5 54 6 23 5 55 9 1 65 9 47 6 0 72 3 82 78 9 72 3 7 7 55 11 2 66 3 47 9 0 72 3 72 79 0 69 1 11 1 55 12 6 66 6 48 1 0 72 3 68 79 1 67 6 13 7 55 14 0 66 8 48 2 0 72 3 63 79 1 66 3 16 5 55 14 7 66 8 48 3 0 72 3 61 79 1 65 8 17 9 55 15 4 66 9 48 3 0 72 3 60 79 2 65 3 19 5 55 16 8 67 0 48 4 0 72 3 57 79 2 64 4 22 7 68 9 1 63 9 47 5 0 74 4 27 78 4 85 2 7 4 68 11 2 64 3 47 9 0 74 4 17 78 6 82 0 10 7 68 12 6 64 6 48 0 0 74 4 11 78 6 80 5 13 1 68 14 0 64 8 48 2 0 74 4 07 78 6 79 2 15 8 68 14 7 64 8 48 2 0 74 4 05 78 7 78 7 17 3 68 15 4 64 9 48 3 0 74 4 03 78 7 78 2 18 7 68 16 8 65 0 48 4 0 74 4 01 78 7 77 4 21 8 75 9 1 62 0 46 8 0 75 4 55 77 6 92 0 7 2 75 11 2 62 5 47 1 0 75 4 44 71 7 88 9 10 4 75 12 6 62 7 47 3 0 75 4 39 71 7 87 3 12 8 75 14 0 62 9 47 4 0 75 4 35 71 7 86 1 15 5 75 14 7 63 0 47 5 0 75 4 33 77 8 85 6 16 9 75 15 4 63 0 47 5 0 75 4 32 77 8 85 1 18 3 75 16 8 63 2 47 6 0 75 4 29 77 8 84 3 21 3 86 9 1 59 1 45 7 0 77 5 01 76 1 102 7 7 0 86 11 2 59 5 46 0 0 77 4 88 76 2 99 6 10 1 86 12 6 59 8 46 2 0 77 4 83 76 2 98 1 12 4 86 14 0 59 9 46 3 0 77 4 79 76 3 96 9 15 0 86 14 7 60 0 46 4 0 77 4 77 76 3 96 4 16 3 86 15 4 60 1 46 4 0 77 4 75 76 3 95 9 17 7 86 16 8 60 2 46 5 0 77 4 72 76 3 95 1 20 6 95 9 1 56 5 44 8 0 79 5 45 75 1 111 5 6 7
88. 1 9 9 4 0 73 4 8 61 5 2 0 75 1 7 12 2 9 7 0 73 4 9 63 6 2 8 75 1 9 12 3 9 8 0 73 4 9 64 7 3 4 75 2 1 12 5 10 0 0 74 5 0 65 5 4 0 75 2 2 12 6 10 0 0 74 5 0 65 9 4 3 75 2 3 12 6 10 1 0 74 5 0 66 3 4 7 75 2 5 12 7 10 1 0 74 5 0 66 9 5 4 86 1 4 13 2 10 6 0 75 5 1 70 8 1 9 86 1 7 13 5 10 9 0 76 5 2 73 2 2 7 86 1 9 13 7 11 1 0 76 5 3 74 3 3 3 86 2 1 13 8 11 2 0 76 5 3 75 3 3 9 86 2 2 13 9 11 3 0 76 5 3 75 8 4 2 86 2 3 13 9 11 3 0 77 5 3 76 2 4 5 86 2 5 14 1 11 4 0 77 5 3 76 9 5 2 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 2 1 Minimum cfm 228 Rated cfm 285 Maximum cfm 342 Table 27 GEHO09 correction factors Cooling I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 228 0 960 0 876 1 003 0 984 1 087 242 0 971 0 907 1 002 0 990 1 060 257 0 982 0 937 1 002 0 990 1 036 271 0 992 0 969 1 002 0 995 1 017 285 1 000 1 000 1 000 1 000 1 000 314 1 017 1 060 1 001 1 003 0 969 328 1 022 1 088 0 999 1 007 0 957 342 1 028 1 121 0 998 1 008 0 946 36 WSHP PRCO17H EN e TRANE Performance Data Table 28 GEV009 cooling performanc
89. 10 8 0 83 1 39 9 4 17 9 114 4 5 4 105 4 2 13 1 10 8 0 83 1 38 9 5 17 8 113 5 6 4 110 2 2 12 8 10 7 0 84 1 57 8 2 18 2 126 5 2 0 110 2 8 12 8 10 7 0 84 1 52 8 4 18 0 122 9 3 1 110 3 1 12 8 10 7 0 84 1 51 8 5 18 0 121 6 3 7 110 3 5 12 8 10 7 0 84 1 49 8 6 17 9 120 2 4 6 110 3 6 12 8 10 7 0 84 1 49 8 6 17 9 120 0 4 8 110 3 8 12 8 10 7 0 84 1 48 8 7 17 9 119 4 5 3 110 4 2 12 8 10 7 0 84 1 47 8 7 17 9 118 5 6 3 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 3 5 Minimum cfm 380 Rated cfm 475 Maximum cfm 570 Table 38 GEH015 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 25 2 2 10 7 7 0 1 07 2 9 18 6 3 9 25 2 8 10 9 7 3 1 07 3 0 19 8 5 9 25 3 1 11 0 7 3 1 07 3 0 20 3 7 1 25 3 5 11 1 7 4 1 08 3 0 20 7 8 7 25 3 6 11 1 7 5 1 08 3 0 20 9 9 2 25 3 8 11 2 7 5 1 08 3 0 21 1 10 1 25 4 2 11 3 7 6 1 08 3 1 21 4 12 0 32 2 2 11 7 8 0 1 09 3 1 24 7 3 8 32 2 8 12 0 8 3 1 10 3 2 26 1 5 7 32 3 1 12 1 8 3 1 10 3 2 26 6 6 9 GLHP 32 3 5 12 2 8 5 1 10 3 3 27 2 8 5 32 3 6 12 2 8 5 1 10 3 3 27 3 8 9 32 3 8 12 3 8 5 1 10 3 3 27 5 9 8 32 4 2 12 4
90. 11 1 99 1 2 5 86 1 9 8 7 7 0 0 80 0 72 12 0 11 1 97 7 3 1 WLHP 86 2 1 8 7 7 0 0 80 0 72 12 1 11 1 96 6 3 7 86 2 2 8 7 7 0 0 80 0 71 12 2 11 1 96 1 4 0 86 2 3 8 7 7 0 0 80 0 71 12 2 11 1 95 7 4 3 86 2 5 8 7 7 0 0 80 0 71 12 3 11 1 94 9 5 0 95 1 4 8 4 6 9 0 82 0 83 10 1 11 2 111 0 1 7 95 17 8 4 6 9 0 82 0 81 10 4 11 1 108 1 2 5 95 1 9 8 4 6 9 0 82 0 80 10 5 11 1 106 7 3 0 95 2 1 8 4 6 9 0 82 0 79 10 6 11 1 105 6 3 6 95 2 2 8 4 6 9 0 82 0 79 10 6 11 1 105 1 3 9 95 2 3 8 4 6 9 0 82 0 79 10 7 11 1 104 6 4 2 95 2 5 8 4 6 9 0 82 0 78 10 8 11 1 103 8 4 9 continued on next page WSHP PRC017H EN 37 e TRANE Performance Data Table 28 GEV009 cooling performance continued Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 105 1 4 8 1 6 8 0 83 0 94 8 6 11 3 121 2 1 7 105 1 7 8 1 6 8 0 83 0 92 8 8 11 2 118 2 2 4 105 1 9 8 1 6 8 0 83 0 91 8 9 11 2 116 8 2 9 105 2 1 8 1 6 8 0 83 0 90 9 0 11 2 115 6 3 5 105 2 2 8 1 6 8 0 83 0 89 9 1 11 1 115 1 3 8 105 2 3 8 1 6 8 0 83 0 89 9 1 11 1 114 7 4 1 105 2 5 8 1 6 8 0 83 0 89 9 1 11 1 113 9 4 7 110 1 4 8 0 6 7 0 84 1 03 7 8 11 5 126 5 1 7 110 1 7 8 0 6 7 0 84 1 01 8 0 11 4 123 5 2 4 110 1 9 8 0 6 7 0 84 0 99 8 1 11 4 122 0 2 9 110 2 1 8 0 6 7 0 84 0 98 8 1 11 3 120 8 3 4 110 2 2 8 0 6 7 0 84 0 98 8 2 11 3 120 3 3 7 110 2 3 8 0 6 7 0 84 0 97 8 2 11 3 119 8 4 0 110 2 5 8 0 6 7 0 84 0 97 8 2 11 3 119 0 4 7
91. 13 4 18 1 93 4 2 2 77 2 8 14 4 11 4 0 79 1 04 13 9 18 0 89 9 3 4 77 3 1 14 5 11 4 0 79 1 03 14 0 18 0 88 6 4 1 GLHP 77 3 5 14 5 11 4 0 78 1 02 14 2 18 0 87 3 5 1 77 3 6 14 5 11 4 0 78 1 01 14 3 18 0 87 0 5 3 77 3 8 14 5 11 4 0 78 1 01 14 4 18 0 86 4 5 9 77 4 2 14 5 11 4 0 78 1 00 14 5 17 9 85 5 7 0 86 2 2 14 0 11 2 0 80 1 19 11 7 18 0 102 4 2 2 86 2 8 14 0 11 2 0 80 1 15 12 2 18 0 98 8 3 3 86 3 1 14 0 11 2 0 80 1 14 12 3 17 9 97 6 4 0 WLHP 86 3 5 14 1 11 2 0 80 1 13 12 5 17 9 96 2 4 9 86 3 6 14 1 11 2 0 80 1 12 12 5 17 9 95 9 5 2 86 3 8 14 1 11 2 0 80 1 12 12 6 17 9 95 4 5 7 86 4 2 14 1 11 2 0 80 1 11 12 7 17 9 94 5 6 8 95 2 2 13 6 11 0 0 81 1 31 10 3 18 0 111 4 2 1 95 2 8 13 6 11 0 0 81 1 28 10 7 18 0 107 8 3 2 95 3 1 13 6 11 0 0 81 1 26 10 8 17 9 106 6 3 9 95 3 5 13 6 11 0 0 81 1 25 10 9 17 9 105 2 4 8 95 3 6 13 6 11 0 0 81 1 25 10 9 17 9 104 9 5 0 95 3 8 13 6 11 0 0 81 1 24 11 0 17 9 104 4 5 5 95 4 2 13 6 11 0 0 81 1 23 Ill 17 8 103 5 6 6 continued on next page 46 WSHP PRCO17H EN e TRANE Performance Data Table 37 GEHO15 cooling performance continued Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 105 2 2 13 1 10 8 0 83 1 47 8 9 18 1 121 5 2 1 105 2 8 13 1 10 8 0 83 1 43 9 2 18 0 117 8 3 1 105 3 1 13 1 10 8 0 83 1 42 9 3 17 9 116 6 3 8 105 3 5 13 1 10 8 0 83 1 40 9 4 17 9 115 2 4 7 105 3 6 13 1 10 8 0 83 1 40 9 4 17 9 114 9 4 9 105 3 8 13 1
92. 13 4 53 4 40 0 0 75 3 03 63 7 77 5 10 2 75 7 3 50 7 38 5 0 76 3 52 62 7 92 2 7 4 75 9 0 51 2 38 9 0 76 3 43 62 9 89 0 4 4 75 10 1 51 4 39 1 0 76 3 38 63 0 87 5 5 8 75 11 2 51 6 39 2 0 76 3 34 63 0 86 3 3 1 75 11 8 51 7 39 3 0 76 3 32 63 1 85 7 8 1 75 12 3 51 8 39 4 0 76 3 31 63 1 85 2 8 8 75 13 4 51 9 39 5 0 76 3 28 63 1 84 4 9 9 86 7 3 48 4 37 7 0 78 4 00 62 0 103 0 7 1 86 9 0 48 9 38 1 0 78 3 88 62 1 99 9 4 2 86 10 1 49 1 38 3 0 78 3 83 62 2 98 3 5 6 86 11 2 49 3 38 4 0 78 3 79 62 2 97 1 6 8 86 11 8 49 4 38 5 0 78 3 77 62 3 96 6 7 7 86 12 3 49 5 38 6 0 78 3 76 62 3 96 1 8 4 86 13 4 49 6 38 7 0 78 3 73 62 3 95 3 9 5 95 7 3 46 2 36 9 0 80 4 38 61 1 111 8 3 3 95 9 0 46 6 37 3 0 80 4 27 61 2 108 7 4 8 95 10 1 46 9 37 5 0 80 4 22 61 3 107 2 5 9 95 11 2 47 1 37 6 0 80 4 17 61 3 105 9 7 1 95 11 8 47 2 37 7 0 80 4 16 61 3 105 4 7 7 95 12 3 47 2 37 8 0 80 4 14 61 4 105 0 8 4 95 13 4 47 4 37 9 0 80 4 11 61 4 104 1 9 8 105 7 3 43 5 35 9 0 83 4 87 60 1 121 5 3 2 105 9 0 43 9 36 3 0 83 4 75 60 2 118 4 4 7 105 10 1 44 2 36 5 0 83 4 69 60 2 116 9 5 7 105 11 2 44 4 36 6 0 83 4 65 60 3 115 8 6 9 105 11 8 44 5 36 7 0 83 4 63 60 3 115 2 7 5 105 12 3 44 5 36 8 0 83 4 61 60 3 114 8 8 2 105 13 4 44 7 36 9 0 83 4 58 60 3 114 0 9 5 110 7 3 42 1 35 4 0 84 5 14 59 6 126 4 3 2 110 9 0 42 5 35 8 0 84 5 02 59 6 123 3 4 6 110 10 1 42 8 36 0 0 84 4 96 59 7 121 8 5 6 110 11 2 43 0 36 1 0 84 4 92 59 7 120 7 6 8 110 11 8 43 0 36 2 0 84 4 88 59 7 120 2 7 4 110 12 3 43 1 36 2
93. 13 9 2 00 18 9 7 5 25 5 6 20 9 14 1 2 00 20 0 11 0 25 6 3 21 0 14 2 2 00 20 5 13 6 25 7 0 21 1 14 3 2 00 20 9 16 4 25 7 3 21 2 14 3 2 01 21 1 17 9 25 7 7 21 5 14 7 2 01 21 2 19 4 25 8 4 21 6 14 8 2 01 21 5 22 5 32 4 6 22 8 15 9 2 02 25 0 7 3 32 5 6 23 3 16 3 2 03 26 2 10 7 32 6 3 23 4 16 5 2 04 26 8 13 2 32 7 0 23 6 16 7 2 04 27 2 16 0 32 7 3 23 7 16 7 2 04 27 5 17 5 32 7 7 23 9 16 9 2 04 27 6 18 9 32 8 4 23 9 16 9 2 04 28 0 21 9 45 4 6 27 3 20 2 2 10 36 1 6 8 45 5 6 28 0 20 8 2 12 37 6 10 0 45 6 3 28 2 20 9 2 12 38 4 12 3 45 7 0 28 4 21 2 2 12 38 9 14 9 45 7 3 28 5 21 2 2 12 39 2 16 2 45 7 7 28 5 21 3 2 12 39 5 17 6 45 8 4 28 8 21 6 2 13 39 9 20 4 55 4 6 30 8 23 4 2 16 44 7 6 6 55 5 6 31 5 24 0 2 18 46 4 9 6 55 6 3 31 8 24 3 2 18 47 3 11 9 55 7 0 32 0 24 6 2 19 48 0 14 3 55 7 3 32 3 24 8 2 20 48 3 15 6 55 7 7 32 2 24 8 2 19 48 6 16 9 55 8 4 32 4 24 9 2 19 49 1 19 7 68 4 6 34 8 27 0 2 28 56 1 6 4 68 5 6 35 7 27 9 2 30 58 0 9 3 68 6 3 36 0 28 2 2 30 59 0 11 4 68 7 0 36 4 28 5 2 30 59 9 13 8 68 7 3 36 5 28 6 2 31 60 2 15 0 68 7 7 36 6 28 7 2 31 60 5 16 3 68 8 4 36 8 28 9 2 31 61 1 18 9 75 4 6 37 4 29 5 2 33 62 1 6 2 75 5 6 38 3 30 3 2 35 64 2 9 1 75 6 3 38 7 30 6 2 36 65 3 11 1 75 7 0 39 0 30 9 2 36 66 2 13 4 75 7 3 39 2 31 1 2 37 66 5 14 6 75 7 7 39 4 31 3 2 37 66 9 15 9 75 8 4 39 7 31 6 2 38 67 5 18 5 86 4 6 41 5 33 2 2 42 71 4 5 9 continued on next page 66 WSHP PRCO17H EN e TRANE Performance Data
94. 14 0 10 4 73 0 1 16 3 3 60 1 2 1 16 60 25 0 0 0 0 036 230 60 3 18 7 10 4 73 0 1 16 3 3 60 1 2 1 23 33 25 6 0 15 1 036 380 415 50 3 7 7 6 0 44 0 1 9 3 1 70 1 2 1 9 20 15 0 0 0 0 036 380 415 50 3 11 6 6 0 44 0 1 9 3 1 70 1 2 1 14 56 15 7 2 9 9 036 460 60 3 7 5 5 8 38 0 1 9 0 1 70 1 2 1 8 95 15 0 0 0 0 036 460 60 3 11 7 5 8 38 0 1 9 0 1 70 1 2 1 14 60 15 8 0 10 0 GEHE GEVE 042 208 60 1 21 5 17 9 112 0 1 28 0 3 60 1 2 1 25 98 40 0 0 0 0 042 208 60 1 31 0 17 9 112 0 1 28 0 3 60 1 2 1 38 75 40 5 7 27 4 042 230 60 1 21 5 17 9 112 0 1 28 0 3 60 1 2 E 25 98 40 0 0 0 0 042 230 60 1 34 0 17 9 112 0 1 28 0 3 60 1 2 1 42 54 45 7 0 30 4 042 208 60 3 17 1 13 5 88 0 1 21 1 3 60 1 2 1 20 48 30 0 0 0 0 042 208 60 3 19 4 13 5 88 0 1 21 1 3 60 1 2 1 24 28 30 5 7 15 8 042 230 60 3 17 1 13 5 88 0 1 21 1 3 60 1 2 1 20 48 30 0 0 0 0 042 230 60 3 21 2 13 5 88 0 1 21 1 3 60 1 2 I 26 46 30 7 0 17 6 042 380 415 50 3 7 7 6 3 55 0 1 9 9 1 40 1 2 1 9 28 15 0 0 0 0 042 380 415 50 3 13 4 6 3 55 0 1 9 9 1 40 1 2 1 16 71 20 8 6 12 0 042 460 60 3 7 7 6 0 44 0 1 9 3 1 70 1 2 1 9 20 15 0 0 0 0 042 460 60 3 13 4 6 0 44 0 1 9 3 1 70 1 2 1 16 72 20 9 3 11 7 042 575 60 3 6 2 4 9 34 0 1 7 7 1 31 1 2 1 7 44 15 0 0 0 0 048 208 60 1 24 2 21 4 135 0 1 33 4 2 80 1 2 1 29 55 50 0 0 0 0 048 208 60 1 34 1 21 4 135 0 1 33 4 2 80 1 2 1 42 56 50 6 5 31 3 048 230 60 1 24 2 21 4 135 0 1 33 4 2 80 1 2 I 29 55 50 0 0 0 0
95. 15 0 0 0 0 012 220 240 50 1 12 0 6 7 30 0 1 9 4 0 72 1 8 1 14 96 15 2 7 11 3 012 265 60 1 5 7 5 0 23 0 1 7 0 0 72 1 8 1 6 97 15 0 0 0 0 012 265 60 1 10 7 5 0 23 0 1 7 0 0 72 1 8 1 13 40 15 2 7 10 0 015 208 60 1 8 6 7 9 36 0 1 11 1 0 70 1 8 1 10 58 15 0 0 0 0 015 208 60 1 10 3 7 9 36 0 1 11 1 0 70 1 8 1 12 89 15 2 0 9 6 015 230 60 1 8 6 7 9 36 0 1 11 1 0 70 1 8 1 10 58 15 0 0 0 0 015 230 60 1 11 6 7 9 36 0 1 11 1 0 70 1 8 1 14 46 15 2 5 10 9 015 220 240 50 1 9 7 8 2 36 0 1 11 5 1 53 1 3 1 11 78 15 0 0 0 0 015 220 240 50 1 15 2 8 2 36 0 1 11 5 1 53 1 3 1 19 00 20 3 3 13 7 015 265 60 1 7 1 6 4 30 0 1 9 0 0 72 1 8 1 8 72 15 0 0 0 0 015 265 60 1 13 2 6 4 30 0 1 9 0 0 72 1 8 1 16 47 20 3 3 12 5 018 208 60 1 11 7 9 6 42 0 1 13 4 2 10 1 3 1 14 10 20 0 0 0 0 018 208 60 1 13 9 9 6 42 0 1 13 4 2 10 1 3 1 17 41 20 2 5 11 8 018 230 60 1 11 7 9 6 42 0 1 13 4 2 10 1 3 1 14 10 20 0 0 0 0 018 230 60 1 15 1 9 6 42 0 1 13 4 2 10 1 3 1 18 93 20 3 0 13 0 018 220 240 50 1 11 1 9 6 54 0 1 15 0 1 53 1 3 1 13 53 20 0 0 0 0 018 220 240 50 1 19 7 9 6 54 0 1 15 0 1 53 1 3 1 24 57 25 4 4 18 1 018 265 60 1 9 2 7 7 35 0 1 10 8 1 53 1 3 1 11 16 15 0 0 0 0 018 265 60 1 16 6 7 7 35 0 1 10 8 1 53 1 3 1 20 78 25 4 0 15 1 018 380 415 50 3 5 2 4 2 28 0 1 6 5 0 95 1 3 1 6 20 15 0 0 0 0 018 380 415 50 3 7 0 3 6 28 0 1 5 6 0 95 1 3 1 8 75 15 4 4 6 1 024 208 60 1 14 9 12 8 58 3 1 20 0 2 10 1 3 L 18 10 30 0 0 0 0 024 208 60 1 17 8 12 8 58 3 1 20 0 2 10 1 3 1 22 22 30 3 3 15 7 024 230 60
96. 2 0 975 2185 1 025 1 091 1 001 1 004 0 966 2280 1 032 1 122 1 001 1 006 0 957 96 WSHP PRCO17H EN e TRANE Performance Data Table 96 006 009 012 015 018 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 920 1 001 0 995 1 064 1 135 53 0 1 030 0 883 56 3 0 921 1 001 0 799 1 020 1 136 58 0 1 023 0 921 60 3 0 922 1 001 0 603 0 834 1 059 63 0 1 013 0 960 63 2 0 955 1 002 0 457 0 690 0 919 1 144 68 0 1 000 1 000 66 2 1 000 1 000 0 533 0 767 1 000 1 223 73 0 0 987 1 040 72 1 1 099 1 001 0 459 0 690 0 922 78 0 0 977 1 085 77 1 1 188 1 003 0 419 0 657 83 0 0 966 1 131 Note Sensible equals total capacity Table 97 GEVEO60 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 926 1 001 0 993 1 060 1 129 i 53 0 1 032 0 884 56 3 0 927 1 001 0 800 1 025 1 130 58 0 1 022 0 921 60 3 0 928 1 001 0 605 0 833 1 064 63 0 1 008 0 957 63 2 0 955 1 001 0 458 0 691 0 920 1 147 68 0 1 000 1
97. 2 1 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 d 1016 508 381 508 381 175 x 203 292 114 45 13 13 984 476 346 470 83 012 015 40 20 15 20 15 6 7 8 x 9 7 8 11 1 2 4 1 4 2 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 1016 508 381 508 381 175 x 251 292 108 70 13 13 984 476 346 470 83 018 46 23 18 23 18 8 1 4 x 9 3 4 13 1 2 4 3 4 3 1 4 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 248 343 121 83 19 19 1137 552 422 470 108 024 030 46 23 18 23 18 8 1 4 x 11 3 8 13 1 2 4 3 4 3 1 4 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 d 1168 584 457 584 457 210 x 289 343 121 83 19 19 1137 552 422 597 108 036 042 50 25 19 25 20 10 1 2 x 13 1 2 17 4 1 3 4 3 4 48 3 4 23 3 4 17 5 8 23 1 2 3 1 4 1270 635 483 635 508 267 x 343 432 102 25 19 19 1238 603 448 597 83 Std 048 58 33 21 29 1 2 23 1 2 13 1 8 x 11 3 8 18 9 3 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 1473 838 533 597 749 333 x 289 457 248 38 25 25 1441 806 498 597 140 Hi 048 58 33 21 29 1 2 23 1 2 13 7 8 x 13 7 8 18 9 3 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 060 1473 838 533 597 749 352 x 352 457 248 38 25 25
98. 2 1068 1018 GEH GEV042 Med 1132 1116 1096 1073 1044 GEH GEV042 Low 1064 GEH GEVO048 High 1824 1371 1323 1272 1216 GEH GEV048 Med 1332 1285 1216 GEH GEV048 Low 1216 1278 1216 GEH GEVO060 High 2226 1899 1854 1808 1761 1712 1664 1615 1566 1517 GEH GEV060 Med 1689 1644 1598 1551 1502 GEH GEV060 Low 1520 1516 WSHP PRCO17H EN 99 e TRANE Unit Fan Performance Table 99 Fan performance for high static motor includes wet coil and 1 filter Model Max Min External Static Pressure in of wg Number cfm cfm 0 0 05 0 1 0 15 0 2 0 25 0 3 0 35 0 4 0 45 0 5 GEH GEVOO6 High 258 GEH GEV006 Med 258 GEH GEVOO6 Low 172 266 253 239 222 GEH GEVO0O0O9 High 342 345 332 318 301 GEH GEV009 Med 345 330 316 302 289 275 258 GEH GEVOO9 Low 228 356 341 325 309 294 280 266 253 239 222 GEH GEVO12 High 456 GEH GEVO12 Med GEH GEVO12 Low 304 459 451 447 446 446 443 GEH GEVO015 High 570 552 541 529 519 511 507 506 506 503 GEH GEV015 Med 550 537 526 515 503 493 485 481 480 480 477 GEH GEVO15 Low 380 516 503 492 481 469 459 451 447 446 446 443 GEH GEVO18 High 684 GEH GEV018 Med 705 GEH GEVO18 Low 456
99. 2 12 Tube Material Copper Copper Copper Tube OD in 3 8 3 8 3 8 Wall Thickness 0 014 0 014 0 014 Return Bends Copper Copper Copper Table 13 Models GEV030 042 water to refrigerant coil Model GEV 030 036 042 Working Pressure psig 780 780 780 Table 14 Models GEV048 060 Model GEV 048 060 VMNESIR d d d 30 x 46 7 8 x 26 30 x 46 7 8 x 26 Compressor Type Scroll Scroll Net Weight Ibs 348 350 Ship Weight Ibs 396 396 Filter Size Actual in 23 7 8 x 29 7 8 23 7 8 x 29 7 8 Water in out size FPT 1 1 Condensate size NPTI 34 34 25 continued on next page WSHP PRC017H EN e TRANE General Data Table 14 Models GEV048 060 continued Model GEV 048 060 Di 10 x 10 DD Standard Blower Wheel Size in Direct 12 x 11 DD Drive 12 x 11 DD High Table 15 Models GEV048 060 air to water refrigerant coil Model GEV 048 060 Working Pressure psig 650 650 Tubes High 24 24 Tubes Deep 4 4 No of Circuits 6 6 Finned vol h w d 24x 25x 3 5 24x25 x 3 5 Coil Surface Area Sq Ft 4 17 4 17 Fins per Inch 12 12 Tube Material Copper Copper Tube OD in 3 8 3 8 Wall Thickness 0 014 0 014 Return Bends Copper Copper Table 16 Models GEV048 060 water to refrigerant coil Model GEV 048 060 Working Pressure psig 780 660 WSHP PRCO17H EN 26 Performance Data TRANE
100. 2 5 1 17 4 1 49 1 8 3 68 2 2 17 8 13 8 1 19 4 4 55 5 2 6 68 2 8 18 2 14 2 1 19 4 5 57 9 3 9 68 3 1 18 4 14 3 1 20 4 5 58 7 4 7 WLHP 68 3 5 18 5 14 5 1 20 4 5 59 7 5 8 68 3 6 18 6 14 5 1 20 4 5 59 9 6 1 68 3 8 18 7 14 6 1 20 4 6 60 3 6 7 68 4 2 18 8 14 7 1 20 4 6 61 0 7 9 75 2 2 19 0 14 9 1 21 4 6 61 5 2 5 75 2 8 19 5 15 4 1 21 4 7 64 0 3 8 75 3 1 19 7 15 5 1 22 4 7 65 0 4 6 75 3 5 19 8 15 7 1 22 4 8 66 0 5 6 75 3 6 19 9 15 7 1 22 4 8 66 3 5 9 75 3 8 20 0 15 8 1 22 4 8 66 7 6 5 75 4 2 20 1 15 9 1 22 4 8 67 4 7 7 86 2 2 20 9 16 7 1 23 5 0 70 8 2 4 86 2 8 21 4 17 2 1 24 5 1 73 7 3 7 86 3 1 21 6 17 4 1 24 5 1 74 8 4 4 86 3 5 21 8 17 6 1 24 5 2 75 9 5 4 86 3 6 21 9 17 7 1 24 5 2 76 2 5 7 86 3 8 21 9 17 7 1 24 5 2 76 7 6 3 86 4 2 22 1 17 8 1 24 5 2 71 5 7 5 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 3 5 Minimum cfm 380 Rated cfm 475 Maximum cfm 570 Table 42 GEV015 fan correction factors Cooling Input Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 380 0 958 0 873 1 007 0 992 1 100 404 0 970 0 905 1 005 0 998 1 073 428 0 981 0 938 1 003 1 001 1 048 45
101. 2 5 9 6 6 6 0 89 3 2 26 7 4 8 GLHP 32 2 8 9 7 6 7 0 89 3 2 27 2 5 9 32 2 9 9 8 6 7 0 89 3 2 27 4 6 3 32 3 1 9 8 6 7 0 89 3 2 27 6 7 0 32 3 4 9 9 6 8 0 90 3 2 28 0 8 3 45 1 8 11 2 8 0 0 92 3 6 36 1 2 2 45 2 2 11 4 8 3 0 92 3 6 37 5 3 1 45 2 5 11 5 8 4 0 92 3 7 38 3 3 9 45 2 8 11 6 8 5 0 92 3 7 38 9 4 7 45 2 9 11 7 8 5 0 92 3 2 39 1 5 0 45 3 1 11 7 8 6 0 92 3 7 39 5 5 7 45 3 4 11 8 8 7 0 92 3 7 39 9 6 6 55 1 8 12 5 9 3 0 94 3 9 44 6 2 1 55 2 2 12 8 9 6 0 94 4 0 46 3 3 0 continued on next page WSHP PRC017H EN 41 e TRANE Performance Data Table 32 GEH012 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 2 5 12 9 9 7 0 94 4 0 47 2 3 7 55 2 8 13 1 9 9 0 94 4 1 48 0 4 6 55 2 9 13 2 9 9 0 95 4 1 48 1 4 8 55 3 1 13 2 10 0 0 95 4 1 48 5 5 4 55 3 4 13 3 10 0 0 95 4 1 49 1 6 4 68 1 8 14 3 11 0 0 96 4 4 55 7 2 0 68 2 2 14 6 11 3 0 97 4 4 57 7 2 9 68 2 5 14 8 11 5 0 97 4 5 58 8 3 6 WLHP 68 2 8 15 0 11 7 0 98 4 5 59 6 4 3 68 2 9 15 1 11 8 0 98 4 5 59 9 4 6 68 3 1 15 1 11 8 0 97 4 6 60 4 5 2 68 3 4 15 3 11 9 0 98 4 6 61 0 6 1 75 1 8 15 3 12 0 0 98 4 6 61 7 2 0 75 2 2 15 7 12 3 0 98 4 7 63 8 2 8 75 2 5 15 9 12 5 0 99 4 7 65 0 3 5 75 2 8 16 0 12 7 0 99 4 7 66 0 4 2 75 2 9 16 1 12 8 0 99 4 8 66 2 4 5 75 3 1 16 2 12 8 0 99 4 8 66 7 5 1 75 3 4 16 4 13 0 1 00 4 8 67 4 5 9 86 1 8 16 8 13 4 1 01 4 9 71 1 1 9 86 2 2 17 2 13 8 1 01 5 0
102. 2 7 21 9 17 0 1 43 4 5 55 4 3 3 68 3 3 22 4 17 5 1 44 4 6 57 4 4 6 68 3 7 22 6 17 7 1 44 4 6 58 4 5 6 WLHP 68 4 2 22 8 17 9 1 44 4 6 59 5 7 0 68 4 4 22 9 17 9 1 44 4 6 59 8 7 6 68 4 6 22 9 18 0 1 44 4 7 60 2 8 2 68 5 0 23 1 18 2 1 45 4 7 60 7 9 5 75 2 7 23 3 18 3 1 45 4 7 61 4 3 2 75 3 3 23 7 18 8 1 45 4 8 63 6 4 5 75 3 7 24 0 19 0 1 45 4 8 64 7 5 5 75 4 2 24 2 19 2 1 46 4 9 65 8 6 8 75 4 4 24 3 19 3 1 46 4 9 66 2 7 4 75 4 6 24 3 19 4 1 46 4 9 66 6 8 0 75 5 0 24 5 19 5 1 46 4 9 67 2 9 3 86 2 7 25 3 20 3 1 46 5 1 71 0 3 1 86 3 3 25 8 20 8 1 47 5 2 73 4 4 3 86 3 7 25 9 20 9 1 46 5 2 74 7 5 3 86 4 2 26 1 21 1 1 46 5 3 75 9 6 6 86 4 4 26 2 21 2 1 45 5 3 76 4 7 2 86 4 6 26 3 21 3 1 45 5 3 76 7 7 7 86 5 0 26 3 21 3 1 45 5 3 71 5 8 9 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 4 2 Minimum cfm 456 Rated cfm 570 Maximum cfm 684 Table 48 GEV018 fan correction factors Cooling I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 456 0 962 0 879 1 010 0 990 1 097 485 0 972 0 909 1 006 0 996 1 072 513 0 982 0 940 1 003 0 993 1 042 542 0 991 0 970 1 002 0 998
103. 2 81 44 4 102 3 5 1 86 6 7 35 0 27 0 0 77 2 74 44 3 99 2 7 4 86 7 6 35 1 27 0 0 77 2 71 44 3 97 7 9 1 86 8 4 35 2 27 1 0 77 2 68 44 3 96 5 11 0 86 8 8 35 2 27 1 0 77 2 67 44 3 96 0 12 0 86 9 2 35 2 27 1 0 77 2 66 44 3 95 6 13 0 86 10 1 35 3 27 2 0 77 2 64 44 3 94 8 15 1 95 5 5 33 2 26 3 0 79 3 08 43 8 111 0 4 9 95 6 7 33 4 26 4 0 79 3 01 43 7 108 0 FL 95 7 6 33 5 26 5 0 79 2 98 43 7 106 6 8 7 95 8 4 33 6 26 6 0 79 2 95 43 7 105 4 10 5 95 8 8 33 7 26 6 0 79 2 94 43 7 104 9 11 4 95 9 2 33 7 26 6 0 79 2 93 43 7 104 5 12 4 95 10 1 33 7 26 7 0 79 2 91 43 7 103 7 14 4 105 5 5 31 4 25 6 0 82 3 42 43 0 120 8 4 8 105 6 7 31 6 25 8 0 82 3 34 43 0 117 8 6 9 105 7 6 31 7 25 9 0 82 3 31 43 0 116 4 8 4 105 8 4 31 8 25 9 0 82 3 28 42 9 115 2 10 2 105 8 8 31 8 26 0 0 82 3 27 42 9 114 7 11 1 105 9 2 31 8 26 0 0 82 3 26 42 9 114 3 12 0 105 10 1 31 9 26 0 0 82 3 24 42 9 113 5 14 0 110 5 5 30 4 25 3 0 83 3 61 42 7 125 6 4 7 110 6 7 30 6 25 5 0 83 3 53 42 6 122 7 6 8 110 7 6 30 7 25 6 0 83 3 49 42 6 121 3 8 3 110 8 4 30 8 25 6 0 83 3 46 42 6 120 1 10 0 110 8 8 30 8 25 6 0 83 3 45 42 6 119 6 10 9 110 9 2 30 8 25 7 0 83 3 44 42 5 119 2 11 9 110 10 1 30 9 25 7 0 83 3 42 42 5 118 4 13 8 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tab
104. 2 83 20 8 18 7 25 10 8 31 3 21 7 2 83 21 0 20 2 25 11 8 31 4 21 8 2 84 21 3 23 4 32 6 4 33 8 24 0 2 89 24 5 7 8 32 7 8 34 4 24 5 2 90 25 7 11 4 32 8 8 34 6 24 7 2 90 26 4 14 0 32 9 8 34 9 25 0 2 90 26 9 16 8 32 10 3 34 9 25 0 2 90 27 1 18 3 32 10 8 35 0 25 1 2 90 27 3 19 8 32 11 8 35 1 25 2 2 91 27 7 22 9 45 6 4 39 8 29 6 3 01 35 7 7 3 45 7 8 40 5 30 2 3 02 37 3 10 6 45 8 8 40 8 30 5 3 02 38 1 13 1 45 9 8 41 0 30 7 3 02 38 7 15 7 45 10 3 41 1 30 8 3 02 39 0 17 1 45 10 8 41 2 30 9 3 03 39 3 18 5 45 11 8 41 5 31 1 3 04 39 7 21 5 55 6 4 44 8 34 2 3 11 44 3 7 0 55 7 8 45 6 34 9 3 12 46 1 10 2 continued on next page 82 WSHP PRCO17H EN e TRANE Performance Data Table 78 GEV042 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 55 8 8 46 0 35 3 3 13 47 0 12 5 55 9 8 46 3 35 6 3 14 47 7 15 1 55 10 3 46 4 35 7 3 14 48 1 16 4 55 10 8 46 5 35 8 3 14 48 4 17 8 55 11 8 46 7 36 0 3 15 48 9 20 7 68 6 4 50 7 39 5 3 28 55 6 6 6 68 7 8 51 7 40 5 3 30 57 7 9 6 68 8 8 52 1 40 8 3 31 58 7 11 9 68 9 8 52 7 41 4 3 34 59 6 14 2 68 10 3 52 9 41 5 3 34 59 9 15 5 68 10 8 53 1 41 7 3 34 60 3 16 8 68 11 8 53 3 41 9 3 34 60 9 19 6 75 6 4 54 5 42 9 3 39 61 5 6 5 75 7 8 55 7 44 0 3 43 63 8 9 4 75 8 8 56 4 44 6 3 45 64 9 11 5 75 9 8 57 0 45 2 3 47 65 8 13 9 75 10 3 57 3 45 4 3 48 66 2 15 1 75 10 8 57 5 45 6 3 49 66 5 16 4 75 11 8 57 7 45 8 3 50 67 2 1
105. 208 60 3 21 0 15 6 110 0 1 24 4 5 40 1 1 24 90 40 0 0 0 0 060 208 60 3 23 4 15 6 110 0 1 24 4 5 40 I 1 29 30 40 6 5 18 0 060 230 60 3 21 0 15 6 110 0 1 24 4 5 40 1 1 24 90 40 0 0 0 0 060 230 60 3 25 5 15 6 110 0 1 24 4 5 40 X 1 31 85 40 8 0 20 1 060 380 415 50 3 12 3 9 6 75 0 1 15 0 2 70 1 1 14 70 20 0 0 0 0 060 380 415 50 3 14 7 9 6 75 0 1 15 0 2 70 L 1 18 33 20 8 6 12 0 060 460 60 3 10 5 7 8 52 0 1 12 1 2 70 1 1 12 45 20 0 0 0 0 060 460 60 3 16 0 7 8 52 0 1 12 1 2 70 1 1 20 01 25 10 6 13 3 060 575 60 3 8 0 5 8 38 9 1 9 1 2 20 1 1 9 45 15 0 0 0 0 Table 104 Electrical data High static motors 2 5 tons Maximum Total Comp Comp Blower Blower Fan Minimum Overcurrent Electric Electric Model Unit RLA LRA No of Cmp Motor Motor Motor Circuit Protective Heat Heat No Volts FLA ea ea Comp MCC FLA hp Num Ampacity Device kW Amps GEHE GEVE 006 115 60 1 6 8 5 6 30 0 1 7 5 1 20 1 12 i 8 20 15 0 0 0 0 006 208 60 1 3 9 3 3 14 0 1 4 2 0 60 1 12 1 4 73 15 0 0 0 0 006 208 60 1 4 5 3 3 14 0 1 4 2 0 60 1 12 1 5 68 15 0 8 3 9 006 230 60 1 3 8 3 2 15 0 1 4 2 0 60 1 12 1 4 60 15 0 0 0 0 006 230 60 1 4 9 3 2 15 0 1 4 2 0 60 1 12 1 6 18 15 1 0 4 3 006 220 240 50 1 3 4 2 9 17 0 1 4 0 0 52 1 12 1 4 15 15 0 0 0 0 006 220 240 50 1 7 4 2 9 17 0 1 4 0 0 52 1 12 1 9 19 15 1 6 6 8 006 265 60 1 3 0 2 5 11 0 1 3 5 0 52 1 12 1 3 65 15 0 0 0 0 006 265 60 1 5 5 2 5 11 0 1 3 5 0 52 1 12 1 6 92 15 1 3 5 0 009 115 60
106. 22 5 90 6 4 3 77 3 7 18 1 14 1 0 78 1 30 13 9 22 5 89 2 5 3 GLHP 77 4 2 18 1 14 1 0 78 1 28 14 1 22 5 87 7 6 6 77 4 4 18 1 14 1 0 78 1 28 14 2 22 5 87 2 7 2 77 4 6 18 1 14 1 0 78 1 27 14 3 22 4 86 8 dd 77 5 0 18 1 14 1 0 78 1 26 14 4 22 4 86 0 9 0 86 2 7 17 4 13 8 0 79 1 50 11 6 22 5 102 7 2 9 86 3 3 17 5 13 9 0 79 1 45 12 0 22 5 99 6 4 2 86 3 7 17 6 13 9 0 79 1 44 12 2 22 5 98 1 5 1 WLHP 86 4 2 17 6 13 9 0 79 1 42 12 4 22 4 96 7 6 4 86 4 4 17 6 13 9 0 79 1 41 12 5 22 4 96 2 7 0 86 4 6 17 6 13 9 0 79 1 41 12 5 22 4 95 7 7 5 86 5 0 17 6 13 9 0 79 1 40 12 6 22 4 95 0 8 7 95 2 7 16 9 13 6 0 81 1 65 10 2 22 5 111 7 2 9 95 3 3 16 9 13 6 0 81 1 61 10 5 22 4 108 6 4 1 95 3 7 17 0 13 7 0 81 1 59 10 6 22 4 107 1 5 0 95 4 2 17 0 13 7 0 81 1 57 10 8 22 4 105 6 6 2 95 4 4 17 0 13 7 0 80 1 57 10 9 22 4 105 2 6 8 95 4 6 17 0 13 7 0 80 1 56 10 9 22 3 104 7 7 3 95 5 0 17 0 13 7 0 80 1 55 11 0 22 3 103 9 8 5 continued on next page 52 WSHP PRC017H EN e TRANE Performance Data Table 43 GEHO018 cooling performance continued Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 105 2 7 16 2 13 3 0 82 1 86 8 7 22 5 121 7 2 8 105 3 3 16 2 13 3 0 82 1 82 8 9 22 4 118 6 4 0 105 3 7 16 2 13 3 0 82 1 80 9 0 22 4 117 1 4 9 105 4 2 16 3 13 3 0 82 1 77 9 2 22 3 115 6 6 1 105 4 4 16 3 13 3 0 82 1 77 9 2 22 3 115 1 6 6 105 4 6 16 3 13 3 0 82 1 76 9 2 22 3 114 7 7 1 105 5 0 16 3 13
107. 23 1 2 5 1 2 060 1473 838 533 597 749 352 x 352 457 133 38 25 25 1441 806 498 597 140 Notes 1 All dimensions are in inches followed by millimeters in parenthesis 2 Access to the unit for service purposes should be provided at installation All configurations require an 18 in surround clearance from other mechanical and electrical equipment to enable panel removal from the unit for service maintenance ability Local and or NEC codes require greater service clearance Check all code requirements prior to unit installation Installer is responsible for following all local and NEC code requirements 3 Forklift is recommended when rigging the unit If hot gas reheat is specified for a size 018 or 024 the actual cabinet size increases to an 036 cabinet 4 When a horizontal model is ordered with same side return and supply in a ducted application bottom filter removal is required due to limited access on either side of the filter a Return air opening dimension b Filter rack dimension 112 WSHP PRC017H EN e TRANE Dimensional Data Figure 12 Left return back supply FXG OPENING REFRIG AND BLOWER CONTROL ACCESS ACCESS O o p 1 25 4 PANEL HI VOLT L W O WCI mounting location LO VOLT EO EN DRAIN 3 4 19 NPT BACK LEFT SIDE l D gt lt E li FRONT 1 Unit A B C pta E
108. 3 Ton 015 1 Ton 048 4 Ton 018 1 Ton 060 5 Ton 024 2 Ton Digit 8 Voltage Volts Hz Phase 0 115 60 1 5 575 60 3 1 208 60 1 6 220 240 50 1 2 230 60 1 7 265 60 1 3 208 60 3 8 230 60 3 4 460 60 3 9 380 415 50 3 Digit 9 Heat Exchanger 1 Copper Water Coil 2 Cupro Nickel Water Coil 7 Insulated Copper Water Coil 8 Insulated Cupro Nickel Water Coil Digit 10 Current Design Sequence Digit 11 Refrigeration Circuit 0 Heating and Cooling Circuit 2 Heating and Cooling Circuit with Hot Gas Reheat 3 Heating and Cooling Circuit with Waterside Economizer Digit 12 Blower Configuration 1 Standard Blower Motor 2 High Static Blower Motor Digit 13 Freeze Protection A 20 F Freezestat extended range geothermal B 35 F Freezestat Digit 14 Open Digit O Digit 15 Supply Air Arrangement B Back Supply Air Arrangement F Front Supply Air Arrangement L Left Supply Air Arrangement R Right Supply Air Arrangement T Top Supply Air Arrangement 22 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 36 Digit 16 Return Air Arrangement L Left Return Air Arrangement R Right Return Air Arrangement Digit 17 Control Types 0 Basic 24V Controls D Deluxe 24V Controls B z Tracer ZN524 Controls F UC400 G UC400 w Wireless Comm Digit 18 Tstat Sensor Location 0 2 Wall Mounted Location Digit 19 Fault Sensors 1 Condensate Overflow
109. 3 44 4 36 8 0 83 4 61 60 1 114 8 9 8 105 13 4 44 6 36 9 0 83 4 58 60 2 114 0 11 5 110 7 3 41 9 35 3 0 84 5 14 59 4 126 3 3 8 110 9 0 42 4 35 7 0 84 5 01 59 5 123 3 5 5 110 10 1 42 6 35 9 0 84 4 95 59 5 121 8 6 8 110 11 2 42 8 36 1 0 84 4 91 59 6 120 6 8 2 110 11 8 42 9 36 1 0 84 4 89 59 6 120 1 8 9 110 12 3 43 0 36 2 0 84 4 87 59 6 119 7 9 7 110 13 4 42 4 35 8 0 84 4 90 59 2 118 8 11 3 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 11 2 Minimum cfm 1216 Rated cfm 1520 Maximum cfm 1824 Table 82 GEH048 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 7 3 35 7 24 4 3 31 18 3 5 1 25 9 0 36 4 25 0 3 32 19 4 7 3 25 10 1 36 6 25 3 3 32 20 0 9 1 25 11 2 36 9 25 5 3 32 20 4 10 9 25 11 8 37 1 25 7 3 33 20 6 11 9 25 12 3 37 3 25 9 3 33 20 8 13 0 25 13 4 37 3 26 0 3 33 21 1 15 1 32 7 3 39 1 27 7 3 35 24 4 5 0 32 9 0 39 8 28 3 3 37 25 7 7 2 32 10 1 40 3 28 8 3 38 26 3 8 9 continued on next page WSHP PRC017H EN 85 e TRANE Performance Data Table 82 GEH048 heating performance continued
110. 3 7 8 x 13 7 8 18 9 3 4 1 1 2 I 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 060 1473 838 533 597 749 352 x 352 457 248 38 25 25 1441 806 498 597 140 Notes 1 All dimensions are in inches followed by millimeters in parenthesis 2 Access to the unit for service purposes should be provided at installation All configurations require an 18 in surround clearance from other mechanical and electrical equipment to enable panel removal from the unit for service maintenance ability Local and or NEC codes require greater service clearance Check all code requirements prior to unit installation Installer is responsible for following all local and NEC code requirements 3 Forklift is recommended when rigging the unit If hot gas reheat is specified for a size 018 or 024 the actual cabinet size increases to an 036 cabinet a Return air opening dimension b Filter rack dimension WSHP PRC017H EN 113 e TRANE Dimensional Data Figure 13 BLOWER ACCESS PANEL TOP Left return right supply HI VOLT WCI mounting location REFRIG 178 DRAIN Back 92 LEFT SIDE FRONT 8 3 4 19 NPTI T io e Table 108 Dimensional data left return right supply Unit A B C p E FxG H J K LNPTI MNPTI N P Q IRD S 006 009 49 20 15 20 15 6 7 8x 8 11 1 2 4 1 2 1 3 4 1 2 1 2 38 3 4
111. 4 3 4 3 4 622 1064 673 457 83 48 241 483 584 267 343 6 19 19 19 std 04g 26 1 2 46 7 8 30 1 2 18 4 1 4 2 9 1 2 29 27 7 8 13 7 8 13 7 8 1 2 1 1 3 4 673 1191 775 457 108 51 241 737 708 352 352 13 25 4 25 4 19 Hi 048 26 1 2 46 7 8 30 1 2 18 4 1 4 2 9 1 2 29 27 7 8 13 1 8 11 3 8 1 2 1 1 3 4 060 673 1191 775 457 108 51 241 737 708 333 289 13 25 4 25 4 19 Note All dimensions are in inches followed by millimeters in parenthesis 120 WSHP PRCO17H EN Figure 20 Right return top supply e TRANE Dimensional Data Note Access to the unit for service purposes should be provided at installation All configurations require a 36 in surround clearance from other mechanical and electrical equipment to enable panel removal from the unit for service maintenance ability Local and or NEC codes require greater service clearance Check all code requirements prior to unit installation Installer is responsible for following all local and NEC code requirements BLOWER ACCESS COMP CONTROL ACCESS WCI mounting location wD DRAIN HI VOLT 9 1727 e LOW VOLT VD ad a X LEFT SIDE FRONT RIGHT SIDE Table 11
112. 4 94 75 8 102 7 6 5 86 11 2 59 3 45 2 0 76 4 83 75 8 99 5 9 3 86 12 6 59 5 45 3 0 76 4 77 75 8 98 0 11 5 86 14 0 59 6 45 4 0 76 4 72 75 7 96 8 13 9 86 14 7 59 7 45 5 0 76 4 70 75 7 96 3 15 1 86 15 4 59 7 45 5 0 76 4 68 75 7 95 8 16 4 86 16 8 59 8 45 6 0 76 4 65 75 7 95 0 19 1 95 9 1 56 4 44 0 0 78 5 39 74 8 111 4 6 2 95 11 2 56 7 44 3 0 78 5 26 74 7 108 3 9 0 95 12 6 56 9 44 4 0 78 5 21 74 6 106 8 11 1 95 14 0 57 0 44 5 0 78 5 16 74 6 105 7 13 4 95 14 7 57 0 44 6 0 78 5 14 74 6 105 1 14 6 95 15 4 57 0 44 6 0 78 5 12 74 5 104 7 15 8 95 16 8 57 2 44 7 0 78 5 09 74 6 103 9 18 4 105 9 1 53 2 42 6 0 80 5 95 73 5 121 1 0 0 105 11 2 53 5 42 9 0 80 5 82 73 4 118 1 0 0 105 12 6 53 7 43 1 0 80 5 76 73 3 116 6 10 8 105 14 0 53 8 43 2 0 80 5 71 73 3 115 5 13 0 105 14 7 53 9 43 2 0 80 5 69 73 3 115 0 14 2 105 15 4 53 9 43 2 0 80 5 67 73 3 114 5 15 4 105 16 8 54 0 43 3 0 80 5 64 73 2 113 7 17 9 continued on next page WSHP PRC017H EN 91 e TRANE Performance Data Table 89 GEHO60 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW bb LWT Feet Head 110 9 1 51 5 42 0 0 82 6 27 72 8 126 0 6 0 110 11 2 51 9 42 4 0 82 6 13 72 8 123 0 0 0 110 12 6 52 0 42 5 0 82 6 07 72 7 121 5 10 6 110 14 0 52 1 42 6 0 82 6 01 72 6 120 4 12 8 110 14 7 52 2 42 6 0 82 5 99 72 6 119 9 14 0 110 15 4 52 2 42 6 0 82 5 97 72 6 119 4 15 2 110 16 8 52 5 42 9 0 82 5 94 72 7 118 7 17 7
113. 46 4 62 0 6 1 45 6 7 40 4 28 8 0 71 1 76 46 5 58 8 8 8 45 7 6 40 6 28 8 0 71 1 73 46 5 57 3 10 8 45 8 4 40 7 28 9 0 71 1 71 46 5 56 1 13 0 45 8 8 40 7 29 0 0 71 1 69 46 5 55 5 14 2 45 9 2 40 7 29 0 0 71 1 68 46 5 55 1 15 4 45 10 1 40 8 29 0 0 71 1 67 46 5 54 2 18 0 55 5 5 38 9 28 1 0 72 2 06 45 9 71 8 5 8 55 6 7 39 2 28 3 0 72 2 00 46 0 68 7 8 4 55 7 6 39 3 28 4 0 72 1 97 46 0 67 2 10 4 55 8 4 39 3 28 4 0 72 1 94 46 0 65 9 12 5 55 8 8 39 4 28 5 0 72 1 93 46 0 65 4 13 7 55 9 2 39 4 28 5 0 72 1 92 46 0 65 0 14 8 55 10 1 39 5 28 5 0 72 1 91 46 0 64 1 17 2 68 5 5 37 3 27 6 0 74 2 35 45 4 84 6 5 5 68 6 7 37 6 27 8 0 74 2 29 45 4 81 5 7 9 68 7 6 37 7 27 9 0 74 2 26 45 4 80 0 9 8 continued on next page 74 WSHP PRC017H EN e TRANE Performance Data Table 69 GEV036 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW beak LWT Feet Head 68 8 4 37 7 27 9 0 74 2 23 45 4 78 8 11 8 68 8 8 37 8 27 9 0 74 2 22 45 4 78 3 12 8 68 9 2 37 8 28 0 0 74 2 21 45 4 77 8 13 9 68 10 1 37 9 28 0 0 74 2 20 45 4 77 0 16 2 75 5 5 36 3 27 3 0 75 2 52 44 9 91 5 5 3 75 6 7 36 5 27 4 0 75 2 46 44 9 88 4 7 7 75 7 6 36 6 27 5 0 75 2 43 44 9 86 9 9 5 75 8 4 36 7 27 6 0 75 2 40 44 9 85 7 11 5 75 8 8 36 7 27 6 0 75 2 39 44 9 85 2 12 5 75 9 2 36 8 27 6 0 75 2 38 44 9 84 7 13 6 75 10 1 36 8 27 6 0 75 2 37 44 9 83 9 15 8 86 5 5 34 8 26 8 0 77
114. 498 49 jl 208 TTA T Tet S21 T p24 aF 32 2 I Pas gs a 26U 26U 30 aut 31 i P 64A 54A 32 1k4 1K413 LM olo 53A 53A 33 n 21K J 3 33 34 i aja u 1781 15 123286783000 di top 71 14 lt SEEINSETA S 34 104A d 121 E s EVAP LOW Ba puza TON HUMIDITY CO2 UNIV TEMP SENSOR RTS 105A RT MA ITBI O2 37 pua ea SENSOR a C MC 4 448 yy 44A 5 113 CONDENSATE T P23 32 3 p 8A LEAVING WATER a OVERFLOW 45E_ 458 y 45A J35 59 AN SENSOR P2 67 J2 6 sa 40 1U8 zs O m DISCHARGE AIR A optiona OCCUPANCY 86 17B1 10 SA ng a RIA CONNECTIONS Q SENSOR 42 INSET A 7 pee J27 p NO 107A IE IEDEEON iq I ENTERING WATER vga 28 SENSOR fo a 1 iz 1 iz ate kole de m H qu l lz lg lz lz lglg lal lgl I I 1 close I li E w o FANMODE 4 47 ZA WARNING E gt comm Link 1781 8 ws II er Seine acm HAZARDOUS VOLTAGE Q DISCONNECT ALL ELECTRIC POI INCLUDING REMOTE DISCONNEC COMMON 49 BEFORE SERVICING ZONE FAILURE TO DISCONNECT POWER st 50 BEFORE SERVICING CAN CAUSE ZONE TEMP SENSOR SEVERE PERSONAL INJURY OR DEATH 1TBI 6 5 CAUTION a p USE COPPER CONDUCTORS ONLY UNIT TERMINALS ARE NOT DESIGNED e TO ACCEPT OTHER TYPES OF 53 CONDUCTORS FALME TO DO SO MAY CAUSE 5 DAMAGE TO THE EQUIPMENT 55 NOTES 4 ALLFIELD WIRING MUST BE IN ACCORDANCE WITH lt 7 FIELD INSTALLED SOLENOID VALVE CAN BE WIRED 56 1 UNLESS OT
115. 5 Dimensional data right return top supply W l W O DrainF Unit A B C D E F G H J K L M NPTI NPTI PT 006 19 1 2 31 1 4 21 1 2 11 1 2 4 5 3 4 9 1 2 15 17 6 7 8 8 3 4 1 2 1 2 3 4 015 495 794 546 292 102 146 241 381 432 175 203 19 13 13 19 9 3 4 019 21 12 39 1 4 21 1 2 13 172 4 4 9 12 23 34 17 8 1 4 248 3 4 3 4 3 4 3 4 030 546 997 546 343 102 1021 241 603 432 368 11 3 8 19 19 19 19 289 036 24 1 2 41 7 8 26 1 2 18 3 1 4 5 3 4 9 1 2 19 23 10 1 2 13 1 2 1 3 4 3 4 3 4 3 4 042 622 1064 673 457 83 146 241 483 584 267 343 19 19 19 19 Std 048 26 1 2 46 7 8 30 1 2 18 4 1 4 2 9 1 2 29 27 7 8 13 7 8 13 7 8 1 2 1 1 3 4 673 1191 775 457 108 51 241 737 708 352 352 13 25 25 19 Hi 048 26 1 2 46 7 8 30 1 2 18 4 1 4 2 9 1 2 29 27 7 8 13 1 8 11 3 8 1 2 1 1 3 4 060 673 1191 775 457 108 51 241 737 708 333 289 13 25 25 19 Note All dimensions are in inches followed by millimeters in parenthesis WSHP PRC017H EN 121 e TRANE Dimensional Data Figure 21 Right return back supply Note Access to the unit for service purposes should be provided at installation All configurations require a 36 in surround clearance from other mechanical and electrical eq
116. 5 10 1 36 2 27 0 0 75 1 85 42 5 83 4 17 9 86 5 5 34 1 26 1 0 77 2 30 42 0 101 4 5 8 continued on next page WSHP PRC017H EN 71 e TRANE Performance Data Table 65 GEHO036 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW joa LWT Feet Head 86 6 7 34 3 26 3 0 77 2 23 41 9 98 5 8 5 86 7 6 34 4 26 4 0 77 2 19 41 9 97 1 10 4 86 8 4 34 5 26 4 0 77 2 17 41 9 96 0 12 5 86 8 8 34 6 26 5 0 77 2 16 41 9 95 5 13 6 86 9 2 34 6 26 5 0 77 2 15 41 9 95 1 14 7 86 10 1 34 6 26 5 0 77 2 13 41 9 94 3 17 2 95 5 5 32 6 25 6 0 79 2 58 41 4 110 2 5 6 95 6 7 32 8 25 8 0 79 2 51 41 4 107 3 8 1 95 7 6 32 9 25 9 0 79 2 48 41 3 105 9 9 9 95 8 4 33 0 25 9 0 79 2 44 41 3 104 8 11 9 95 8 8 33 0 26 0 0 79 2 43 41 3 104 4 13 0 95 9 2 33 0 26 0 0 79 2 42 41 3 103 9 14 1 95 10 1 33 1 26 0 0 79 2 40 41 3 103 2 16 5 105 5 5 30 7 25 0 0 81 2 93 40 7 119 9 5 4 105 6 7 30 9 25 2 0 81 2 85 40 6 117 1 7 8 105 7 6 31 0 25 2 0 81 2 82 40 6 115 7 9 6 105 8 4 31 1 25 3 0 81 2 79 40 6 114 7 11 6 105 8 8 31 1 25 3 0 81 2 77 40 6 114 2 12 7 105 9 2 31 2 25 4 0 81 2 76 40 6 113 8 13 7 105 10 1 31 2 25 4 0 81 2 74 40 6 113 1 16 0 110 5 5 29 7 24 6 0 83 3 12 40 3 124 8 5 4 110 6 7 29 9 24 8 0 83 3 04 40 3 122 0 7 7 110 7 6 30 0 24 9 0 83 3 00 40 3 120 7 9 5 110 8 4 30 1 25 0 0 83 2 97 40 2 119 6 11 5 110 8 8 30 1 25 0 0 83 2 96 40 2 119 1 12 5 110 9 2 30 2 25 0 0 83 2 94 40
117. 5 11 2 69 3 48 3 0 70 3 38 80 9 59 4 10 6 45 12 6 69 5 48 5 0 70 3 33 80 9 57 8 13 0 45 14 0 69 6 48 5 0 70 3 30 80 9 56 6 15 7 45 14 7 69 7 48 6 0 70 3 29 80 9 56 0 17 1 45 15 4 69 7 48 6 0 70 3 27 80 9 55 5 9 3 continued on next page 90 WSHP PRCO17H EN e TRANE Performance Data Table 89 GEHO60 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW bro LWT Feet Head 45 16 8 69 8 48 7 0 70 3 25 80 9 54 6 10 8 55 9 1 65 9 46 9 0 71 3 76 78 7 72 3 7 1 55 11 2 66 2 47 2 0 71 3 66 78 7 69 1 10 2 55 12 6 66 5 47 3 0 71 3 62 78 8 67 5 12 6 55 14 0 66 6 47 4 0 71 3 58 78 8 66 3 15 1 55 14 7 66 7 47 5 0 71 3 56 78 8 65 7 16 5 55 15 4 66 7 47 5 0 71 3 55 78 8 65 2 17 9 55 16 8 66 8 47 6 0 71 3 52 78 8 64 4 20 8 68 9 1 63 6 46 7 0 73 4 18 77 9 85 1 6 8 68 11 2 64 0 47 0 0 73 4 08 77 9 81 9 9 9 68 12 6 64 2 47 1 0 73 4 03 77 9 80 4 12 1 68 14 0 64 3 47 2 0 73 4 00 78 0 79 1 14 6 68 14 7 64 4 47 3 0 73 3 98 77 9 78 6 15 9 68 15 4 64 4 47 3 0 73 3 96 77 9 78 1 17 3 68 16 8 64 5 47 4 0 73 3 94 78 0 77 3 20 1 75 9 1 61 9 46 0 0 74 4 46 77 1 91 9 6 7 75 11 2 62 3 46 3 0 74 4 36 77 1 88 8 9 6 75 12 6 62 4 46 4 0 74 4 31 77 1 87 2 11 9 75 14 0 62 5 46 5 0 74 4 27 77 1 86 0 14 3 75 14 7 62 6 46 5 0 74 4 25 77 1 85 5 15 6 75 15 4 62 6 46 6 0 74 4 24 77 1 85 0 16 9 75 16 8 62 7 46 6 0 74 4 21 77 1 84 2 19 7 86 9 1 59 0 44 9 0 76
118. 5 21 7 0 79 2 36 35 5 105 2 12 2 95 7 4 27 5 21 7 0 79 2 35 35 5 104 7 13 3 95 7 7 27 5 21 7 0 79 2 34 35 5 104 2 14 5 95 8 4 27 6 21 7 0 79 2 32 35 5 103 5 16 8 105 4 6 25 7 20 9 0 81 2 77 35 2 120 5 5 5 105 5 6 25 9 21 0 0 81 2 70 35 1 117 5 8 0 105 6 3 26 0 21 1 0 81 2 67 35 1 116 1 9 9 105 7 0 26 1 21 2 0 81 2 64 35 1 115 0 11 9 105 7 4 26 1 21 2 0 81 2 63 35 1 114 5 12 9 105 7 7 26 1 21 2 0 81 2 62 35 0 114 1 14 1 105 8 4 26 2 21 2 0 81 2 61 35 1 113 3 16 4 110 4 6 24 9 20 6 0 83 2 94 35 0 125 4 5 5 110 5 6 25 1 20 7 0 83 2 87 34 9 122 5 7 9 110 6 3 25 2 20 8 0 83 2 83 34 9 121 1 9 7 110 7 0 25 3 20 9 0 83 2 81 34 9 120 0 11 7 110 7 4 25 3 20 9 0 83 2 80 34 8 119 5 12 8 110 7 7 25 3 20 9 0 83 2 79 34 9 119 1 13 9 110 8 4 25 4 20 9 0 83 2 77 34 8 118 3 16 2 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 7 0 Maximum cfm 720 Rated cfm 900 Maximum cfm 1080 WSHP PRC017H EN 65 e TRANE Performance Data Table 58 GEH030 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 4 6 20 7
119. 5 4 2 15 7 12 0 0 76 0 62 25 5 17 8 53 5 8 3 55 2 2 15 2 11 8 0 77 0 82 18 7 18 0 71 4 2 5 55 2 8 15 3 11 8 0 77 0 78 19 6 18 0 67 8 3 9 55 3 1 15 3 11 8 0 77 0 77 20 0 17 9 66 6 4 7 55 3 5 15 4 11 8 0 77 0 75 20 4 17 9 65 2 5 8 55 3 6 15 4 11 8 0 77 0 75 20 5 17 9 65 0 6 1 55 3 8 15 4 11 8 0 77 0 74 20 7 17 9 64 4 6 7 55 4 2 15 4 11 8 0 77 0 73 21 0 17 9 63 5 8 0 68 2 2 14 8 11 6 0 79 0 96 15 4 18 1 84 4 2 4 68 2 8 14 8 11 6 0 78 0 93 16 0 18 0 80 9 3 7 68 3 1 14 9 11 6 0 78 0 91 16 3 18 0 79 6 4 5 68 3 5 14 9 11 7 0 78 0 90 16 5 18 0 78 3 5 5 68 3 6 14 9 11 7 0 78 0 90 16 6 18 0 78 0 5 8 68 3 8 14 9 11 7 0 78 0 89 16 7 18 0 77 5 6 4 68 4 2 14 9 11 7 0 78 0 88 16 9 18 0 76 5 7 6 77 2 2 14 4 11 5 0 80 1 07 13 5 18 1 93 4 2 4 77 2 8 14 5 11 5 0 79 1 03 14 0 18 0 89 9 3 6 77 3 1 14 5 11 5 0 79 1 02 14 2 18 0 88 6 4 3 GLHP 77 3 5 14 5 11 5 0 79 1 01 14 4 18 0 87 3 5 4 77 3 6 14 5 11 5 0 79 1 01 14 4 18 0 87 0 5 6 77 3 8 14 5 11 5 0 79 1 00 14 5 18 0 86 5 6 2 77 4 2 14 6 11 5 0 79 0 99 14 7 17 9 85 5 7 4 86 2 2 14 0 11 3 0 81 1 18 11 9 18 1 102 4 2 3 86 2 8 14 1 11 3 0 81 1 15 12 3 18 0 98 9 3 5 86 3 1 14 1 11 3 0 80 1 13 12 4 18 0 97 6 4 2 WLHP 86 3 5 14 1 11 4 0 80 1 12 12 6 17 9 96 3 5 2 86 3 6 14 1 11 4 0 80 1 12 12 7 17 9 96 0 5 5 86 3 8 14 1 11 4 0 80 1 11 12 7 17 9 95 4 6 0 86 4 2 14 2 11 4 0 80 1 10 12 9 17 9 94 5 7 2 95 2 2 13 6 11 2 0 82 1 31 10 4 18 1 111 4 2 2 95 2 8 13 7 11 2 0 82 1 27 10 8 18 0 107 9 3 4 95 2 1 13 7 11 2 0 82 1 26 10 9
120. 53 6 9 5 55 2 7 18 5 14 1 0 76 1 05 17 7 22 1 71 4 3 1 55 3 3 18 5 14 1 0 76 1 01 18 3 22 0 68 3 4 4 55 3 7 18 5 14 1 0 76 1 00 18 6 21 9 66 8 5 4 55 4 2 18 5 14 1 0 76 0 98 18 9 21 9 65 4 6 7 55 4 4 18 5 14 1 0 76 0 97 19 0 21 8 64 9 7 3 55 4 6 18 5 14 1 0 76 0 97 19 1 21 8 64 5 7 9 55 5 0 18 5 14 1 0 76 0 96 19 3 21 8 63 7 9 2 68 2 7 18 2 14 0 0 77 1 22 14 9 22 4 84 6 2 9 68 33 18 3 14 0 0 77 1 19 15 4 22 3 81 5 4 2 68 3 7 18 3 14 0 0 76 1 17 15 7 22 3 80 1 5 1 68 4 2 18 3 14 0 0 76 1 15 15 9 22 3 78 6 6 4 68 4 4 18 3 14 0 0 76 1 15 16 0 22 2 78 1 7 0 68 4 6 18 3 14 0 0 76 1 14 16 1 22 2 77 7 7 5 68 5 0 18 3 14 0 0 76 1 13 16 2 22 2 76 9 8 7 77 2 7 17 9 13 8 0 77 1 35 13 2 22 5 93 7 2 9 77 3 3 17 9 13 9 0 77 1 31 13 7 22 4 90 6 4 1 77 3 7 18 0 13 9 0 77 1 29 13 9 22 4 89 1 5 0 GLHP 77 4 2 18 0 13 9 0 77 1 28 14 1 22 3 87 6 6 2 77 4 4 18 0 13 9 0 77 1 27 14 2 22 3 87 2 6 8 77 4 6 18 0 13 9 0 77 1 27 14 2 22 3 86 7 7 3 77 5 0 18 0 13 9 0 77 1 26 14 3 22 3 85 9 8 5 86 2 7 17 4 13 7 0 78 1 49 11 7 22 5 102 7 2 8 86 3 3 17 5 13 7 0 78 1 45 12 0 22 4 99 6 4 0 86 3 7 17 5 13 7 0 78 1 43 12 2 22 4 98 1 4 8 WLHP 86 4 2 17 5 13 7 0 78 1 42 12 4 22 4 96 7 6 1 86 4 4 17 6 13 7 0 78 1 41 12 5 22 4 96 2 6 6 86 4 6 17 6 13 7 0 78 1 40 12 5 22 4 95 7 7 1 86 5 0 17 6 13 7 0 78 1 39 12 6 22 3 94 9 8 2 95 2 7 16 9 13 5 0 80 1 66 10 2 22 6 111 7 2 7 95 3 3 17 0 13 5 0 80 1 61 10 5 22 5 108 6 3 9 95 3 7 17 9 13 5 0 80 1 59 10 7 22 4 107 1 4 7 95 4 2 17 0 13 5 0 8
121. 57 133 38 25 25 1441 806 498 597 140 Notes 1 All dimensions are in inches fol a Return air opening dimension b Filter rack dimension WSHP PRC017H EN owed by millimeters in parenthesis 2 Access to the unit for service purposes should be provided at installation All configurations require an 18 in surround clearance from other mechanical and electrical equipment to enable panel removal from the unit for service maintenance ability Local and or NEC codes require greater service clearance Check all code requirements prior to unit installation Installer is responsible for following all local and NEC code requirements 3 Forklift is recommended when rigging the unit If hot gas reheat is specified for a size 018 or 024 the actual cabinet size increases to an 036 cabinet 4 When a horizontal model is ordered with same side return and supply in a ducted application bottom filter removal is required due to limited access on either side of the filter 117 e TRANE Dimensional Data Figure 17 Waterside economizerla TOP VIEW A TO FIELD B TO FIELD RETURN PIPING FRONT VIEW 5 8 16 L 5 8 16 gt H 1 1 2 38 I a Waterside economizer requires field piping Table 112 Dimensional data waterside economizer 21 2 64 Filter Size Unit ANPTI BNPTI C
122. 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 924 1 009 0 994 1 060 1 129 53 0 1 026 0 864 56 3 0 925 1 009 0 805 1 022 1 129 m b 58 0 1 022 0 912 60 3 0 926 1 009 0 618 0 839 1 058 63 0 1 012 0 956 63 2 0 958 1 006 0 479 0 702 0 922 1 141 i 68 0 1 000 1 000 66 2 1 000 1 000 0 553 0 775 1 000 1 220 73 0 0 991 1 051 72 1 1 090 0 989 0 480 0 706 0 928 78 0 0 981 1 101 71 1 1 166 0 984 0 446 0 672 83 0 0 972 1 154 Note Sensible equals total capacity WSHP PRC017H EN 67 e TRANE Performance Data Table 61 GEV030 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW DU LWT Feet Head 45 4 6 32 3 22 9 0 71 1 44 37 3 61 4 6 3 45 5 6 32 6 23 1 0 71 1 38 37 3 58 3 9 1 45 6 3 32 7 23 2 0 71 1 36 37 3 56 8 11 2 45 7 0 32 8 23 2 0 71 1 33 37 4 55 7 13 5 45 7 4 32 8 23 3 0 71 1 33 37 4 55 2 14 7 45 7 7 32 9 23 3 0 71 1 32 37 4 54 7 16 0 45 8 4 32 9 23 3 0 71 1 30 37 4 53 9 18 6 55 4 6 31 3 22 5 0 72 1 62 36 8 71 2 6 0 55 5 6 31 5 22 6 0 72 1 57 36 8 68 2 8 7 55 6 3 31 6 22 7 0 72 1 55 36 8 66 7 10 7 55 7 0 31 6 22 8 0 72 1 53 36 9 65 5 13 0 55 7 4 31 7 22 8 0 72 1 52 36 9 65 0 14 1 55 7 7 31 7 22 8 0 72 1 51 36 9 64 6 15 3 55 8 4 31 8 22 8 0 72 1 50 36 9 63 8 17 8 68 4 6 30 0 22 3 0 74 1 86 36 4 84 0 5 6 68 5 6 30 2 22 4 0 74 1 81 36 4 81 0 8 2 68 6 3 30 3 22 5 0 74 1 78 36 4 79 5 10 1 68
123. 673 1191 775 457 14 108 51 241 737 708 352 352 13 25 4 25 4 19 26 1 2 46 7 8 30 1 2 18 2 9 1 2 29 27 7 8 13 1 8 11 3 8 1 2 1 1 3 4 Hi 048 060 5735 1191 775 457 1 4 108 51 241 737 708 333 289 13 25 4 25 4 19 Note All dimensions are in inches followed by millimeters in parenthesis 122 WSHP PRCO17H EN Weights Figure 22 Approximate weight distribution 20 wom d s 20 i BLOWER HOUSING amp MOTOR PLASTIC DRAIN PAN INTERNAL AIR COIL 4 ul 22 Ia 18 ou amp ul ES D O OI a Weight Distribution Approximate weight distribution for the GEH model is indicated in Figure 22 p 123 Tolerance on the weights determined are 15 Total weights for each unit are listed below GEH unit Shipping weight Ibs Running weight Ibs 006 009 195 165 012 015 203 173 018 268 248 024 030 285 253 036 042 318 288 048 060 428 398 WSHP PRC017H EN 123 e TRANE Controls Basic 24V Controls The basic 24V electro for maximum system reliability Each device is factory mounted wired and tested Features include 50 VA transformer compressor contactor time delay relay general alarm low pressure switch high pressure switch condensate overflow freeze protection lockout relay reversing valve coil for heating and cooling units multi speed
124. 7 105 1 6 6 9 5 4 0 79 0 81 8 5 9 6 117 0 2 1 105 1 7 6 9 5 4 0 79 0 80 8 6 9 6 116 3 2 4 105 1 8 6 9 5 4 0 79 0 80 8 6 9 6 115 7 2 6 105 1 9 6 9 5 4 0 79 0 79 8 6 9 6 115 1 2 9 105 2 0 6 9 5 4 0 79 0 79 8 7 9 6 114 6 3 1 110 1 1 6 6 5 3 0 80 0 91 7 3 9 7 127 7 1 1 110 1 4 6 7 5 3 0 80 0 88 7 6 9 7 123 8 1 7 110 1 6 6 7 5 3 0 80 0 87 7 7 9 6 122 1 2 1 110 1 7 6 7 5 3 0 80 0 86 7 7 9 6 121 3 2 3 110 1 8 6 7 5 3 0 80 0 86 7 8 9 6 120 7 2 6 110 1 9 6 7 5 3 0 80 0 86 7 8 9 6 120 1 2 8 110 2 0 6 7 5 3 0 80 0 85 7 8 9 6 119 6 3 1 see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 1 8 Minimum cfm 172 Rated cfm 215 Maximum cfm 258 Table 23 GEV006 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 25 1 1 5 6 3 6 0 59 2 8 18 5 2 0 25 1 4 5 7 3 7 0 59 2 9 19 7 3 1 25 1 6 5 8 3 8 0 59 2 9 20 3 3 9 25 1 7 5 8 3 8 0 59 2 9 20 5 4 3 25 1 8 5 8 3 8 0 59 2 9 20 7 4 7 25 1 9 5 9 3 9 0 59 2 9 20 9 5 2 25 2 0 5 9 3 9 0 59 2 9 21 1 5 7 32 1 1 6 2 4 1 0 59 3 0 24 5 2 0 32 1 4 6 3 4 3 0 60 3 1 25 9 3 0 32 1 6 6 4 4 4 0 60 3 1 26 5 3 8 32 1 7 6 4 4 4 0 60 3 2 26 8 4 2 GLHP 32 1 8 6 5 4 4 0 60 3 2 27 1 4 6 32 1 9 6 5 4 5 0 60 3 2 27 3 5 1 32 2 0 6 5 4 5 0 60 3 2 27 5 5 5 45 1 1 7 4 5 3 0 61 3 5 35 3 1 6 45 1 4 7 6 5 5
125. 7 9 55 16 8 64 6 48 7 4 65 49 2 20 8 68 9 1 70 8 54 3 4 83 56 1 6 8 68 11 2 72 3 55 8 4 86 58 0 9 9 68 12 6 73 1 56 4 4 87 59 0 12 1 continued on next page 92 WSHP PRC017H EN e TRANE Performance Data Table 90 GEH060 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 68 14 0 73 6 57 0 4 89 59 9 14 6 68 14 7 73 8 57 1 4 89 60 2 15 9 68 15 4 74 0 57 3 4 89 60 6 17 3 68 16 8 74 6 57 8 4 91 61 1 20 1 75 9 1 76 2 59 3 4 96 62 0 6 7 75 11 2 77 9 60 9 4 99 64 1 9 6 75 12 6 78 7 61 6 5 01 65 2 11 9 75 14 0 79 2 62 1 5 02 66 1 14 3 75 14 7 79 5 62 3 5 02 66 5 15 6 75 15 4 79 8 62 6 5 03 66 9 16 9 75 16 8 80 2 63 0 5 04 67 5 19 7 86 9 1 84 7 67 0 5 17 71 3 6 5 86 11 2 87 1 69 3 5 24 73 6 9 3 86 12 6 87 8 69 9 5 25 74 9 11 5 86 14 0 89 0 70 9 5 29 75 9 13 9 86 14 7 89 2 71 1 5 29 76 3 15 1 86 15 4 89 5 71 4 5 30 76 7 16 4 86 16 8 90 0 71 9 5 32 77 4 19 1 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 14 0 Minimum cfm 1520 Rated cfm 1900 Maximum cfm 2280 Table 91 GEH060 fan correction factors Cooli
126. 708 668 GEH GEVO24 High 912 935 906 875 GEH GEVO24 Med 922 903 883 860 833 802 GEH GEVO24 Low 608 915 901 891 879 866 851 835 819 801 779 751 GEH GEV030 High 1080 1097 1074 1053 1033 1011 988 962 935 906 875 GEH GEV030 Med 1009 988 971 955 939 922 903 883 860 833 802 GEH GEV030 Low 720 915 901 891 879 866 851 835 819 801 779 751 GEH GEV036 High 1368 GEH GEV036 Med 1381 1366 1351 1334 1315 1295 GEH GEV036 Low 912 1221 1218 1216 1211 1206 1199 1190 1181 1170 1159 1146 GEH GEV042 High 1596 1605 1585 1566 1548 1531 1512 1493 1472 1449 1424 GEH GEV042 Med 1436 1427 1417 1406 1394 1381 1366 1351 1334 1315 1295 GEH GEVO42 Low 1064 1221 1218 1216 1211 1206 1199 1190 1181 1170 1159 1146 GEH GEVO048 High 1824 GEH GEV048 Med GEH GEV048 Low 1216 1853 1814 1774 1733 GEH GEVO060 High 2280 2291 2264 2235 2203 2169 2133 2094 2054 2013 GEH GEV060 Med 2266 2246 2221 2194 2165 2133 2099 2063 2024 1984 1943 GEH GEVO60 Low 1520 2056 2036 2011 1984 1955 1923 1889 1853 1814 1774 1733 100 WSHP PRCO17H EN Table 99 Fan performance for high static motor includes wet coil and 1 filter continued e TRANE Unit Fan Performance
127. 8 533 597 749 352 x 352 457 133 38 25 25 1441 806 498 597 140 Notes 1 All dimensions are in inches followed 2 Access to the unit for service purposes should be provided at installation All configurations require an 18 in surround clearance from other mechanical ande ectrical equipment to enable pa clearance Check all code requiremen by millimeters in parenthesis nel removal from the unit for service maintenance ability Local and or NEC codes require greater service s prior to unit installation Installer is responsible for following all local and NEC code requirements 3 Forklift is recommended when rigging the unit If hot gas reheat is specified for a size 018 or 024 the actual cabinet size increases to an 036 cabinet a Return air opening dimension b Filter rack dimension 114 WSHP PRCO17H EN Figure 14 Right return left supply L BLOWER ACCESS PANEL FXG OPENING Table 109 Dimensional data right return left supply 1 25 4 L P sid DRAIN 3 4 19 NPTI BACK rn C RIGHT SIDE LEFT SIDE 1 3 8 35 gt REFRIG AND CONTROL ACCESS e TRANE Dimensional Data Unit A B C D J E FxG H J K LNPTI MNPTI N P Q JRE Ts 006 009 49 20 15 20 15 6 7 8x 8 11 1 2 4 1 2
128. 8 11 2 73 2 56 7 4 83 57 9 10 7 68 12 6 74 2 57 6 4 85 58 9 13 1 68 14 0 74 8 58 2 4 86 59 7 15 8 68 14 7 75 0 58 4 4 87 60 1 17 3 68 15 4 75 3 58 6 4 87 60 4 18 7 68 16 8 75 8 59 1 4 89 61 0 21 8 75 9 1 77 0 60 2 4 91 61 8 7 2 75 11 2 79 0 62 1 4 95 63 9 10 4 75 12 6 79 7 62 7 4 97 65 0 12 8 75 14 0 80 4 63 4 4 99 65 9 15 5 75 14 7 80 7 63 7 4 99 66 3 16 9 75 15 4 81 0 64 0 5 00 66 7 18 3 75 16 8 81 5 64 4 5 01 67 3 21 3 86 9 1 86 3 68 7 5 14 70 9 7 0 86 11 2 88 6 70 8 5 19 73 3 10 1 86 12 6 89 6 71 8 5 22 74 6 12 4 86 14 0 90 2 72 3 5 23 75 7 15 0 86 14 7 90 6 72 7 5 24 76 1 16 3 86 15 4 90 8 72 9 5 24 76 5 17 7 86 16 8 91 4 73 4 5 26 77 3 20 6 Notes Table 95 GEV060 fan correction factors Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 14 0 Minimum cfm 1520 Rated cfm 1900 Maximum cfm 2280 Cooling Input Heating Input Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 1520 0 955 0 874 1 001 0 985 1 059 1615 0 968 0 905 0 999 0 990 1 042 1710 0 980 0 938 0 999 0 993 1 026 1805 0 990 0 970 1 000 0 997 1 012 1900 1 000 1 000 1 000 1 000 1 000 2090 1 017 1 060 1 000 1 00
129. 8 23 1 1 96 57 7 7 6 68 5 0 30 1 23 4 1 96 58 7 9 2 68 5 6 30 3 23 6 1 96 59 6 11 1 68 5 9 30 4 23 7 1 97 59 9 12 1 68 6 2 30 5 23 8 1 97 60 3 13 1 68 6 7 30 7 23 9 1 97 60 9 15 4 75 3 6 31 2 24 4 1 99 61 6 5 1 75 4 5 31 9 25 0 2 01 63 8 7 4 75 5 0 32 3 25 4 2 02 64 9 9 0 75 5 6 32 6 25 6 2 03 65 8 10 8 75 5 9 32 7 25 7 2 03 66 2 11 7 75 6 2 32 8 25 8 2 04 66 6 12 7 75 6 7 33 0 26 0 2 05 67 3 14 9 86 3 6 34 7 27 5 2 11 70 9 5 0 86 4 5 35 6 28 3 2 15 73 4 7 1 86 5 0 36 0 28 6 2 17 74 6 8 7 86 5 6 36 3 28 9 2 18 75 7 10 4 86 5 9 36 5 29 0 2 19 76 1 11 3 86 6 2 36 6 29 1 2 19 76 5 12 2 86 6 7 36 8 29 3 2 20 71 3 14 3 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 5 6 Minimum cfm 608 Rated cfm 760 Maximum cfm 912 WSHP PRC017H EN 63 e TRANE Performance Data Table 55 GEV024 fan correction factors Cooling Input Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 608 0 957 0 874 1 001 0 987 1 077 646 0 969 0 905 1 000 0 991 1 055 684 0 980 0 937 1 000 0 995 1 036 722 0 990 0 968 1 000 1 001 1 021 760 1 000 1 000 1 000 1 000 1 000 836 1 018 1 062 1 001
130. 8 4 35 9 28 1 2 28 38 3 14 6 45 8 8 36 0 28 2 2 28 38 6 15 9 45 9 2 36 1 28 3 2 28 38 9 17 3 45 10 1 36 2 28 4 2 28 39 4 20 1 55 5 5 39 2 31 2 2 36 43 6 6 5 55 6 7 39 9 31 8 2 37 45 5 9 5 55 7 6 40 2 32 1 2 37 46 5 11 6 55 8 4 40 5 32 4 2 38 47 3 14 0 55 8 8 40 6 32 5 2 39 47 6 15 3 55 9 2 40 8 32 6 2 39 47 9 16 6 55 10 1 40 9 32 8 2 39 48 5 19 3 68 5 5 44 6 36 0 2 52 54 8 6 1 68 6 7 45 6 36 9 2 54 57 0 9 0 68 7 6 46 0 37 3 2 54 58 1 11 0 68 8 4 46 3 37 6 2 55 59 0 13 3 68 8 8 46 4 37 7 2 55 59 4 14 5 68 9 2 46 6 37 8 2 55 59 8 15 7 68 10 1 46 8 38 1 2 56 60 4 18 3 75 5 5 48 0 39 0 2 61 60 7 6 0 75 6 7 49 0 40 0 2 64 63 1 8 8 75 7 6 49 7 40 6 2 66 64 3 10 7 75 8 4 50 1 41 0 2 67 65 2 13 0 75 8 8 50 2 41 1 2 67 65 7 14 1 75 9 2 50 3 41 2 2 66 66 1 15 3 75 10 1 50 6 41 4 2 67 66 8 17 9 86 5 5 53 6 44 1 2 78 69 9 5 8 86 6 7 54 7 45 1 2 80 72 6 8 5 86 7 6 55 3 45 6 2 82 73 9 10 4 86 8 4 55 7 46 0 2 83 75 0 12 5 86 8 8 55 8 46 2 2 83 75 5 13 6 86 9 2 56 0 46 3 2 84 76 0 14 7 86 10 1 56 2 46 5 2 84 76 8 17 2 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 8 4 Minimum cfm 912 Rated cfm 1140 Maximum cfm 1368 WSHP
131. 8 6 1 10 3 3 27 9 11 6 45 2 2 13 9 10 0 1 14 3 6 35 9 3 0 45 2 8 14 3 10 4 1 14 3 7 37 6 4 6 45 3 1 14 4 10 5 1 15 3 7 38 2 5 5 45 3 5 14 6 10 6 1 15 3 7 38 9 6 8 45 3 6 14 6 10 6 1 15 3 7 39 1 7 2 45 3 8 14 6 10 7 1 15 3 7 39 4 7 9 45 4 2 14 7 10 8 1 15 3 7 39 9 9 4 55 2 2 15 6 11 6 1 17 3 9 44 4 2 9 55 2 8 16 1 12 0 1 18 4 0 46 4 4 4 continued on next page WSHP PRC017H EN 47 e TRANE Performance Data Table 38 GEH015 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 3 1 16 2 12 2 1 19 4 0 47 1 5 3 55 3 5 16 4 12 3 1 19 4 0 47 9 6 6 55 3 6 16 4 12 3 1 19 4 0 48 1 6 9 55 3 8 16 5 12 4 1 19 4 1 48 5 7 6 55 4 2 16 6 12 5 1 19 4 1 49 0 9 0 68 2 2 17 9 13 7 1 22 4 3 55 5 2 8 68 2 8 18 4 14 2 1 23 4 4 57 8 4 2 68 3 1 18 6 14 4 1 23 4 4 58 7 5 1 WLHP 68 3 5 18 8 14 6 1 24 4 5 59 6 6 2 68 3 6 18 9 14 7 1 24 4 5 59 9 6 6 68 3 8 19 0 14 8 1 24 4 5 60 2 7 2 68 4 2 19 1 14 9 1 24 4 5 60 9 8 6 75 2 2 19 2 14 9 1 24 4 5 61 4 2 7 75 2 8 19 7 15 4 1 25 4 6 64 0 4 1 75 3 1 19 9 15 7 1 25 4 7 64 9 4 9 75 3 5 20 2 15 9 1 26 4 7 65 9 6 1 75 3 6 20 2 15 9 1 26 4 7 66 2 6 4 75 3 8 20 3 16 0 1 26 4 7 66 6 7 0 75 4 2 20 5 16 2 1 26 4 8 67 3 8 4 86 2 2 21 1 16 8 1 27 4 9 70 8 2 6 86 2 8 21 7 17 4 1 28 5 0 73 6 4 0 86 3 1 21 9 17 6 1 28 5 0 74 7 4 8 86 3 5 22 2 17 8 1 29 5 1 75 8 5 9 86 3 6 22 2 17 8 1 28 5 1 76 1 6 2 86 3 8 22 3 18 0 1
132. 8 Minimum cfm 172 Rated cfm 215 Maximum cfm 258 Table 21 GEHO06 fan correction factors Entering cfm Cooling Capacity Sensible Capacity Cooling Input Watts Heating Capacity Heating Input Watts 172 0 956 0 878 1 002 0 982 1 093 183 0 964 0 907 0 998 0 990 1 066 194 0 979 0 939 1 000 0 995 1 041 204 0 990 0 970 1 000 1 000 1 019 215 1 000 1 000 1 000 1 000 1 000 237 1 018 1 060 1 000 1 012 0 970 247 1 026 1 088 1 000 1 015 0 956 258 1 034 1 118 1 000 1 015 0 942 30 WSHP PRCO17H EN e TRANE Performance Data Table 22 GEVOO6 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW EER Uh LWT Feet Head 45 1 1 8 5 6 1 0 71 0 50 17 0 10 2 63 5 1 3 45 1 4 8 6 6 1 0 71 0 49 17 5 10 3 59 7 2 0 45 1 6 8 6 6 1 0 71 0 49 17 8 10 3 57 9 2 6 45 1 7 8 6 6 1 0 71 0 48 17 8 10 3 57 1 2 9 45 1 8 8 7 6 1 0 71 0 48 17 9 10 3 56 4 3 2 45 1 9 8 6 6 1 0 71 0 48 18 0 10 3 55 8 3 5 45 2 0 8 6 6 1 0 71 0 48 18 0 10 3 55 3 3 8 55 1 1 8 0 5 9 0 73 0 52 15 5 9 8 72 8 1 3 55 1 4 8 1 5 9 0 73 0 50 16 0 9 8 69 0 2 0 55 1 6 8 1 5 9 0 73 0 50 16 2 9 8 67 3 2 5 55 1 7 8 1 5 9 0 73 0 50 16 3 9 8 66 6 2 8 55 1 8 8 1 5 9 0 73 0 50 16 4 9 8 65 9 3l 55 1 9 8 2 5 9 0 73 0 49 16 5 9 8 65 4 3 4 55 2 0 8 2 5 9 0 73 0 49 16 6 9 8 64 8 3 7 68 1 1 7 8 5 8 0 74 0 58 13 5 9 7 85 7 1 2 68 1 4 7 8 5 8 0 74 0 56 13 9 9 7 81 9 1 9 68 1 6 7 8 5 8 0 74 0 55 14 2 9 7
133. 80 2 2 4 68 1 7 7 8 5 8 0 74 0 55 14 3 9 7 79 4 2 6 68 1 8 7 9 5 8 0 74 0 55 14 4 9 7 78 8 2 9 68 1 9 7 9 5 8 0 74 0 55 14 4 9 7 78 2 3 2 68 2 0 7 9 5 8 0 74 0 54 14 5 9 7 77 7 3 5 77 1 3 7 6 5 7 0 75 0 63 12 1 9 7 94 7 1 2 77 1 4 7 6 5 7 0 75 0 61 12 5 9 7 90 8 1 8 77 1 6 7 6 5 7 0 75 0 60 12 7 9 7 89 1 2 3 77 1 7 7 6 5 7 0 75 0 60 12 8 9 7 88 4 2 6 GLHP 77 1 8 7 7 5 7 0 75 0 59 12 9 9 7 87 8 2 8 77 1 9 7 7 5 7 0 75 0 59 13 0 9 7 87 2 3 1 77 2 0 7 7 5 7 0 75 0 59 13 0 9 7 86 7 3 4 86 Ld 7 4 5 6 0 76 0 68 10 8 9 7 103 6 1 2 86 1 4 7 4 5 6 0 76 0 66 11 2 9 7 99 8 1 8 86 1 6 7 4 5 6 0 76 0 65 11 3 9 6 98 1 2 2 86 1 7 7 4 5 6 0 76 0 65 11 4 9 6 97 3 2 5 WLHP 86 1 8 7 4 5 6 0 76 0 65 11 5 9 6 96 7 2 8 86 1 9 7 4 5 6 0 76 0 64 11 5 9 6 96 1 3 0 86 2 0 7 4 5 6 0 76 0 64 11 6 9 6 95 6 3 3 95 1 1 7 1 5 5 0 77 0 75 9 5 9 7 112 6 1 1 95 1 4 7 1 5 5 0 77 0 73 9 8 9 6 108 7 1 7 95 1 6 7 2 5 5 0 77 0 72 10 0 9 6 107 0 2 2 95 1 7 7 2 5 5 0 77 0 71 10 0 9 6 106 3 2 4 95 1 8 7 2 5 5 0 77 0 71 10 1 9 6 105 7 2 7 95 1 9 7 2 5 5 0 77 0 71 10 1 9 6 105 1 3 0 95 2 0 7 2 5 5 0 77 0 71 10 2 9 6 104 6 3 2 continued on next page WSHP PRC017H EN 31 e TRANE Performance Data Table 22 GEVOO6 cooling performance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW EER bea LWT Feet Head 105 1 1 6 8 5 4 0 79 0 84 8 1 9 7 122 6 1 1 105 1 4 6 8 5 4 0 79 0 82 8 4 9 6 118 8 1
134. 9 e TRANE Performance Data Table 20 GEHO06 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 1 6 8 7 6 5 0 64 4 0 46 9 3 3 55 1 7 8 7 6 5 0 64 4 0 47 3 3 7 55 1 8 8 8 6 6 0 65 4 0 47 7 4 1 55 1 9 8 8 6 6 0 65 4 0 48 1 4 5 55 2 0 8 9 6 6 0 65 4 0 48 4 4 9 68 1 1 9 5 7 3 0 66 4 2 54 8 1 7 68 1 4 9 8 7 5 0 67 4 3 57 3 2 5 68 1 6 10 0 7 7 0 67 4 3 58 4 3 2 68 1 7 10 0 7 7 0 67 4 3 59 0 3 5 GLHP 68 1 8 10 0 7 7 0 67 4 4 59 4 3 9 68 1 9 10 1 7 8 0 67 4 4 59 8 4 3 68 2 0 10 1 7 8 0 68 4 4 60 2 4 7 75 1 1 10 2 7 9 0 68 4 4 60 7 1 6 75 1 4 10 4 8 1 0 68 4 5 63 4 2 4 75 1 6 10 6 8 3 0 69 4 5 64 6 3 1 75 1 7 10 7 8 3 0 69 4 5 65 2 3 4 75 1 8 10 7 8 3 0 69 4 6 65 7 3 8 75 1 9 10 7 8 4 0 69 4 6 66 2 4 2 75 2 0 10 8 8 4 0 69 4 6 66 6 4 5 86 1 1 11 1 8 8 0 70 4 7 70 1 1 6 86 1 4 11 5 9 1 0 71 4 7 73 0 2 4 86 1 6 11 6 9 2 0 71 4 8 74 5 3 0 86 1 7 11 7 9 3 0 72 4 8 75 1 3 3 86 1 8 11 8 9 3 0 72 4 8 75 6 3 7 86 1 9 11 8 9 4 0 72 4 8 76 1 4 0 86 2 0 11 9 9 4 0 72 4 8 76 6 4 4 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 1
135. 9 1 86 6 4 61 1 48 7 3 64 70 7 6 2 86 7 8 62 6 50 0 3 70 73 2 9 0 86 8 8 63 2 50 5 3 72 74 6 11 1 86 9 8 63 9 51 0 3 75 75 6 13 3 86 10 3 64 1 51 3 3 76 76 0 14 5 86 10 8 64 3 51 4 3 77 76 5 15 7 86 11 8 64 7 51 8 3 79 77 2 18 2 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 9 8 Minimum cfm 1064 Rated cfm 1330 Maximum cfm 1596 Table 79 GEV042 fan correction factors Cooling I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 1064 0 956 0 874 0 997 0 990 1 069 1131 0 969 0 907 0 998 0 993 1 049 1197 0 981 0 939 0 999 0 995 1 030 1264 0 991 0 969 0 999 0 997 1 013 1330 1 000 1 000 1 000 1 000 1 000 1463 1 017 1 062 1 001 1 004 0 973 1530 1 024 1 093 1 002 1 005 0 961 1596 1 032 1 123 1 003 1 007 0 952 WSHP PRC017H EN 83 e TRANE Performance Data Table 80 GEV042 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB
136. 9 37 5 3 03 59 9 13 9 68 10 1 48 1 37 7 3 03 60 5 16 2 75 5 5 49 5 39 0 3 09 60 7 5 3 75 6 7 50 5 39 9 3 10 63 1 7 7 75 7 6 50 9 40 3 3 10 64 3 9 5 75 8 4 51 3 40 7 3 11 65 3 11 5 75 8 8 51 4 40 8 3 11 65 7 12 5 75 9 2 51 5 40 9 3 12 66 1 13 6 75 10 1 51 8 41 1 3 12 66 8 15 8 86 5 5 54 9 43 9 3 22 69 9 5 1 continued on next page 76 WSHP PRC017H EN e TRANE Performance Data Table 70 GEV036 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 86 6 7 56 1 45 0 3 26 72 6 7 4 86 7 6 56 6 45 5 3 27 74 0 9 1 86 8 4 57 0 45 8 3 28 75 1 11 0 86 8 8 57 1 45 9 3 28 75 6 12 0 86 9 2 57 3 46 1 3 29 76 0 13 0 86 10 1 57 6 46 3 3 29 76 8 15 1 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 8 4 Minimum cfm 912 Rated cfm 1140 Maximum cfm 1368 Table 71 GEV036 fan correction factors Cooling I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 912 0 953 0 870 1 002 0 989 1 077 969 0 966 0 903 1 002 0 992 1 054 1026 0 978 0 935 1 002 0 996 1 034 1083 0 990 0 968 1 000 0 998 1 016 1140
137. 9 4 0 78 0 76 15 9 14 6 78 5 3 8 68 2 9 12 1 9 4 0 78 0 76 15 9 14 6 78 1 4 0 68 3 1 12 1 9 4 0 78 0 75 16 0 14 6 77 4 4 5 68 3 4 12 1 9 5 0 78 0 75 16 2 14 6 76 6 5 3 77 1 8 11 7 9 3 0 80 0 88 13 3 14 7 93 3 1 7 77 2 2 11 7 9 3 0 80 0 86 13 6 14 6 90 3 2 4 77 2 5 11 7 9 3 0 80 0 85 13 9 14 6 88 7 3 0 GLHP 77 2 8 11 7 9 3 0 79 0 84 14 0 14 6 87 4 3 7 77 2 9 11 7 9 3 0 79 0 83 14 1 14 6 87 1 3 9 77 3 1 11 8 9 3 0 79 0 83 14 2 14 6 86 4 4 4 77 3 4 11 8 9 3 0 79 0 82 14 3 14 6 85 6 5 2 86 1 8 11 3 9 2 0 81 0 97 11 7 14 6 102 3 1 6 86 2 2 11 4 9 2 0 81 0 95 12 0 14 6 99 3 2 3 86 2 5 11 4 9 2 0 81 0 93 12 2 14 6 97 7 2 9 WLHP 86 2 8 11 4 9 2 0 81 0 92 12 4 14 5 96 4 3 6 86 2 9 11 4 9 2 0 81 0 92 12 4 14 5 96 0 3 8 86 3 1 11 4 9 2 0 81 0 91 12 5 14 5 95 4 4 3 86 3 4 11 4 9 2 0 81 0 91 12 6 14 5 94 5 5 0 95 1 8 11 0 9 0 0 82 1 07 10 2 14 6 111 3 1 6 95 2 2 11 0 9 1 0 82 1 05 10 5 14 6 108 2 2 3 95 2 5 11 0 9 1 0 82 1 03 10 7 14 5 106 6 2 9 95 2 8 11 0 9 1 0 82 1 02 10 8 14 5 105 4 3 5 95 2 9 11 0 9 1 0 82 1 02 10 8 14 5 105 0 3 7 95 3 1 11 0 9 1 0 82 1 01 10 9 14 5 104 3 4 2 95 3 4 11 0 9 1 0 82 1 01 11 0 14 5 103 5 4 9 continued on next page 40 WSHP PRC017H EN e TRANE Performance Data Table 31 GEHO012 cooling performance continued Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 105 1 8 10 5 8 9 0 84 1 21 8 7 14 6 121 3 1 6 105 2 2 10 5 8 9 0 84 1 18
138. 9 7 86 7 5 2 86 1 1 7 4 5 7 0 77 0 68 11 0 9 7 103 7 1 8 86 1 4 7 5 5 7 0 77 0 66 11 4 9 7 99 9 2 7 86 1 6 7 5 5 8 0 77 0 65 11 5 9 7 98 1 3 4 86 1 7 7 5 5 8 0 77 0 65 11 6 9 7 97 4 3 8 WLHP 86 1 8 7 5 5 8 0 77 0 64 11 7 9 7 96 8 4 2 86 1 9 7 5 5 8 0 77 0 64 11 7 9 7 96 2 4 7 86 2 0 7 5 5 8 0 77 0 64 11 8 9 7 95 7 5 1 95 1 1 7 2 5 6 0 78 0 74 9 7 9 7 112 7 1 7 95 1 4 7 2 5 7 0 78 0 72 10 0 9 7 108 8 2 6 95 1 6 7 2 5 7 0 78 0 71 10 2 9 7 107 1 3 3 95 1 7 7 3 5 7 0 78 0 71 10 3 9 7 106 4 3 7 95 1 8 7 3 5 7 0 78 0 70 10 3 9 7 105 7 4 1 95 1 9 7 3 5 7 0 78 0 70 10 4 9 7 105 2 4 5 95 2 0 7 3 5 7 0 78 0 69 10 4 9 6 104 6 5 0 continued on next page 28 WSHP PRC017H EN e TRANE Performance Data Table 19 GEHOO06 cooling performance continued Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 105 1 1 6 9 5 5 0 80 0 82 8 4 9 7 122 6 1 7 105 1 4 6 9 5 5 0 80 0 80 8 7 9 6 118 8 2 6 105 1 6 6 9 5 5 0 80 0 79 8 8 9 6 117 1 3 3 105 1 7 7 0 5 5 0 80 0 79 8 9 9 6 116 3 3 6 105 1 8 7 0 5 5 0 80 0 78 8 9 9 6 115 7 4 0 105 1 9 7 0 5 5 0 80 0 78 8 9 9 6 115 1 4 4 105 2 0 7 0 5 6 0 80 0 78 9 0 9 6 114 6 4 8 110 1 1 6 7 5 4 0 81 0 87 7 7 9 7 127 6 1 7 110 1 4 6 8 5 5 0 81 0 85 7 9 9 7 123 8 2 5 110 1 6 6 8 5 5 0 81 0 84 8 1 9 6 122 1 3 2 110 1 7 6 8 5 5 0 81 0 83 8 1 9 6 121 3 3 6 110 1 8 6 8 5 5 0 81 0 83 8 2 9 6 120 7 4 0 110 1 9 6 8 5 5 0 81 0 82 8 2 9 6 120 1 4 3 11
139. 95 0 991 0 467 0 697 0 925 78 0 0 982 1 101 77 1 1 174 0 984 0 425 0 663 83 0 0 970 1 151 Note Sensible equals total capacity Table 65 GEHO036 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Ash LWT Feet Head 45 5 5 39 7 27 8 0 70 1 31 44 2 61 2 6 8 45 6 7 39 9 28 0 0 70 1 24 44 2 58 2 9 9 45 7 6 40 1 28 1 0 70 1 21 44 2 56 7 12 1 45 8 4 40 1 28 1 0 70 1 19 44 2 55 5 14 6 45 8 8 40 2 28 2 0 70 1 18 44 2 55 0 15 9 45 9 2 40 2 28 2 0 70 1 17 44 2 54 6 17 3 45 10 1 40 3 28 2 0 70 1 15 44 2 53 8 20 1 55 5 5 38 4 27 4 0 71 1 54 43 7 71 0 6 5 55 6 7 38 6 27 5 0 71 1 48 43 7 68 0 9 5 55 7 6 38 7 27 6 0 71 1 45 43 6 66 5 11 6 55 8 4 38 8 27 6 0 71 1 42 43 7 65 4 14 0 55 8 8 38 8 27 7 0 71 1 41 43 7 64 9 15 3 55 9 2 38 9 27 7 0 71 1 40 43 7 64 4 16 6 55 10 1 38 9 27 7 0 71 1 39 43 6 63 7 19 3 68 5 5 36 7 27 0 0 73 1 83 43 0 83 7 6 1 68 6 7 36 9 27 1 0 73 1 77 43 0 80 8 9 0 68 7 6 37 0 27 2 0 73 1 74 43 0 79 4 11 0 68 8 4 37 1 27 3 0 73 1 71 43 0 78 2 13 3 68 8 8 37 2 27 3 0 73 1 70 43 0 77 7 14 5 68 9 2 37 2 27 3 0 73 1 69 43 0 77 3 15 7 68 10 1 37 2 27 3 0 73 1 68 43 0 76 5 18 3 75 5 5 35 7 26 6 0 75 2 00 42 5 90 6 6 0 75 6 7 35 9 26 8 0 75 1 94 42 5 87 7 8 8 75 7 6 36 0 26 8 0 75 1 91 42 5 86 3 10 7 75 8 4 36 1 26 9 0 75 1 89 42 5 85 1 13 0 75 8 8 36 1 26 9 0 75 1 88 42 5 84 6 14 1 75 9 2 36 2 26 9 0 75 1 87 42 5 84 2 15 3 7
140. 9x4 9x6 10x6 Table 3 Models GEH006 024 air to refrigerant coil Model GEH 006 009 012 015 018 024 Working Pressure psig 650 650 650 650 650 650 Tubes High 14 14 14 14 17 17 Tubes Deep 3 3 3 3 3 3 No of Circuits 1 1 2 2 2 3 Finned vol h w d 14x16x2 6 14x16x2 6 14x16x2 6 14x 16x2 6 16x19x2 6 16x19x2 6 Coil Surface Area Sq Ft 1 56 1 56 1 56 1 56 2 11 2 11 Fins per Inch 12 12 12 12 12 12 Tube Material Copper Copper Copper Copper Copper Copper Tube OD in 3 8 3 8 3 8 3 8 3 8 3 8 Wall Thickness 0 014 0 014 0 014 0 014 0 014 0 014 Return Bends Copper Copper Copper Copper Copper Copper Table 4 Models GEH006 024 water to refrigerant coil Model GEH 006 009 012 015 018 024 Working Pressure psig 780 780 780 780 780 780 Table 5 Models GEH030 060 Model GEH 030 036 042 048 060 Unit Size Length x Height x Width in 46 x 18 x 23 50x 19 x 25 50x19 x25 58x21x33 58x21x33 Compressor Type Scroll Scroll Scroll Scroll Scroll Net Weight Ibs 253 288 288 398 398 Ship Weight Ibs 285 318 318 428 428 Filter Size Actual in 17 7 8 x 24 7 8 18 5 8 x 25 3 8 18 5 8 x 25 3 8 20 5 8 x 29 20 5 8 x 29 Water in out size FPT 3A 3A 3A T Condensate size NPTI A 34 34 34 A 10x6 12x8 12x8 12x11 12x11 Blower Wheel Size in WSHP PRC017H EN 23 e TRANE General Data
141. B 59 F WB EAT in heating WSHP PRCO17H EN 27 e TRANE Performance Data Table 19 GEHOO06 cooling performance Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 45 1 1 8 4 6 2 0 73 0 48 17 4 10 1 63 4 2 0 45 1 4 3 5 6 2 0 73 0 47 18 1 10 1 59 5 3 1 45 1 6 8 5 6 2 0 72 0 47 18 3 10 1 57 7 4 0 45 1 7 8 6 6 2 0 72 0 46 18 5 10 1 56 9 4 4 45 1 8 8 7 6 2 0 72 0 47 18 6 10 3 56 4 4 9 45 1 9 8 7 6 3 0 72 0 46 18 7 10 3 55 8 5 4 45 2 0 8 7 6 3 0 72 0 46 18 8 10 3 55 3 5 9 55 1 1 8 1 6 0 0 74 0 52 15 7 9 9 73 0 2 0 55 1 4 8 2 6 0 0 74 0 50 16 3 9 9 69 2 3 0 55 1 6 8 2 6 1 0 74 0 50 16 6 9 9 67 4 3 8 55 1 7 8 2 6 1 0 74 0 49 16 7 9 9 66 7 4 2 55 1 8 8 3 6 1 0 74 0 49 16 8 9 9 66 1 4 7 55 1 9 8 3 6 1 0 73 0 49 16 8 9 9 65 5 5 2 55 2 0 8 3 6 1 0 73 0 49 17 0 10 0 65 0 5 6 68 1 1 7 8 5 9 0 75 0 57 13 6 9 8 85 7 1 9 68 1 4 7 9 5 9 0 75 0 56 14 1 9 8 81 9 2 9 68 1 6 7 9 5 9 0 75 0 55 14 4 9 8 80 2 3 6 68 1 7 7 9 5 9 0 75 0 55 14 5 9 8 79 5 4 1 68 1 8 7 9 5 9 0 75 0 55 14 6 9 8 78 9 4 5 68 1 9 7 9 5 9 0 75 0 54 14 6 9 8 78 3 4 9 68 2 0 8 0 6 0 0 75 0 54 14 7 9 8 77 8 5 4 77 1 1 7 6 5 8 0 76 0 62 12 3 9 7 94 7 1 8 77 1 4 Va 5 8 0 76 0 60 12 7 9 7 90 9 2 8 77 1 6 7 7 5 8 0 76 0 59 12 9 9 7 89 1 3 5 77 1 7 7 7 5 9 0 76 0 59 13 0 9 7 88 4 3 9 GLHP 77 1 8 7 7 5 9 0 76 0 59 13 1 9 7 87 8 4 3 77 1 9 7 7 5 9 0 76 0 59 13 2 9 7 87 2 4 8 77 2 0 7 7 5 9 0 76 0 58 13 2
142. C code requirements y Ft ate WCI mounting location LEFT SIDE HI VOLT Lo VOLT BLOWER ACCESS COMP CONTROL ACCESS Table 113 Dimensional data left return top supply 1e 3055 9 1 e 241 RIGHT SIDE W l W O Drain Unit A B C D E F G H J K L M NPTI NPTI FPT 006 015 19 1 2 31 1 4 21 1 2 11 1 2 4 5 3 4 9 1 2 15 17 6 7 8 8 3 4 1 2 1 2 3 4 495 794 546 292 102 146 241 381 432 175 203 19 12 7 12 7 19 9 3 4 018 024 030 21 1 2 39 1 4 21 1 2 13 1 2 4 4 9 1 2 23 3 4 17 8 1 4 248 3 4 3 4 3 4 3 4 f 546 997 546 343 102 1021 241 603 432 368 11 3 8 19 19 19 19 289 036 042 24 1 2 41 7 8 26 1 2 18 3 1 4 5 3 4 9 1 2 19 23 10 1 2 13 1 2 1 4 3 4 3 4 3 4 622 1064 673 457 83 146 241 483 584 267 343 6 19 19 19 Std 048 26 1 2 46 7 8 30 1 2 18 4 1 4 2 9 1 2 29 27 7 8 13 7 8 13 7 8 1 2 1 1 3 4 673 1191 775 457 108 51 241 737 708 352 352 13 25 4 25 4 19 Hi 048 060 26 1 2 46 7 8 30 1 2 18 4 1 4 2 9 1 2 29 27 7 8 13 1 8 11 3 8 1 2 1 1 3 4 673 1191 775 457 108 51 241 737 708 333 289 13 25 4 25 4 19 Note All dim
143. F Capacity Watts 49 4 0 927 0 998 0 990 1 056 1 123 53 0 1 023 0 868 56 3 0 928 0 998 0 800 1 026 1 124 58 0 1 014 0 907 60 3 0 929 0 999 0 600 0 834 1 065 63 0 1 008 0 953 63 2 0 955 0 997 0 450 0 686 0 921 1 150 68 0 1 000 1 000 66 2 1 000 1 000 0 529 0 763 1 000 1 229 73 0 0 988 1 045 72 1 1 096 1 005 0 446 0 686 0 924 78 0 0 983 1 097 77 1 1 182 1 018 0 407 0 649 83 0 0 975 1 151 Note Sensible equals total capacity Table 81 GEH048 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Amp LWT Feet Head 45 7 3 56 7 40 8 0 72 2 58 65 5 63 0 4 7 45 9 0 57 2 41 2 0 72 2 47 65 7 59 7 6 8 45 10 1 57 5 41 4 0 72 2 42 65 8 58 0 8 4 45 11 2 57 7 41 6 0 72 2 38 65 8 56 8 10 1 45 11 8 57 8 41 6 0 72 2 36 65 8 56 2 11 0 45 12 3 57 9 41 7 0 72 2 34 65 9 55 7 12 0 45 13 4 58 1 41 8 0 72 2 31 66 0 54 8 14 0 55 7 3 54 8 40 0 0 73 2 92 64 8 72 8 4 6 55 9 0 55 4 40 4 0 73 2 81 65 0 69 5 6 6 55 10 1 55 5 40 6 0 73 2 76 65 0 67 9 8 1 55 11 2 55 8 40 7 0 73 2 72 65 0 66 6 9 8 55 11 8 55 9 40 8 0 73 2 70 65 1 66 1 10 6 55 12 3 56 0 40 9 0 73 2 69 65 1 65 6 11 6 55 13 4 56 1 40 9 0 73 2 66 65 1 64 7 13 5 68 7 3 52 5 39 4 0 75 3 32 63 9 85 5 4 4 68 9 0 53 1 39 8 0 75 3 22 64 1 82 3 6 3 68 10 1 53 3 40 0 0 75 3 18 64 1 80 7 7 8 68 11 2 53 5 40 1 0 75 3 13 64 2 79 5 9 4 68 11 8 53 6 40 2 0 75 3 11 64 2 78 9 10 2 68 12 3 53 7 4
144. F WB EAT in cooling and 68 F DB 59 F WB EAT in heating Table 18 Vertical GEV ARI ISO performance Cooling Heating Cooling Heating Cooling Heating Unit Btuh EER Btuh COP Btuh EER Btuh COP Btuh EER Btuh COP Size GPM scfm WHLP WLPH WLHP WLHP GWHP GWHP GWHP GWHP GLHP J GLHP GLHP GLHP 006 1 8 215 7 600 12 81 9 500 4 80 8 500 18 90 8 000 4 10 7 800 14 81 6 200 3 30 009 2 1 285 8 800 13 00 11 300 5 10 10 000 18 10 9 300 4 30 9 100 14 60 7 200 3 50 012 2 8 380 11 600 14 00 14 900 5 00 12 800 20 80 12 200 4 30 12 000 15 80 9 400 3 50 015 3 5 475 14 400 13 80 18 300 4 90 15 900 21 30 15 000 4 20 14 800 15 60 11 700 3 50 018 4 2 570 17 800 13 10 22 200 4 80 19 400 19 20 18 400 4 10 18 300 14 70 14 500 3 50 024 5 6 760 24 700 14 70 29 500 4 80 26 900 22 40 24 600 4 30 25 500 17 00 19 500 3 50 030 7 0 900 28 800 14 40 34 900 4 90 31 900 21 60 29 300 4 30 29 900 16 50 23 200 3 60 036 8 4 1140 36 300 15 00 46 200 5 00 40 100 22 80 38 100 4 40 37 600 17 20 30 100 3 50 042 9 8 1330 41 000 13 90 51 700 4 70 45 900 20 50 42 800 4 10 43 100 16 00 33 800 3 50 048 11 2 1520 49 500 14 10 51 400 4 60 55 200 20 90 43 000 4 00 51 300 16 20 34 200 3 40 060 14 0 1900 61 600 14 00 71 700 4 80 67 600 20 00 58 600 4 20 64 100 15 90 46 800 3 50 Note Rated in accordance with ISO Standard 13256 1 1998 Water to Air and Brine to Air Heat Pumps Certified conditions 80 6 F DB 66 2 F WB EAT in cooling and 68 F D
145. FxG H J K LNPTI MNPTI N P Q R S 006 009 20 20 15 20 15 6 7 8 x 8 11 1 2 4 1 2 1 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 1016 508 381 508 381 175 x 203 292 114 45 13 13 984 476 346 470 83 012 015 49 20 15 20 15 6 7 8 x 9 7 8 11 1 2 4 1 4 2 3 4 1 2 1 2 38 3 4 18 3 4 13 5 8 18 1 2 3 1 4 1016 508 381 508 381 175 x 251 292 108 70 13 13 984 476 346 470 83 eis 46 23 18 23 18 8 1 4 x 9 3 4 13 1 2 4 3 4 3 1 4 3 4 3 4 44 3 4 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 248 343 121 83 19 19 1137 552 422 470 108 024 030 26 23 18 23 18 8 1 4x 11 3 8 13 1 2 4 3 4 3 1 4 3 4 3 4 44 374 21 3 4 16 5 8 18 1 2 4 1 4 1168 584 457 584 457 210 x 289 343 121 83 19 19 1137 552 422 597 108 036 042 50 25 19 25 20 10 1 2x13 1 2 17 4 1 3 4 3 4 48 374 23 3 4 17 5 8 23 1 2 3 1 4 1270 635 483 635 508 267 x 343 432 102 25 19 19 1238 603 448 597 83 erie EET 33 21 29 1 2 23 1 2 13 1 8 x 1 3 8 18 9 3 4 1 1 2 1 1 56 3 4 31 3 4 19 5 8 23 1 2 5 1 2 1473 838 533 597 749 333 x 289 457 248 38 25 25 1441 806 498 597 140 Hi 048 58 33 21 29 1 2 23 1 2 1
146. HERIC PRESSURE LA Vm LOCAL REQUIREMENTS AND AFT R A NORMAL SHUTDOWN lt FIELD INSTALLED SOLENOID VALVE SEE INSET A A s8 OCCURRED 2 DASHED LINES INDICATE RECOMMENDED FIELD so WIRING BY OTHERS FIELD WIRING TO BE RATED lt 6 VERIFY TEST JUMPER HAS BEEN REMOVED TO PREVENT FOR 800 Jes DASHED LINE ENCLOSURE CONTROL TIMING ERRORS 60 COMEONENTS D BY THE FIELD lt 7 CONNECTION FOR 24VAC CLASS 2 COMPRESSOR DI IENTS PROVIDE ERES INDICATE WIRING BY THE TRANE CO 3 NUMBERS ALONG THE RIGHT SIDE OF THE SCHEMATIC DESIGNATE THE LOCATION OF THE CONTACTS BY LINE NUMBER a Wiring diagrams provided in the catalog are generic A unit specific As Built wiring diagram is located on the unit control panel 138 ISABLE INPUT FOR CLC APPLICATIONS PUMP RESTART RELAY REQ D FOR OVERRIDE USE TERM 1TB1 4 6 TO ENERGIZE PUMP RESTART RELAY COIL MAX LOAD 5 VA r lt ISOLATED GENERAL ALARM CON CONTACTS taro oN CONTROL 1U2 GOES It MANUAL LOCKOUT MOI ee eee eee INTO INTACTS RATED FOR CLASS 2 24V TERMINAL 1TB1 ie AND 17 12 REQUIRED FOR HARD WIRED DIGITAL THERMOSTATS 1K1 6 7 8 WSHP PRCO17H EN e TRANE Control Wiring Figure 28 Tracer ZN524 460V 60 Hz 3 phla
147. HERWISE NOTED ALL SWITCHES BETWEEN TERMINALS 1TB1 14 AND 1TB1 15 S i THE NATIONAL ELECTRIC CODE NEC STATE AND ATMOSPHERIC PRESSURE AT 50 RELATIVE LOGAL REQUIREMENTS TIVA MASRATING FOR SOLENGID a HUMIDITY WITH ALL UTILITIES TURNED OFF AND AFTER A NORMAL SHUTDOWN HAS 5 FIELD INSTALLED SOLENOID VALVE CAN BE WIRED lt FIELD INSTALLED 2 POSITION ACTUATOR CAN BE WIRED 58 OCCURRED BETWEEN TERMINALS 1TB1 16 AND 1TB1 18 BETWEEN TERMINALS 1TB1 17 AND 1TB1 18 12VA MAX RATING FOR SOLENOID 12VA MAX RATING FOR SOLENOID 2 DASHED LINES INDICATE RECOMMENDED FIELD 59 WIRING BY OTHERS FIELD WIRING TO BE RATED FOR 600 VOLTS DASHED LINE ENCLOSURE LE COMM NATION WIFE MJET BE TRANE PART NO AND OR DASHED DEVICE OUTLINES INDICATE 400 20 28 OR WINDY CITY OR CONNECT AIR 60 COMPONENTS PROVIDED BY THE FIELD SOLID LEVEL 4 CABLE MAXIMUM OF 4500 FOOT LINES INDICATE WIRING BY THE TRANE CO 3 NUMBERS ALONG THE RIGHT SIDE OF THE SCHEMATIC DESIGNATE THE LOCATION OF THE CONTACTS BY LINE NUMBER AGGREGATE RUN CAUTION DO NOT RUN POWER IN THE SAME CONDUIT OR WIRE BUNDLE WITH COMMUNICATION LINK FOR ADDITIONAL INFROMATION REFER TO EMTX EB 68 aq TIE BACK WHEN NOT IN USE a Wiring diagrams provided in the catalog are generic A unit specific As Built wiring diagram is located on the unit control panel WSHP PRC017H EN 139 e TRANE Control Wiring Figure 29 UC400
148. NPT composed of copper The 5 ton and below equipment shall contain ETL CETL and ISO ARI 13256 1 listings and labels prior to leaving the factory Units meet the efficiency standards of the ASHRAE 90 1 2010 standard Service and caution area labels shall also be placed on the unit in their appropriate locations Air to Refrigerant Coil Internally finned 3 8 inch copper tubes mechanically bonded to a configured aluminum plate fin shall be standard Coils shall be leak tested at the factory to ensure the pressure integrity The coil shall be leak tested to 450 psig and pressure tested to 650 psig The tubes are to be completely evacuated of air and correctly charged with proper volume of refrigerant prior to shipment The refrigerant coil distributor assembly shall be of orifice style with round copper distributor tubes The tubes shall be sized consistently with the capacity of the coil Suction header shall be fabricated from rounded copper pipe A thermostatic expansion valve shall be factory selected and installed for a wide range of control Basic Controls option The basic control package shall contain a low and high pressure switch overflow switch and freeze protection along with a compressor lockout relay for control assistance High voltage power connections shall be made at the equipment s contactor Each device shall be factory mounted wired and tested in the equipment and include freezestat 50 VA transformer and compressor cont
149. PRC017H EN 73 e TRANE Performance Data Table 67 GEHO36 fan correction factors Cooling Input Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 912 0 953 0 871 1 003 0 989 1 098 969 0 966 0 903 1 003 0 992 1 068 1026 0 978 0 935 1 000 0 995 1 043 1083 0 990 0 968 1 000 0 998 1 021 1140 1 000 1 000 1 000 1 000 1 000 1254 1 018 1 062 1 000 1 005 0 967 1311 1 027 1 094 1 000 1 007 0 952 1368 1 034 1 123 1 000 1 008 0 938 Table 68 GEHO36 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 924 1 007 0 997 1 066 1 136 53 0 1 024 0 840 56 3 0 925 1 007 0 799 1 034 1 137 s 58 0 1 017 0 893 60 3 0 926 1 007 0 589 0 831 1 072 63 0 1 009 0 947 63 2 0 959 1 004 0 429 0 676 0 919 1 160 i 68 0 1 000 1 000 66 2 1 000 1 000 0 507 0 752 1 000 1 239 73 0 0 995 1 061 72 1 1 092 0 997 0 413 0 662 0 909 78 0 0 983 1 117 71 1 1 175 0 997 0 363 0 615 83 0 0 974 1 179 Note Sensible equals total capacity Table 69 GEV036 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW MER LWT Feet Head 45 5 5 40 2 28 6 0 71 1 83
150. ROOM RETURN IS TOO FROM THE BLOWER CLOSE TO THE gt lt i ES 3 d Figure 7 Proper return air ducting A duct system design that takes noise control into account See Figure 5 for a positive representation of supply duct work design for noise attenuation on units over 1 2 tons Sound control applies to the return side ofthe duct design as well asthe supply side Figure 6 demonstrates a poor installation Notethatthe return air opening is close to the cabinet of the unit Figure 7 graphic represents proper installation of return air duct This includes Two 90 bends prior to the intake e Lining the first 10 feet of the return air duct e Locating the return air intake away from the unit blower WSHP PRCO17H EN e TRANE Application Considerations e Keeps air flow velocities low e Uses aerodynamic fittings e Uses a duct liner if metal duct is applied e Avoids line of sight connections between a noise source and an outlet e Avoids line of sight connection between a noise source and an inlet e Properly locates balancing dampers e Seals cracks seams and joints in the duct run and equipment panels e Blocks transmission through walls ceiling and floors e Mounts and supports the ductwork with isolation devices that absorb vibration e Uses flexible duct connections e Uses flexible braided hoses on the water connections Water Flow Control WSHP PRC017H EN Trane s Axiom product li
151. SED UGHTING N HF OR UNIT CLEARANCE Hose kits are used to connect the water supply and return line to the water inlets and outlets Trane offers various hose kit combinations to better facilitate system flow balancing These flexible hoses also aid in the reduction of vibration between the unit and the rigid central piping system A three position isolation valve is often applied to systems which incorporate variable frequency pumping This valve is capable of stopping starting water flow to the unit which in turn reduces the pumping requirements for the entire system The unit s item 2 34 inch high voltage and item 3 12 inch low voltage connections are located on the left chamfered corner of the unit They are designed to accept conduit A field supplied line voltage disconnect should be installed for branch circuit protection Check local codes for requirements The central system supply and return lines should be sized to handle the required flow with a minimum pressure drop Note Pipe will sweat if low temperature water is below the dew point of the surrounding space Trane recommends that these lines be insulated to prevent damage from condensation when condenser loop is designed to be below 60 F Equipment installed in attic crawl space temperatures below 40 F may require antifreeze in the water loop 6 For acoustically sensitive areas a six inch deep fiberglass insulation is recommended to be field installed below the h
152. TET dese on aana ate T TO LE ETT OREL TT ans a yates We aah ot ana 124 Basic 24V Controls 2 uj eRIEREG Baie dee De wie ieee Ries 124 Deluxe 24V Electronic Controls eseen RR 124 Deluxe 24V features include seee A 124 Tracer UC400 ZN524 functions include eese 127 Thermostats and Zone Sensors eee 131 AccessOrleS 0 ee nns 134 Control WING usu ds Rr RORERWOR RIOPA or EO Ron Race dented ER URGE E tax 137 Mechanical Specifications 2 0665 csi pr e Rr ERE ERA 141 e TRANE Features and Benefits Air Side Filter The air side filter incorporates a 1 inch thick nominal 2 inch thick nominal MERV 8 or MERV 13 disposable fiberglass option These filters include an average synthetic dust weight arrestance of approximately 7596 This dust holding capability includes a Qus uA F Y YT s 73 4 MEIN colorless odorless adhesive to retain dirt particles within the filter media after fiber contact gt 1 t uu 21 1 H t S Air to Refrigerant Coil The air to refrigerant heat exchanger is constructed of staggered copper tubes with die formed corrugated lanced aluminum fins The fins are then mechanically bonded to the tubes through expansion The coil is placed internal of the unit design for the GEH model to provide an optional dual filtration application With dual filtration to the GEH unit maintenance to the filter is significantly les
153. WSHP PRC017H EN e TRANE Features and Benefits Blower Motor The supply air blower motor is a multi speed motor with internal thermal overload protection The motor bearings are permanently lubricated and sealed The motor is selected for the fan housing using rubber isolators to minimize vibration transmission See fan performance tables for static ranges All motors are factory wired to the option selected A high medium and low speed tap is provided for field customization on most voltages The speed tap modification can be made in the control box of the unit Note The 380 415 460 and 575 volt designs are provided in a dual or three speed version only See Unit Fan Performance p 98 for factory ratings Serviceability to the motor is made through either ofthe two air side access doors for the horizontal configuration and through one air side access door on vertical configuration The motor and blower wheel are removable by an orifice ring mounted to the fan housing Co axial Water to Refrigerant Coil The unit s internal heat exchanging water coil is engineered for maximum heat transfer The copper or cupro nickel seamless tubing is a tube within a tube design The inner water tube contains a deep fluted curve to enhance heat transfer and minimize fouling and scaling It is available in either copper or cupro nickel selectable option coil The outer refrigerant gas tube is made from steel material The coil is l
154. Water Source Heat Pump Axiom Horizontal Vertical GEH GEV 15 5Tons 60 Hz November 2013 WSHP PRCO17H EN FD ingersoi Rand e TRANE Introduction Imagine a full range of comfort utilizing efficiency sound attenuation integrated controls and superior maintenance accessibility The GEH and GEV models areTrane water source comfort solutions Model GEH pictured below isa ceiling hung productthat provides a sleek innovative shape along with convertibility of the supply air and the return air arrangement serviceability to maintenance components indoor air quality standards sound attenuation and best of all higher efficiencies with certified ARI ISO13256 1 performance and ASHRAE 90 1 standards Trane s new design incorporates system advantages such as Maximum return air and supply air flexibility Superior maintenance accessibility Dual sloped noncorrosive drain pan Multi speed motor Insulated enclosure for quiet unit design Integrated controls Orifice ring motor mounting device as standard for ease of motor service High and low pressure safeties as standard OO NAARWN Internal air to refrigerant coil horizontal design 10 24V condensate overflow switch 11 TXV 12 Freezestat Trademarks Axiom ReliaTel TOPSS Tracer Trane and theTrane logo are trademarks or registered trademarks of Trane in the United States and other countries Trane is a business of Ingersoll Rand All trademarks referenced
155. When this condition is met the isolation valve will be closed shutting down the water flow to the unit Compressor Operation The compressor is cycled on and off to meet heating or cooling zone demands Units use the unit capacity and pulse width modulation PWM logic along with minimum on off timers to determine the compressor s operation The compressor is controlled ON for longer periods as capacity increases and shorter periods as capacity decreases Condensate Overflow When condensate reaches the trip point a condensate overflow signal generates a diagnostic which disables the fan unit water valves if present and compressor The unit will remain in a halted state until the condensation returns to a normal level At this time the switch in the drain pan will automatically reset However the controller s condensate overflow diagnostic must be manually reset to clear the diagnostic and restart the unit Building Control Advantages TheTracer ZN524 or UC400 controllers have the ability to share information with one or several units on the same communication link An advantage of installing aTracer UC400 or ZN524 is its capability to work with other BACnet or LonTalk controllers This provides greater flexibility to the building owner as well as greater flexibility in design Integrating the UC400 or ZN524 on water source equipment and tying it to aTracer SC or other BAS system provi
156. actor Cabinet Unit casing shall be constructed of zinc coated heavy gauge galvanized steel Service to the refrigerant and controls shall be provided through a single access panel at the front of the equipment Access to the refrigerant and controls for the larger units shall be provided through the front and side access panels All panels shall be insulated with 12 inch thick dual density bonded glass fiber The exposed side is a high density erosion proof material suitable for use in air streams up to 3600 feet per minute FPM The insulation meets the erosion requirements of UL 181 It has a flame spread of less than 25 and a smoke developed classification of less than 50 per ASTM E 84 and UL 723 Access for inspection and cleaning of the unit drain pan coils and fan section shall be provided The unit shall be installed for proper access Hanging Rod Grommets Four rubber grommets are enclosed with every GEH unit These grommets are to be used in conjunction with unit hanging rods to isolate vibration Compressors The unit shall contain a high efficiency rotary or scroll compressor External vibration isolation shall be provided by rubber mounting devices located underneath the mounting base of the compressor A second isolation of the refrigeration assembly shall be supported under the compressor mounting base Internal thermal overload protection shall be provided Protection against excessive discharge pressure shall be provided
157. air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 11 2 Minimum cfm 1216 Rated cfm 1520 Maximum cfm 1824 WSHP PRCO17H EN e TRANE Performance Data Table 83 GEHO48 fan correction factors Cooling I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 1216 0 958 0 877 1 005 0 982 1 067 1292 0 970 0 908 1 004 0 986 1 046 1368 0 981 0 937 1 002 0 990 1 028 1444 0 991 0 969 1 001 0 996 1 014 1520 1 000 1 000 1 000 1 000 1 000 1672 1 016 1 060 0 999 1 007 0 974 1748 1 023 1 088 0 999 1 004 0 961 1824 1 029 1 118 0 998 1 007 0 951 Table 84 GEH048 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 937 1 011 1 012 1 074 1 137 53 0 1 035 0 849 56 3 0 937 1 010 0 812 1 033 1 138 58 0 1 023 0 897 60 3 0 938 1 011 0 621 0 843 1 068 63 0 1 007 0 943 63 2 0 959 1 008 0 480 0 702 0 925 1 146 68 0 1 000 1 000 66 2 1 000 1 000 0 554 0 775 1 000 1 219 73 0 0 983 1 050 72
158. anti short cycle timer provides a three minute time delay between compressor stop and compressor restart Brown out Protection The brown out protection function measures the input voltage to the controller and halts the compressor operation Once a brown out situation has occurred the anti short cycle timer will become energized The general fault contact will not be affected by this condition The voltage will continue to be monitored until the voltage increases The compressors will be enabled atthis time if all start up time delays have expired and all safeties have been satisfied Compressor Disable The compressor disable relay provides a temporary disable in compressor operation The signal would be provided from a water loop controller in the system It would disable the compressor because of low water flow peak limiting or if the unit goes into an unoccupied state Once the compressor has been disabled the anti short cycle time period will begin Once the compressor WSHP PRCO17H EN WSHP PRC017H EN e TRANE Controls disable signal is no longer present and all safeties are satisfied the control will allow the compressor to restart Diagnostics Three LEDs light emitting diodes are provided for indicating the operating mode of the controller See the unit IOM for diagnostics or troubleshooting through the use of the LEDs Generic Relay The generic relay is provided for field use in some applications A 24 Vac signal wi
159. assistance of a factory provided orifice ring device This device shall attach the wheel and motor to the fan housing in one assembly providing single side service access Pump Module field installed accessory The pump module shall consist of either a single or dual 1 6 HP bronze pump and a brass 3 way shut off valve Cast iron pumps are also acceptable The pump module kits shall contain the necessary components for the installation operation and maintenance of the water circuit of a closed loop distributed pumping application Refrigerant Circuits The refrigerant circuit shall contained a thermal expansion device Service pressure ports shall be factory supplied on the high and low pressure sides for easy refrigerant pressure or temperature testing Refrigerant Tubing The refrigerant tubing shall be of 99 pure copper This system shall be free from contaminants and conditions such as drilling fragments dirt and oil All refrigerant and water lines shall be 143 e TRANE Mechanical Specifications 144 insulated with an elastomeric insulation that has a 3 8 inch thick wall in the air side section of the unit Sound Attenuation Sound attenuation shall be applied as a standard feature in the product design The sound reduction package shall include vibration isolation to the compressor and water to refrigerant coil unit base stiffeners insulated metal compressor enclosure and a second stage of vibration isolation to the co
160. at each heat pump For automatic system balancing of a water source heat pump the Mesurflo self balancing hose kit provides a constant flow rate over the pressure differential rage of 2 to 80 psid As system pressure changes through further addition of heat pumps for example each individual flow control valve will automatically adjust to the new system conditions In variable water volume applications a self balancing hose kit can provide continuous balancing because of its ability to automatically adjust to the varying system conditions Note At low differential pressure the flow area required to achieve higher flow can exceed the flow area available for the respective series Therefore the minimum pressure differential requirement is increased for the higher flow ranges of each series Mesurflo valve Figure 25 Ball valve kit manual MeasurfloVac kit automatic Optional Isolation Valve 2 Position Valve Optional Isolation Valve 2 Position Valve IPT Mesurmeter w PT s 2510 Mesurflo w PT s E ia Bi amp Ball Valve Ei Ball Valve iem Cere Flex Hose S Flex Hose S S E SUPPLY gt SUPPLY L L O SASS TM 7O SSK Optional Yball Strainer w Blowdown Valve amp Hose Connector Optional Yball Strainer wiBlowdown Valve amp Hose Connector WSHP PRC017H EN 135 e TRANE Accessories Motorized water valve The motor
161. ate fin combination All coils shall be proof and leak tested from the manufacturer The proof test shall be performed at 1 5 times the maximum operating pressure and the leak test at the maximum operating pressure A dual sloped noncorrosive drain pan shall be easily accessible and cleanable for the hydronic economizing coil An electronic two position 3 way valve shall meter water flow to the economizing coil during the economizing mode It shall be factory set to energize the economizing mode at 55 F while simultaneously halting mechanical operation of the compressor Hanging brackets with rubber isolation shall be provided for the horizontal version of the economizing coil option The bracket design shall be the same throughout the equipment Electrical The unit control box shall contain all necessary devices to allow heating and cooling operation to occur from a remote wall thermostat These devices shall be as follows e 24Vac energy limiting class Il BO VA minimum transformer e 24Vac blower motor relay e 24Vac compressor contactor for compressor control e Field thermostat connections shall be provided for ease of hook up to a terminal strip located in the unit s control box e Lockout function controls cycling of the compressor shall be provided to protect the compressor during adverse operating conditions The device may be reset by interrupting power to the 24 Vac control circuit Reset may be done either at a remote thermosta
162. atures and Benefits Supply Return Air Combinations WSHP PRC017H EN The GEH model configuration may be built to order or modified on site to meet unique installation requirements The six combinations are shown in Figure 1 Figure 1 Airflow combinations of GEH 72 5 tons 1 Leftreturn air with left supply air combination 2 Left return air with rear supply air combination 3 Left return air with right supply air combination 4 Right return air with left supply air combination 5 Right return air with rear supply air combination 6 Right return air with right supply air combination GEV Flexibility The GEV model is also capable of on site modifications With the vertical configuration the supply air is easily converted from a top supply air to a back supply air with a service retrofit kit The return air option is order specific The four combinations are shown in Figure 2 Airflow Combinations of GEV 12 5 tons 1 Right return air with top supply air combination 1 O 2 Right return air with back supply air combination FRONT sd 3 Leftreturn air with top supply air combination 4 Left return air with back supply air combination Ua a Hanging device The hanging bracket resides in the chamfered corner of the horizontal 12 5 ton equipment This partially concealed bracket design eliminates added height width or length to the product The brackets are factory mounted to sho
163. by means of a high pressure switch A loss of charge shall be provided by a low pressure safety 141 e TRANE Mechanical Specifications 142 Deluxe Controls option The deluxe control package shall provide a 50 VA transformer fused or 75 VA transformer with circuit breaker low and high pressure switch condensate overflow and freeze protection The controller shall include a lockout function anti short cycle compressor protection random start delay brown out protection low pressure time delay compressor delay on start and an open relay Hot gas reheat and electric heat shall also be provided Three LEDs light emitting diodes shall also be included for diagnostics of the equipment Drain Pan The condensate pan shall be constructed of corrosion resistant material and insulated to prevent sweating The bottom of the drain pan shall be sloped on two planes which pitches the condensate to the drain connection The drain pan shall be flame rated per UL945V B A UL508 float switch shall be installed on all units to protect against the overflow of condensate from the drainpan Economizing Coil GEH option The waterside economizing package shall be an external unit accessory pre piped and pre wired ready for turn key installation to the unit The economizing coil shall be designed to perform with the WSHP at unit measured flow rate of 80 6 F DB 66 2 F WB with 45 F EWT All hydronic coils shall be of 5 8 in copper and aluminum pl
164. can be installed closely against a corridor wall without requiring extra space for the duct Most horizontal unit designs provide an opposite supply air from the return air arrangement or an end supply arrangement option See the end supply example An end supply design increases the overall unit length of the system to accommodate a 90 duct turn This not only requires added space but also adds cost in both materials and installation Additional value to the design is acquired through the same side supply return air design This design eliminates a requirement for a four sided service access When installing the same side return supply air access a brief 3 inch minimum is all that is required between the unit and the wall Units that contain the same side supply air and return r arrangement are not limited to Trane s AXIOM unit provides single sido Supply and return access within the overall length of the unit Duct Design for Noise Control e TRANE Application Considerations Designs that provide only opposite supply or end supply arrangements force duct work outside the overall length of the unit Proper acoustics are often a design requirement Most of the problems that are associated with HVAC generated sound can be avoided by properly selecting and locating the components of the system Acoustical modeling should be used to find the lowest cost design
165. ction e The units 2 34 inch high voltage and 3 Vinch low voltage connections are located on the left chamfered corner of the unit They are designed to accept conduit e Trane recommends that the condensate system 4 be set up per negative pressure trapping in consideration of the unit s draw through design With this properly trapped system when condensate forms during normal operation the water level in the trap rises until there is a constant outflow Refer to the Axiom Installation and Operations manual for negative pressure trapping guidelines e For acoustically sensitive areas a Y2 inch thick field provided vibration pad 5 should be installed below the vertical unit This field provided piece should be equal to the overall foot print size of the unit to provide sound damping of the unit while in operation e Hose kits 6 are used to connect the water supply and return lines to the water inlet and outlets Trane includes various hose kit combinations to better facilitate system flow balancing These flexible hoses reduce vibration between the unit and the rigid piping system 18 WSHP PRCO17H EN Installation Made Easy Installing a horizontal unitinside a corridorto enhance sound attenuation provides value to duct design Trane takes this fact one step further The GEH design offers same side return air supply air access to the unit This access is contained within the overall dimension of the units length The unit
166. cy and equipment safety to prolong the equipment life Trane WSHP with DDC controllers features include 75VA transformer compressor contactor compressor lockout function random start delay heating cooling status occupied unoccupied mode low pressure switch high pressure switch fan and filter status optional reversing valve coil for heating and cooling units multi speed fan motor 18 pole terminal strip for low voltage field wiring condensate overflow and freeze protection Additional features include water isolation valve support for variable speed pumping Optional features include boilerless control for electric heat waterside economizer hot gas reheat for dehumidification Tracer ZN524 The Tracer ZN524 is LonTalk certified It is capable of working with and talking to other LonTalk certified controllers providing the building owner more choices and the design engineers more flexibility to meet the challenges of building automation Tracer UC400 TheTracer UC400 is a BTL Listed BACnet controller that can operate stand alone or within a Building Automation system such asTracer SC WSHP PRCO17H EN e TRANE Controls Tracer UC400 ZN524 functions include WSHP PRC017H EN Boilerless Control Electric Heat The controller supports a single stage of boilerless electric heat operation Electric heat is used when boilerless heat is enabled configured and the EWT is too low for compressor operation
167. d EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW cei LWT Feet Head 45 11 8 47 9 34 7 0 73 2 08 55 0 54 3 22 9 55 6 4 45 5 33 6 0 74 2 44 53 9 71 9 7 5 55 7 8 45 8 33 7 0 74 2 38 53 9 68 7 10 8 55 8 8 45 9 33 8 0 74 2 35 53 9 67 2 13 3 55 9 8 46 0 33 9 0 74 2 33 54 0 66 0 16 0 55 10 3 46 1 34 0 0 74 2 32 54 0 65 5 17 4 55 10 8 46 1 34 0 0 74 2 31 54 0 65 0 18 9 55 11 8 46 2 34 1 0 74 2 30 54 0 64 2 21 9 68 6 4 44 0 33 3 0 76 2 75 53 4 84 8 7 0 68 7 8 44 3 33 5 0 76 2 68 53 4 81 6 10 1 68 8 8 44 4 33 5 0 76 2 65 53 4 80 1 12 5 68 9 8 44 5 33 6 0 76 2 63 53 4 78 9 15 0 68 10 3 44 5 33 6 0 76 2 62 53 4 78 4 16 3 68 10 8 44 5 33 7 0 76 2 61 53 4 77 9 17 7 68 11 8 44 6 33 7 0 76 2 59 53 4 77 1 20 6 75 6 4 42 7 32 8 0 77 2 95 52 8 91 6 6 8 75 7 8 42 9 32 9 0 77 2 87 52 8 88 5 9 9 75 8 8 43 1 33 1 0 77 2 84 52 8 87 0 12 1 75 9 8 43 2 33 1 0 77 2 81 52 8 85 8 14 6 75 10 3 43 2 33 1 0 77 2 80 52 8 85 3 15 9 75 10 8 43 2 33 2 0 77 2 79 52 8 84 8 17 2 75 11 8 43 3 33 2 0 77 2 78 52 8 84 0 20 1 86 6 4 40 8 32 2 0 79 3 29 52 0 102 3 6 5 86 7 8 41 0 32 4 0 79 3 20 52 0 99 3 9 5 86 8 8 41 1 32 4 0 79 3 17 51 9 97 8 11 6 86 9 8 41 2 32 5 0 79 3 14 51 9 96 6 14 0 86 10 3 41 3 32 5 0 79 3 12 51 9 96 1 15 2 86 10 8 41 3 32 6 0 79 3 11 51 9 95 6 16 5 86 11 8 41 3 32 6 0 79 3 09 51 9 94 8 19 2 95 6 4 38 9 31 4 0 81 3 62 51 3 111 1 6 2 95 7 8 39 1 31 6 0 81 3 54 51 2 108 1 8 9 95 8 8 39 2
168. ded to the existing water to refrigerant heat exchanger spec when the insulated option is selected This would be both for the stand and CuNi WSHP PRCO17H EN Au A CERTIFIED www ahridirectory org TERT Ey On Unitary Small AC E fh gt S F N A Al 2 K AHRI Standard 210 240 Certain apes anly when the complete system C US lt Lis reo e TRANE Trane optimizes the performance of homes and buildings around the world A business of Ingersoll Rand the leader in creating and sustaining safe comfortable and energy efficient environments Trane offers a broad portfolio of advanced controls and HVAC systems comprehensive building services and parts For more information visit www Trane com Trane has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice 2013Trane All rights reserved WSHP PRCO17H EN 09 Nov 2013 We are committed to using environmentally FD Il R d Supersedes WSHP PRCO17 EN 19 Jan 2012 conscious print practices that reduce waste ngerso an
169. des a complete building management mame system With a Building Automation system like a Tracer SC the system can initiate an alarm onaloss of performance on equipment malfunctions allowing problems to be handled in a timely manner before compromising comfort This type of application would most commonly be His used for a large space s that may require more than ums oneunit In additionto this application design UC400 and ZN524 controller provides a way for units located within the same space to share the same zone sensor to prevent units from simultaneously heating and cooling in the same space Data Sharing The UC400 and ZN5234 are capable of sending or receiving data setpoints fan request or space temperature to and from other controllers on the communication link This allows multiple units to share a common space temperature sensor in both stand alone and building automation applications 127 e TRANE Controls 128 Dehumidification Dehumidification for the water source heat pump is applicable with the UC400 and ZN524 The controller is capable of directing one stage of DX cooling in conjunction with one stage of reheat hot gas reheat Dehumidification can only occur when the controller is in the cooling mode A humidity sensor is used to measure the zone s relative humidity RH then compares the zone relative humidity to the relative humidity enable disable setpoint parameters The dehumi
170. dification enable and disable points are configurable Fan Operation The supply air fan operates at the factory wired speed in the occupied or occupied standby mode When switch is set to AUTO the fan is configured for cycling ON with heating or cooling In heat mode the fan will run for 30 seconds beyond compressor shutdown in both occupied and unoccupied mode Filter Maintenance Timer The controller filter status is based on the unit fan s cumulative run hours The controller compares the fan run time against an adjustable fan run hours limit and recommends unit maintenance as required High and Low Pressure Switches The UC400 and ZN524 detects the state of the high pressure or low pressure switches When a fault is sensed by one of these switches the corresponding message is sent to the controllerto be logged into the fault log When the circuit returns to normal the high pressure control and low pressure control automatically reset If a second fault is detected within a thirty minute time span the unit must be manually reset Occupancy Modes The four operations of the UC400 and ZN524 controller include occupied occupied standby occupied bypass and unoccupied In an occupied situation the controller uses occupied heating and cooling setpoints to provide heating and cooling to the building This occupied operation is normally used during the daytime hours when the building is at the highest occupancy level In an occupied
171. e Total Reject EWT GPM Mbtuh Sen Mbtuh SHR Power kW EER Mbtuh LWT Feet Head 45 1 4 10 1 7 5 0 74 0 55 18 4 12 0 62 1 2 1 45 1 7 10 2 7 5 0 74 0 54 18 8 12 1 59 2 2 9 45 1 9 10 3 7 6 0 74 0 54 19 1 12 1 57 8 3 6 45 2 1 10 3 7 6 0 73 0 54 19 3 12 2 56 6 4 2 45 2 2 10 4 7 6 0 73 0 53 19 4 12 2 56 1 4 6 45 2 3 10 4 7 6 0 73 0 53 19 5 12 2 55 6 5 0 45 2 5 10 4 7 6 0 73 0 53 19 6 12 3 54 8 5 8 55 1 4 9 6 7 3 0 76 0 58 16 6 11 5 71 5 2 0 55 1 7 9 7 7 3 0 76 0 57 17 1 11 6 68 6 2 8 55 1 9 9 7 7 4 0 76 0 56 17 3 11 7 67 3 3 4 55 2 1 9 8 7 4 0 75 0 56 17 5 11 7 66 1 4 1 55 2 2 9 8 7 4 0 75 0 56 17 6 11 7 65 6 4 4 55 2 3 9 8 7 4 0 75 0 56 17 7 11 7 65 2 4 8 55 2 5 9 9 7 4 0 75 0 56 17 8 11 8 64 4 5 6 68 1 4 9 1 7 1 0 78 0 63 14 4 1L3 84 2 1 9 68 1 7 9 2 7 2 0 78 0 62 14 9 11 3 81 3 2 7 68 1 9 9 2 7 2 0 78 0 61 15 1 11 3 79 9 3 3 68 2 1 9 3 7 2 0 78 0 61 15 2 11 4 78 8 3 9 68 2 2 9 3 7 2 0 77 0 61 15 3 11 4 78 3 4 2 68 2 3 9 3 7 2 0 77 0 61 15 4 11 4 77 9 4 6 68 2 5 9 3 7 2 0 77 0 60 15 5 11 4 77 1 5 3 77 1 4 8 9 7 0 0 79 0 68 13 0 11 2 93 0 1 8 77 1 7 8 9 7 1 0 79 0 67 13 3 11 2 90 2 2 6 77 1 9 8 9 7 1 0 79 0 66 13 5 11 2 88 8 3 2 GLHP 77 2 1 9 0 7 1 0 79 0 66 13 6 11 2 87 7 3 8 77 2 2 9 0 7 1 0 79 0 66 13 7 11 2 87 2 4 1 77 2 3 9 0 7 1 0 79 0 65 13 8 11 2 86 7 4 4 77 2 5 9 0 7 1 0 79 0 65 13 9 11 2 86 0 5 1 86 1 4 8 6 6 9 0 81 0 75 11 5 11 2 101 9 1 8 86 1 7 8 6 7 0 0 81 0 73 11 8
172. e dry contacts only and cannot be used to drive field installed control inputs Stand alone System The 24V basic or deluxe design may be applied as a stand alone control system The stand alone design provides accurate temperature control directly through a wall mounted electronic thermostat This system set up may be utilized in a replacement design where a single unit retrofit is needed It may be easily interfaced with a field provided control system by way of the factory installed 18 pole terminal strip This stand alone control is frequently utilized on small jobs where a building controller may not be necessary or where field installed direct digital controls are specified This type of control design does require a constant flow of water to the water source heat pump With a positive way to sense flow to the unit the units safety devices will trigger the unit off The stand alone system design provides a low cost option of installation while still allowing room control for each unit Tracer Direct Digital Controllers DDC Controls The Tracer ZN524 and UC400 are DDC that when applied to water source equipment provide control of the entire unit as well as outputs for unit status and fault detection Each device is factory installed commissioned and tested to ensure the highest level of quality in unit design Each controller feature and option was selected to coordinate with the unit hardware to provide greater energy efficien
173. e standard Two inch throwaway two inch MERV 8 or 13 filters are available as an option An optional ducted filter box is available as a field installed accessory Hot Gas Reheat option Dehumidification shall be provided through a hot gas reheat option The coil shall consist of 3 8 copper tubes mechanically expanded into evenly spaced aluminum fins All coils shall be proof and leaktested The proof test must be performed at 1 5 time the maximum operating pressure and the leak test performed at the maximum operating pressure Indoor Fan The blower shall be a forward curved style wheel with multiple speed combinations available All direct drive motors shall have sealed bearings that do not require field lubrication The motor has a permanent split capacitor with thermal overload protection Options of standard static or high static can be selected The motor contains a quick disconnect plug They are constructed of corrosion resistant galvanized material Removal of the motor and fan wheel can be made with the assistance of a factory provided orifice ring device This device attaches the wheel and motor to the fan housing in a single assembly eliminating the need for access to the set screw on the backside of the fan hub The fan shall be placed in a draw through configuration They shall be constructed of corrosion resistant galvanized material Orifice Ring Removal of the motor and fan wheel for the 2 5 ton units shall be made with the
174. eak tested to assure there is no cross leakage between the water tube and the refrigerant gas steel tube coil Co axial heat exchangers are more tolerant to freeze rupture Compressor The unit s design includes a wide variety of compressor motors to accommodate dedicated voltages and tonnage sizes The 1 175 ton products have a rotary compressor design where as unit sizes ranging from 2 5 ton include a scroll compressor style These different styles allow Trane to provide the voltage variations along with noise reduction required in today s applications Drain Pan Theunit drain pan is composed of plastic corrosive resistive material The pan is positively sloped to comply with ASHRAE 62 for IAQ indoor air quality conformity Access to the drain pan is provided through two access panels for cleaning purposes e TRANE Features and Benefits Dual Filtration Flexibility of the GEH allows for dual filtration in a free return application With the field installed dual filtration accessory filter maintenance of the unit is significantly less The accessory package includes both the bottom and top filter rack and one 1 inch or 2 inch filter Table 122 p 135 provides dual filtration accessory Return air Number 1 numbers appropriate to unit size Model GEH Cabinet The GEH cabinet design includes a modular Fi platform that utilizes similar parts and assemblies throughout the product line It
175. eat or cool the fluid running through buried high density polyethylene pipe to provide heating and cooling to a building A geothermal loop can be installed either horizontally or vertically Vertical loops require less overall land area to reject i e sink the excess heat from the building Horizontal loops require trenches in the ground spanning a larger overall land area WSHP PRCO17H EN WSHP PRC017H EN e TRANE Application Considerations Although external piping is the responsibility of the installer and or piping manufacturer many electric utilities and rural electric cooperatives are offering monetary incentives to install geothermal systems Utility companies offer the incentives because of reduced peak loads that flatten out their demand curve over time and save them money These savings are ultimately transferred to the consumer Hybrid Systems Hybrid systems involve adding a small cooling tower or dry cooler to a ground source system that is installed in a cooling dominated climate or adding a small boiler to a system in a heating dominated climate In either case the geothermal heat exchanger is sized based on the smaller of the two loads for the total heat absorbed in a cooling dominated climate or the total heat rejected in a heating dominated climate Then a small cooling tower or boiler is added to reject or add the remaining heat A hybrid system may also be used in existing buildings with existing ground lo
176. ed Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 5 6 Minimum cfm 608 Rated cfm 760 Maximum cfm 912 continued on next page 62 EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 3 6 18 0 11 9 1 77 18 4 6 5 25 4 5 18 3 12 3 1 78 19 5 9 2 25 5 0 18 5 12 4 1 78 20 1 11 2 25 5 6 18 6 12 5 1 78 20 5 13 4 25 5 9 18 6 12 5 1 77 20 7 14 6 25 6 2 18 7 12 6 1 78 20 9 15 9 25 6 7 18 7 12 7 1 78 21 2 18 6 32 3 6 19 7 13 6 1 79 24 5 6 4 32 4 5 20 1 14 0 1 79 25 8 8 9 32 5 0 20 3 14 2 1 79 26 4 10 9 WSHP PRC017H EN e TRANE Performance Data Table 54 GEV024 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 32 5 6 20 3 14 2 1 79 26 9 13 1 32 5 9 20 4 14 3 1 79 27 1 14 2 32 6 2 20 5 14 4 1 80 27 3 15 5 32 6 7 20 6 14 5 1 80 27 7 18 1 45 3 6 23 2 17 0 1 83 35 7 6 0 45 4 5 23 6 17 3 1 84 37 3 8 4 45 5 0 23 8 17 5 1 84 38 1 10 3 45 5 6 23 9 17 7 1 84 38 7 12 3 45 5 9 24 0 17 7 1 84 39 0 13 4 45 6 2 24 1 17 8 1 84 39 2 14 6 45 6 7 24 2 17 9 1 84 39 7 17 1 55 3 6 26 0 19 6 1 87 44 2 5 7 55 4 5 26 4 20 0 1 87 46 1 8 0 55 5 0 26 6 20 2 1 88 47 0 9 8 55 5 6 26 8 20 4 1 88 47 7 11 8 55 5 9 26 9 20 5 1 88 48 0 12 8 55 6 2 27 0 20 6 1 88 48 3 13 9 55 6 7 27 1 20 7 1 89 48 8 16 3 68 3 6 29 1 22 4 1 94 55 7 5 3 68 4 5 29
177. ensions are in inches followed by millimeters in parenthesis WSHP PRCO17H EN 119 e TRANE Dimensional Data Figure 19 Left return back supply Note Access to the unit for service purposes should be provided at installation All configurations require a 36 in surround clearance from other mechanical and electrical equipment to enable panel removal from the unit for service maintenance ability Local and or NEC codes require greater service clearance Check all code requirements prior to unit installation Installer is responsible for following all local and NEC code requirements BLOWER ACCESS COMP CONTROL ACCESS WCI mounting location le 305 l 9 1 2 241 G 3 5787 LEFT SIDE Table 114 Dimensional data left return back supply 4 Y RIGHT SIDE W I W O Drain Unit A B C D E F G H J K L M NPTI NPTI FPT 4 1 3 4 006 015 19 1 2 31 1 4 21 1 211 1 2 102 006 009 44 006 009 9 3 2 15 17 6 7 8 8 3 4 y2 y2 3 4 495 794 546 292 4 3 4 3 3 4 241 381 432 175 203 19 13 13 19 121 012 015 95 012 015 9 3 4 018 024 21 1 2 39 1 4 21 1 2 13 1 2 4 3 7 8 9 1 2 23 3 4 17 8 1 4 248 3 4 3 4 3 4 3 4 030 546 997 546 343 102 98 241 603 432 368 71 3 8 19 19 19 19 289 036 042 24 1 2 41 7 8 26 1 2 18 3 1 4 1 7 8 9 1 2 19 23 10 1 2 13 1 2 1 4 3
178. fan motor 18 pole terminal strip for low voltage field wiring Deluxe 24V Electronic Controls The 24V deluxe design is a microprocessor based control board conveniently located in the control box The board is unique toTrane water source products and is designed to control the unit as well as provide outputs for unit status and fault detection The board is factory wired to a terminal strip to provide all necessary terminals for field connections The deluxe 24V electronic unit control contains upgraded features to maximize system performance to extend the system life Each device is factory mounted wired and tested in the unit Features include 50 VA transformer on the standard heat pump and cooing units only Hot gas reheat and electric heat units with deluxe controls offer a 75 VA transformer Other features include compressor contactor compressor lockout function anti short cycle compressor protection random start delay brown out protection low pressure time delay low pressure switch condensate overflow freeze protection high pressure switch compressor delay on start reversing valve coil for heating and cooling units multi speed fan motor soft lockout mode 18 pole terminal strip for low voltage hot gas reheat for dehumidification optional electric heat field wiring optional mechanical unit control provides component protection devices Deluxe 24V features include 124 Anti short Cycle Timer The
179. he expansion valve device allows the exact amount of refrigerant required to meet the coil load demands This precise metering by theTXV increases the efficiency of the unit and eliminates the need for a water regulating valve Reversing Valve Asystem reversing valve 4 way valve is included with all heating cooling units This valve is piped to be energized in the cooling mode to allow the system to provide heat if valve failure were to occur Once the valve is energized for cooling it will remain energized until the control system is turned to the OFF position or a heating cycle is initiated Sound Attenuation Package Testing of conventional units has identified that the sound radiated by the casing of the unit is an important component of the sound that reaches occupants especially when the unit is located directly over the occupied space WSHP PRCO17H EN e TRANE Features and Benefits This sound reduction package reduces radiated noise from the cabinet Trane double isolates the compressor and single isolates the co axial coil in the unit This design absorbs the vibration that contributes to radiated sound For sound critical spaces an enhanced sound package as described in Table 1 p 9 provides additional attenuation Table 1 Sound package GEH units ONLY Enhanced Sound Attenuation Package Standard Deluxe Sound Attenuation Package Option 18 gauge compressor enclosure 16 gauge compre
180. illes Coil icing protection will also be provided Waterside economizer cooling will be active during occupied unoccupied and standby cooling modes Water Isolation Valve Variable speed pumping systems are supported by the UC400 and ZN524 controller when water isolation valves 12 VA max are present Isolation Valve ON Control The isolation valve output will be energized controlled open during compressor heating compressor cooling waterside economizing or dehumidification When the isolation valve is driven open for compressor operation the output will be energized 20 seconds prior to the compressor and indoor fan if not already energized outputs to ensure adequate water flow to the heat exchanger To reduce excessive cycling of the isolation valve once opened the isolation valve will remain open for a minimum of 10 minutes Isolation Valve OFF Control The isolation valve output will be de energized controlled closed when there is no longer a call for compressor or WSE operation and the 10 minute minimum on time has expired Wireless Comm Interface WCI TheTrane wireless Comm Interface WCI enables wireless communication between system controls unit controls and wireless sensors for the new generation of Trane control products The WCI replaces the need for communication wire in all system applications Note See BAS SVX40 EN Installation Operation and Maintenance Wireless Comm for more information Quantity
181. in this document are the trademarks of their respective owners LonTalk is a registered trademark of Echelon Corporation BACnet is a registered trademarks All trademarks referenced in this document are the trademarks of their respective owners Revision Summary WSHP PRCO17H EN 09 November 2013 e Added BACnet 2013Trane All rights reserved WSHP PRCO17H EN Table of Contents WSHP PRC017H EN IntrodictlOn amp dca wack dead eds we a ex px cepa eka e kd X Verdes wa Rud Gan dda 2 Features and Benefits 0 0 0000 cc aa ee rra 4 Model GEH Cabinet 0 llle n 6 Model GEV Cabinet 0 00 0 ccc n 6 Supply Return Air Combinations essel 7 Boilerless Control Electric Heat option 00000 eee eens 9 Boilerless Control Electric Heat Heating Cooling Mode 10 Application Considerations oxen edzrcREEREAW dx x wi EG E ods 13 Central Pumping System lees 16 Distributed Pumping System 0 0 c cette eee 17 Installation of the 5 Ton Vertical 0 eee 18 Installation Made Easy 0000 ees 19 Water Flow Control 2 0 0 00 c cc eee eee 21 General Data ccc rs 23 Performance Data cesses hrs 27 Unit Fan Performance esee eR rrr 98 Electrical Data sas saacka pax dexi AAE iex e dace x Balhae eek d 105 Dimensional Data s irae ee pk ED ee x WER Rd ACE A X Re CH E 112 Wh cceeTCPPT LTT 123 Folio
182. ing cooling reject heat to the loop In effect the system recovers and redistributes heat where needed Also connected to this water loop are a heat rejecter such as a cooling tower a heat adder such as a boiler circulation pumps and related accessories Typically outdoor air is conditioned and delivered by a separate dedicated ventilation system During warm weather when all or most of the units are cooling the cooling tower is used to dissipate heat from the condensing process The condensing water is cooled for recirculation back to the water to refrigerant heat exchanger by using a combination of heat and mass transfer by evaporation A boiler is also used to add heat to the water loop during winter months when most units are heating The boiler is typically enabled when the water loop temperature falls to a minimum value 13 e TRANE Application Considerations 14 During moderate weather such as spring or fall the heat pumps serving the sunny side and interior of the building often operate in cooling mode and reject heat into the water loop The heat pumps serving the shady side of the building often operate in heating mode and absorb heat from the water loop Heat rejected by the units operating in cooling mode is used to offset the heat absorbed by the units in heating mode In this manner aWSHP system provides a form of heat recovery and an opportunity to save energy by reducing the need to operate the boiler or cooling towe
183. ion factors Cooling Input Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 608 0 958 0 879 1 001 0 985 1 080 646 0 970 0 911 1 001 0 989 1 056 684 0 981 0 940 1 000 0 990 1 033 722 0 991 0 971 1 000 0 998 1 017 760 1 000 1 000 1 000 1 000 1 000 836 1 019 1 062 1 001 1 002 0 967 874 1 027 1 092 1 001 1 004 0 954 912 1 034 1 122 1 001 1 010 0 945 60 WSHP PRCO17H EN e TRANE Performance Data Table 52 GEH024 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 925 1 007 1 020 1 088 1 156 53 0 1 023 0 857 56 3 0 926 1 008 0 811 1 040 1 158 58 0 1 015 0 904 60 3 0 930 1 007 0 607 0 841 1 073 63 0 1 005 0 948 63 2 0 965 1 004 0 451 0 690 0 924 1 159 68 0 1 000 1 000 66 2 1 000 1 000 0 526 0 765 1 000 1 236 73 0 0 989 1 047 72 1 1 082 0 999 0 430 0 676 0 916 78 0 0 980 1 099 77 1 1 153 1 008 0 383 0 630 83 0 0 972 1 152 Note Sensible equals total capacity Table 53 GEV024 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW DAN LWT Feet Head 45 3 6 26 8 18 7 0 70 1 24 31 0 62 0 6 0 45
184. its 1 1 2 2 2 3 Finned vol h w d 14x16x2 6 14x16x2 6 14x21x2 6 14 x 21x2 6 21x16x2 6 21x16x2 6 Coil Surface Area Sq Ft 1 56 1 56 1 56 1 56 2 33 2 33 Fins per Inch 12 12 12 12 12 12 Tube Material Copper Copper Copper Copper Copper Copper Tube OD in 3 8 3 8 3 8 3 8 3 8 3 8 Wall Thickness 0 014 0 014 0 014 0 014 0 014 0 014 Return Bends Copper Copper Copper Copper Copper Copper 24 WSHP PRCO17H EN Models GEV006 024 water to refrigerant coil e TRANE General Data Table 10 Model GEV 006 009 012 015 018 024 Working Pressure psig 780 780 780 780 780 780 Table 11 Models GEV030 042 Model GEV 030 036 042 Unit Size Length x Height oni x 3914 x 21 26 x 41 7 8 x 24 26 x 41 7 8 x 24 x Width in Compressor Type Scroll Scroll Scrol Net Weight Ibs 253 288 288 Ship Weight Ibs 285 308 308 Filter Size Actual in 19 7 8 x 19 7 8 19 7 8 x 24 7 8 19 7 8 x 24 7 8 Water in out size FPT 3A 3A 3A Condensate size NPTI 3A 3A 3A Blower Wheel Size in 10x6 12x8 12x8 Table 12 Models GEV030 042 air to refrigerant coil Model GEV 030 036 042 Working Pressure psig 650 650 650 Tubes High 21 18 18 Tubes Deep 4 3 4 No of Circuits 4 3 4 Finned vol h w d 21 x 16 3 x 3 5 18x21x2 6 18x21x3 5 Coil Surface Area Sq Ft 2 33 2 63 2 63 Fins per Inch 12 1
185. ized water valve is installed on the return line of the water loop system between the loop and the loop s pump module This isolation device is less expensive and a very effective alternative to the water regulating valve When the compressor begins running the valve will open allowing water to flow through the unit As the compressor shuts down the valve slowly closes off The main purpose of the motorized valve is to shut off the flow of water through the unit when the unit is off thus reducing water consumption The motorized valve is fast opening to prevent compressor trip out and slow closing to prevent water hammer Pump module The pump module and hose kit make a complete self contained pumping package for distributed pumping systems These kits contain all the necessary components for the installation operation and maintenance of the water circuit of a closed loop geothermal application Standard pump module features include insulated Grundfos pumps insulated cabinet bronze or cast iron pump and 3 way brass valves Literature number WSHPC IN 5 will provide electrical and dimensional requirements for the PMCA and PMBA products Pump module hose kit The pump module hose kit consists of two brass 34 in or 1 in male pipe thread MPT by barb fittings two brass 90 1 inch MPT by barb elbows with pressure temperature ports and 10 ft of rubber hose with 4 hose clamps The pump module hose kit is available separately from the
186. le commercial thermostat for conventional air conditioners and heat pumps that are configured with or without auxiliary heat e 3H 2C o X13511537010 3 Heat 2 Cool Programmable commercial thermostat for conventional air conditioners and heat pumps configured with or without auxiliary heat e 3H 2C o X13511538010 3Heat 2 Cool Programmable touch screen thermostat for conventional air conditioners and heat pump systems The thermostat will provide the human interface zone temperature sensing both local and optional remote temperature sensing and set point scheduling on a daily weekly basis This thermostat can also display humidity with a control signal for dehumidification with a local humidity sensor or optional remote humidity sensor e 3H 2C WSHP PRC017H EN 131 e TRANE Thermostats and Zone Sensors Table 118 Wired zone sensor selection for use with ZN524 or UC400 controllers Sensor Part Number Description X13790886010 Wired temperature sensor with an LCD display e Allows an occupant to control the temperature E setpoint request timed override of system operation and provides a COMM module to service technicians e Tracer ZN524 and UC400 Compatible X13651467020 Communication Module e Sold in packs of 12 e Provides local RJ22 connection to Trane service tools for easy low cost maintenance X1379084501 Zone Sensor e Tracer ZN524 and UC400 compatible e External setpoint adjustment
187. ll energize the relay coil on terminals R1 and R2 Terminals C common NO normally open and NC normally closed will be provided for the relay contacts Random Start The random start relay provides a time delay start up of the compressor when cycling in the occupied mode A new start delay time between 3 and 10 seconds is applied each time power is enabled to the unit Safety Control The deluxe controller receives separate input signals from the refrigerant high pressure switch low suction pressure switch freezestat and condensate overflow In a high pressure situation the compressor contactor is de energized which suspends compressor operation The control will go into soft lockout mode initializing a three minute time delay and a random start of 3 to 10 second time delays Once these delays have expired the unit will be allowed to run If a high pressure situation occurs within one hour of the first situation the control will be placed into a manual lockout mode halting compressor operation and initiating the general alarm In a low temperature situation the low pressure switch will transition open after the compressor starts If the switch is open for 45 seconds during compressor start the unit will go into soft lockout mode initializing a three minute time delay and a random start of 3 to 10 second time delays Once these delays have expired the unit will be allowed to run If the low pressure situation occurs again within 3
188. ly Interpolation is permissible Extrapolation is not Rated GPM 14 0 Minimum cfm 1520 Rated cfm 1900 Maximum cfm 2280 Table 94 GEVO60 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 9 1 43 4 29 0 4 23 18 6 8 8 25 11 2 44 1 29 6 4 24 19 7 12 4 25 12 6 44 4 29 9 4 25 20 2 15 3 25 14 0 44 7 30 2 4 25 20 7 18 4 25 14 7 44 9 30 4 4 26 20 9 20 0 25 15 4 45 0 30 5 4 26 21 0 21 7 25 16 8 45 1 30 6 4 26 21 4 25 3 32 9 1 47 8 33 1 4 31 24 7 8 6 32 11 2 48 5 33 8 4 32 26 0 12 2 32 12 6 49 0 34 2 4 33 26 6 15 0 32 14 0 49 3 34 5 4 33 27 1 18 0 32 14 7 49 3 34 5 4 33 27 3 19 6 32 15 4 49 3 34 5 4 33 27 5 21 3 32 16 8 49 7 34 9 4 34 27 8 24 8 45 9 1 55 3 40 1 4 43 36 2 8 0 45 11 2 56 2 41 0 4 45 37 7 11 5 45 12 6 56 5 41 3 4 45 38 4 14 2 45 14 0 56 8 41 6 4 46 39 1 17 1 45 14 7 56 9 41 7 4 46 39 3 18 6 45 15 4 57 2 42 0 4 48 39 5 20 2 45 16 8 57 3 42 1 4 47 40 0 23 5 55 9 1 62 2 46 6 4 56 44 8 7 7 55 11 2 63 2 47 6 4 58 46 5 11 1 continued on next page WSHP PRC017H EN 95 e TRANE Performance Data Table 94 GEVO60 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 55 12 6 63 7 48 0 4 59 47 4 13 7 55 14 0 64 1 48 4 4 60 48 1 16 5 55 14 7 64 2 48 5 4 60 48 4 17 9 55 15 4 64 4 48 7 4 60 48 7 19 5 55 16 8 64 8 49 0 4 61 49 2 22 7 68 9 1 72 0 55 6 4 80 55 8 7 4 6
189. m cfm 960 Rated cfm 1200 Maximum cfm 1440 Table 74 GEH042 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 6 4 30 6 20 8 2 89 18 5 8 6 25 7 8 31 1 21 2 2 89 19 6 12 4 25 8 8 31 4 21 5 2 90 20 1 15 2 25 9 8 31 4 21 5 2 90 20 6 18 2 25 10 3 31 5 21 6 2 90 20 8 19 8 25 10 8 31 7 21 8 2 90 21 0 21 5 25 11 8 31 9 21 9 2 91 21 3 24 9 32 6 4 33 6 23 6 2 92 24 6 8 4 32 7 8 34 1 24 1 2 92 25 8 12 2 32 8 8 34 3 24 4 2 93 26 5 14 9 32 9 8 34 6 24 6 2 93 27 0 17 9 32 10 3 34 6 24 6 2 92 27 2 19 4 32 10 8 34 7 24 7 2 93 27 4 21 0 32 11 8 34 8 24 8 2 93 27 8 24 4 45 6 4 39 4 29 1 3 02 35 9 7 8 45 7 8 40 0 29 7 3 02 37 4 11 3 45 8 8 40 4 30 0 3 02 38 2 13 8 45 9 8 40 7 30 4 3 03 38 8 16 6 45 10 3 40 7 30 4 3 03 39 1 18 1 45 10 8 40 9 30 5 3 03 39 3 19 6 45 11 8 41 0 30 7 3 04 39 8 22 9 55 6 4 44 5 33 8 3 11 44 4 7 5 55 7 8 45 2 34 6 3 12 46 2 10 8 55 8 8 45 6 34 9 3 13 47 1 13 3 55 9 8 45 9 35 2 3 14 47 8 16 0 55 10 3 46 1 35 4 3 14 48 1 17 4 55 10 8 46 2 35 5 3 14 48 4 18 9 55 11 8 46 4 35 7 3 15 48 9 21 9 68 6 4 50 2 39 1 3 27 55 7 7 0 68 7 8 51 2 40 0 3 29 57 8 10 1 68 8 8 51 9 40 6 3 32 58 8 12 5 68 9 8 52 3 41 0 3 33 59 6 15 0 68 10 3 52 5 41 1 3 34 60 0 16 3 68 10 8 52 7 41 3 3 34 60 3 17 7 WSHP PRCO17H EN 79 e TRANE Performance Data Table 74 GEH042 heating performance co
190. more efficient to run Water source heat pumps with hot gas reheat should not be used as a make up air unit WSHP PRCO17H EN TRANE Application Considerations WSHP PRC017H EN Water source heat pump systems are used to provide comfort in a wide range of building types and climates The system utilizes energy conserving heat recovery capabilities to transfer heat from one area to another to meet individual zone requirements When used with system design and control strategies these high performance systems reduce operating costs for the building owner and improving occupant comfort Heat pump units are available in many different configurations and the design simplicity can be adapted to suit almost any building plan The vertical and horizontal water source heat pump system is versatile for installation in a boiler cooling tower applications as well as ground source geothermal applications Conventional water source heat pump system cooling tower horizontal WSHPs vertical stack vertical WSHPs WSHPs Boiler Cooling Tower In this type of system units are distributed throughout the building to provide cooling and heating to the space Units are connected to a water distribution loop which circulated water throughout the building to transfer heat from one area to another This common water loop yields what is essentially a heat recovery system Units providing heating extract heat from loop water while units provid
191. mpressor and water to refrigerant base pan DDC Controller option The UC400 and ZN524 controller shall utilize factory furnished and mounted DDC controls The DDC control package shall include a 75 VA transformer high and low pressure switch condensate overflow and freeze protection The controller shall provide random start delay heating cooling status occupied unoccupied mode fan status and filter maintenance options The controller shall be capable of a standalone application or as applied to a full building automation installation With this controller the unit shall be capable of a hot gas reheat for dehumidification boilerless control for electric heat waterside economizing and support of variable speed pump control applications Water to Refrigerant Heat Exchanger The water to refrigerant heat exchanger shall be of a high quality co axial coil for maximum heat transfer The copper or optional cupro nickel coil shall be deeply fluted to enhance heattransfer and minimize fouling and scaling The coil shall have a working pressure of 400 psig The factory shall provide rubber isolation to the heat exchanging device to enhance sound attenuation Water to Refrigerant Heat Exchanger and Suction Lines Insulated Option The water to refrigerant heat exchanger s water lines and refrigerant suction lines shall be insulated to prevent condensation at low temperatures below 60F degrees This is not a standard option This can be ad
192. ne features thermal expansion valves on every unit The operating range for the TXV is between 45 F and 110 F for cooling and between 25 F and 86 F for heating On systems that expect low water temperatures a waterside economizer can be employed to eliminate the need to operate the compressors and take full advantage of free cooling Water regulating valves are not recommended An isolation valve is recommended for use with the Axiom WSHP unit on systems utilizing variable water flow The isolation valve allows full water flow through the unit when the compressor is in operation When the compressor is off the valve closes and shuts off water flow to the unit allowing the system pumps to unload and operate more efficiently Isolation valves are typically provided as part of the hose kit and connect to the unit terminal block A variety of manual and automatic flow control kits including hoses are available as accessories for balancing a water source heat pump system For a complete product listing refer to the Hose Kit Accessories product catalog WSHP PRCO025 EN 21 e TRANE Model Number Description 12 5 Ton EH E O O 6 1 1 o 1 B O B R D O 1 0 0 0 0 1 0 0 123 4 5 6 7 8 Digits 1 3 Unit Configuration GEH Standard Efficiency Horizontal GEV Standard Efficiency Vertical Digit 4 Development Sequence E R 410A Digits 5 7 Nominal Capacity 006 Ton 030 2 Ton 009 34 Ton 036 3 Ton 012 2 1 Ton 042
193. ng I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 1520 0 955 0 876 1 001 0 986 1 061 1615 0 968 0 908 1 002 0 989 1 042 1710 0 979 0 937 1 002 0 993 1 026 1805 0 990 0 969 1 000 0 996 1 012 1900 1 000 1 000 1 000 1 000 1 000 2090 1 018 1 059 1 001 1 003 0 978 2185 1 026 1 089 1 001 1 010 0 970 2280 1 033 1 116 1 001 1 007 0 958 Table 92 GEH060 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 920 1 001 0 995 1 064 1 135 53 0 1 030 0 883 56 3 0 921 1 001 0 799 1 020 1 136 58 0 1 023 0 921 60 3 0 922 1 001 0 603 0 834 1 059 i 63 0 1 013 0 960 63 2 0 955 1 002 0 457 0 690 0 919 1 144 68 0 1 000 1 000 66 2 1 000 1 000 0 533 0 767 1 000 1 223 73 0 0 987 1 040 72 1 1 099 1 001 0 459 0 690 0 922 78 0 0 977 1 085 77 1 1 188 1 003 0 419 0 657 83 0 0 966 1 131 Note Sensible equals total capacity WSHP PRC017H EN 93 e TRANE Performance Data Table 93 GEVO60 cooling performance EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW as LWT Feet Head 45 9 1 68 1 48 5 0 71 3 46 80 0 62 6 8 0 45 11 2 68 7 48 8 0 71 3 36 80
194. nimum Overcurrent Electric Electric Model Unit RLA LRA No of Cmp Motor Motor Motor Circuit Protective Heat Heat No Volts FLA ea ea Comp MCC FLA hp Num Ampacity Device kW Amps GEHE GEVE 042 460 60 3 7 7 6 0 44 0 1 9 3 1 70 1 2 1 9 20 15 0 0 0 0 042 460 60 3 13 4 6 0 44 0 1 9 3 1 70 1 2 1 16 72 20 9 3 11 7 042 575 60 3 6 2 4 9 34 0 1 7 7 1 31 1 2 1 7 44 15 0 0 0 0 048 208 60 1 26 8 21 4 135 0 1 33 4 5 40 i 1 32 15 50 0 0 0 0 048 208 60 1 36 7 21 4 135 0 L 33 4 5 40 1 1 45 81 50 6 5 31 3 048 230 60 1 26 8 21 4 135 0 1 33 4 5 40 1 1 32 15 50 0 0 0 0 048 230 60 1 40 2 21 4 135 0 I 33 4 5 40 1 1 50 23 60 8 0 34 8 048 208 60 3 19 9 14 5 98 0 1 22 6 5 40 1 1 23 53 35 0 0 0 0 048 208 60 3 23 4 14 5 98 0 I 22 6 5 40 1 1 29 30 35 6 5 18 0 048 230 60 3 19 9 14 5 98 0 1 22 6 5 40 1 1 23 53 35 0 0 0 0 048 230 60 3 25 5 14 5 98 0 1 22 6 5 40 1 1 31 85 35 8 0 20 1 048 380 415 50 3 10 5 7 8 52 0 1 12 1 2 70 X 1 12 45 20 0 0 0 0 048 380 415 50 3 14 7 7 8 52 0 1 12 1 2 70 1 1 18 33 20 8 6 12 0 048 460 60 3 9 0 6 3 55 0 1 9 9 2 70 1 1 10 58 15 0 0 0 0 048 460 60 3 16 0 6 3 55 0 1 9 9 2 70 1 1 20 01 25 10 6 13 3 048 575 60 3 8 2 6 0 41 0 1 9 4 2 20 1 1 9 70 15 0 0 0 0 060 208 60 1 31 7 26 3 134 0 1 41 0 5 40 1 1 38 28 60 0 0 0 0 060 208 60 1 36 7 26 3 134 0 i 41 0 5 40 1 1 45 81 60 6 5 31 3 060 230 60 1 31 7 26 3 134 0 1 41 0 5 40 1 1 38 28 60 0 0 0 0 060 230 60 1 40 2 26 3 134 0 1 41 0 5 40 1 1 5
195. ns on the compressor for heating At this time the reversing valve moves to a de energized state In the event of a power failure or controller OFF situation the reversing valve output will default to the heating de energized state Entering Water Temperature Sampling The controller will sample the entering water temperature to determine proper control action for units equipped with boilerless electric heat or waterside economizer Waterside Economizer Entering water temperature EWT sampling will automatically occur at power up when the unit is equipped with a waterside economizer WSE The EWT is used to determine if economizing is feasible When the conditions are met the isolation valve s are driven open for three minutes and the EWT reading is taken The determination as to whether or not the economizer can be enabled will be made and the controller will take appropriate action The isolation valve will remain open regardless if the WSE or the DX cooling is enabled The unit s waterside economizer will contain a 2 position water valve wired to the controller The economizing water coil will be optimized to provide 10096 ofthe unit capacity at 80 6 F 66 2 F return air temperature with 45 F entering water The flow rate is established at 86 F entering water temperature and 96 F leaving water temperature Low leaving air protection will be furnished to protect the unit against delivering air that is cold enough to sweat discharge air gr
196. ns other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 2 8 Minimum cfm 304 Rated cfm 380 Maximum cfm 456 Table 35 GEV012 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 25 1 8 8 7 5 7 0 88 2 9 18 7 2 8 25 2 2 8 9 5 9 0 88 2 9 19 7 3 9 25 2 5 8 9 5 9 0 88 3 0 20 3 4 9 25 2 8 9 0 6 0 0 88 3 0 20 7 6 0 25 2 9 9 0 6 0 0 88 3 0 20 8 6 4 25 3 1 9 1 6 1 0 89 3 0 21 1 7 1 25 3 4 9 2 6 1 0 89 3 0 21 4 8 4 32 1 8 9 6 6 5 0 89 3 1 24 8 2 7 32 2 2 9 7 6 7 0 90 3 2 25 9 3 8 32 2 5 9 8 6 8 0 90 3 2 26 6 4 8 GLHP 32 2 8 9 9 6 9 0 90 3 2 27 1 5 8 32 2 9 10 0 6 9 0 90 3 2 27 2 6 2 32 3 1 10 0 6 9 0 90 3 3 27 5 6 9 32 3 4 10 1 7 0 0 90 3 3 27 9 8 1 45 1 8 11 4 8 2 0 92 3 6 35 9 2 2 45 2 2 11 6 8 4 0 92 3 7 37 3 3 1 45 2 5 11 7 8 6 0 92 3 7 38 1 3 8 45 2 8 11 8 8 7 0 93 3 7 38 8 4 7 45 2 9 11 8 8 7 0 93 3 7 39 0 5 0 45 3 1 11 9 8 7 0 93 3 8 39 4 5 6 45 3 4 12 0 8 8 0 93 3 8 39 8 6 5 55 1 8 12 7 9 5 0 94 4 0 44 4 2 1 55 2 2 13 0 9 8 0 94 4 0 46 1 3 0 continued on next page 44 WSHP PRCO17H EN e TRANE Performance Data Table 35 GEV012 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 2 5 13 1 9 9 0 95 4 1 47 1 3 7 55 2 8 13 2 10 0 0 95 4 1 47 8 4 5 55 2 9 13 3 10 1 0 95 4 1 48
197. ntinued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 68 11 8 53 0 41 6 3 34 60 9 20 6 75 6 4 54 0 42 5 3 38 61 7 6 8 75 7 8 55 3 43 6 3 42 63 9 9 9 75 8 8 56 0 44 2 3 44 65 0 12 1 75 9 8 56 7 44 8 3 47 65 8 14 6 75 10 3 56 9 45 0 3 48 66 2 15 9 75 10 8 57 1 45 2 3 48 66 6 17 2 75 11 8 57 3 45 4 3 49 67 3 20 1 86 6 4 60 6 48 2 3 63 70 9 6 5 86 7 8 62 1 49 5 3 68 73 4 9 5 86 8 8 62 7 50 1 3 71 74 6 11 6 86 9 8 63 4 50 6 3 74 75 7 14 0 86 10 3 63 7 50 9 3 75 76 1 15 2 86 10 8 63 9 51 1 3 76 76 5 16 5 86 11 8 64 2 51 3 3 78 71 3 19 2 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 17 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 9 3 Minimum cfm 960 Rated cfm 1200 Maximum cfm 1440 Table 75 GEH042 fan correction factors Cooling Input Heating Input Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 1064 0 955 0 873 0 996 0 989 1 070 1131 0 968 0 906 0 997 0 992 1 049 1197 0 980 0 936 0 998 0 996 1 031 1264 0 991 0 969 0 999 0 998 1 014 1330 1 000 1 000 1 000 1 000 1 000 1463 1 017 1 063 1 002 1 003 0 972 1530 1 025 1 093 1 003 1 005 0 961 1596 1 033 1 120 1 004 1 005 0 950
198. o energize allowing the high pressure refrigerant gas to flow from the 1 compressor through the 2 reheat valve into the 3 reversing valve orthrough An the 4 reheat coil for dehumidification A switching EQUALIZER LINE COMPR DXSCHARGE DISTRIBUTOR S EXPANSION VALVE WATER TO REFRIGERANT con relay has been provided for the reheat application to adjust the blower motor from normal operation to low speed when hot gas reheat is energized Note Trane places an air separation space between the air to refrigerant coil and the reheat coil to allow for maximum moisture removal 12 Common Reheat Applications The hot gas reheat option is designed to support building applications requiring fresh air ventilation units delivering unconditioned air directly to the space It also provides dehumidification to large latent load spaces such as auditoriums theaters and classrooms or anywhere humidity control is a problem Dos and Don ts in Design The factory installed hot gas reheat option is only available with Deluxe or ZN524 controls packages A high static blower motor option will be required to support the hot gas reheat option for the 1 2 5 ton equipment Water regulating valves should not be used with the hot gas reheat option Trane places a thermal expansion valve on all water source heat pumps as well as ground source heat pumps to regulate refrigerant flow vs water flow making the heat pump
199. olation is permissible Extrapolation is not Rated GPM 3 5 Minimum cfm 380 Rated cfm 475 Maximum cfm 570 Table 41 GEV015 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 25 2 2 10 8 7 2 1 05 3 0 18 5 3 6 25 2 8 11 0 7 4 1 06 3 0 19 7 5 5 25 3 1 11 0 7 4 1 06 3 1 20 2 6 5 25 3 5 11 2 7 5 1 06 3 1 20 7 8 1 25 3 6 11 2 7 6 1 06 3 1 20 8 8 5 25 3 8 11 2 7 6 1 06 3 1 21 0 9 3 25 4 2 11 3 7 7 1 06 3 1 21 4 11 1 32 2 2 11 7 8 1 1 07 3 2 24 7 3 5 32 2 8 12 0 8 3 1 08 3 3 26 1 5 3 32 3 1 12 1 8 4 1 08 3 3 26 6 6 3 GLHP 32 3 5 12 2 8 5 1 08 3 3 27 1 7 8 32 3 6 12 2 8 5 1 08 3 3 27 3 8 2 32 3 8 12 3 8 6 1 09 3 3 27 5 9 0 32 4 2 12 4 8 7 1 09 3 3 27 9 10 7 45 2 2 14 0 10 1 1 12 3 7 35 8 2 8 45 2 8 14 2 10 4 1 12 3 7 37 6 4 3 45 3 1 14 3 10 5 1 12 3 7 38 2 5 1 45 3 5 14 5 10 6 1 13 3 8 38 9 6 3 45 3 6 14 5 10 7 1 13 3 8 39 1 6 6 45 3 8 14 6 10 8 1 13 3 8 39 3 7 3 45 4 2 14 6 10 8 1 13 3 8 39 9 8 6 55 2 2 15 6 11 6 1 15 4 0 44 4 2 7 55 2 8 16 0 12 0 1 16 4 0 46 4 4 1 continued on next page 50 WSHP PRCO17H EN e TRANE Performance Data Table 41 GEV015 heating performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 3 1 16 1 12 1 1 16 4 1 47 2 4 9 55 3 5 16 3 12 3 1 16 4 1 48 0 6 1 55 3 6 16 3 12 3 1 16 4 1 48 2 6 4 55 3 8 16 4 12 4 1 16 4 1 48 5 7 0 55 4 2 16 5 1
200. omfort without operating the water source heat pump s compressor During economizer mode fluid enters the unit and passes by a water temperature sensing bulb Thistemperature sensing bulb determines whetherthe two position three way valve will directthe water through the waterside economizing coil and to the heat pump condenser or through the condenser only If the water temperature is 55 F or less fluid will flow into the economizing coil while simultaneously halting mechanical operation of the compressor Mechanical cooling will continue on a call for second stage from the thermostat Model GEH with waterside economizer package Note The factory built waterside economizer is available on all v to 5 ton GEH models WSHP PRC017H EN 11 e TRANE Features and Benefits Hot Gas Reheat System For space conditioning and climate control Trane provides an accurate and cost effective dehumidification control through a hot gas reheat omnes option A With this reheat option the return air from the space is conditioned by the air to refrigerant coil then reheated by the reheat coil to control not only the space temperature but to also reduce the relative humidity of the space The moisture removal capability of a specific heat pump is determined by the units latent capacity rating When operating in the reheat mode meaning the sensible temperature has been met in the space the humidistat signals the reheat relay coil t
201. ops as additional rooms or buildings are added to the system A cooling tower may be the solution to off load the peak demand of the new building addition as an example Other additions may include a requirement for fresh air ventilation A fresh air air handler along with a water to water unit may be introduced to the closed loop system to allow tempered fresh air into the building The buildings heating and cooling needs are not based off of one type of component but perform harmonious of each other Heat recovery from the loop itself can be shared with the other major components Hybrid systems can often make the system more economical opening up the possibility to reap the potential energy savings Hybrid system cooling tower gs SSSSSSSSsss or dry cooler i geothermal heat exchanger 4 M a bypass valve 15 e TRANE Application Considerations Central Pumping System Units that employ a central pumping system contain single or dual pumps to fulfill pumping requirements for the entire building system The central system s supply and return lines should be sized to handle the required flow with a minimum pressure drop The water source heat pump GEH may include add on accessories to help aid in system balancing acoustics and safety requirements Some of these items may be ordered from the factory then field installed Many are provided by the contractor CELING R CES
202. orizontal unit This field supplied insulation should be approximately twice the footprint size of the unit It provides sound damping of the unit while in operation WSHP PRCO17H EN e TRANE Application Considerations Distributed Pumping System A distributed pumping system contains either a single or dual pump module specifically sized for each water source heat pump then connected directly to the units supply and return lines The distributed system s supply and return lines should be sized to handle the required flow with a minimum pressure drop 7X Ruow MINIMUM OF O 1 4NCH BETWEEN GRIO AND RECESSED LIGHTING REFOR UNIT CLEARANCE 1 Hose kits are used to connect the water supply and return line to the water inlets and outlets Trane offers various hose kit combinations to better facilitate system flow balancing These flexible hoses also aid in the reduction of vibration between the unit and the rigid central piping system 2 The unit s item 2 34 inch high voltage and item 3 2 inch low voltage connections are located on the left chamfered corner of the unit They are designed to accept conduit 3 Afield supplied line voltage disconnect should be installed for branch circuit protection Check local codes for requirements 4 Trane s self contained pump module and hose kit make a complete pumping package for distributed pumping systems The module is designed for circulating commercial loops that require a maxim
203. perfect system balance for heat sharing or movement from one space to another But when water temperatures fall in a boilerless system and no further heat recovery may be made via the closed loop heat may be added to the space through a boilerless control electric heat option See Figure 2 for the boilerless control electric heat system diagram Figure 2 Boilerless control electric heat system COOLING TOWER CIRCULATING PUMP PLATE FRAME HEAT EXCHANGER BELOW 50 F ELECTRIC HEAT IS ENERGIZED ABOVE 60 F COMPRESSOR IS ENERGIZED With the boilerless electric heat option the heat pump encompasses an internal nichrome open wire heating element factory mounted and wired It is comprised of a single stage of electric heat designed to invoice an electric heater in place of the compressor in the event entering water temperature falls below 55 F or a field adjusted temperature setting between 25 F to 60 F e TRANE Features and Benefits What is NOT available with the boilerless electric heat option Hot gas reheat Basic 24V controls 115 and 575V ratings and supplemental or emergency heat applications Boilerless Control Electric Heat Heating Cooling Mode In heating mode when the water temperature falls below 55 F factory setting the electric heater is energized locking out the compressor The systems electric heat source will continue to be utilized for primary heating until the loop temperature rise
204. performance continued EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW COP LWT Feet Head 55 1 9 9 8 7 5 0 68 4 2 47 1 3 9 55 2 1 9 9 7 6 0 68 4 3 47 8 4 6 55 2 2 10 0 7 6 0 68 4 3 48 1 5 0 55 2 3 10 0 7 7 0 68 4 3 48 3 5 4 55 2 5 10 1 7 7 0 68 4 3 48 8 6 3 68 1 4 10 9 8 5 0 69 4 6 55 8 2 2 68 L7 11 2 8 8 0 69 4 7 57 7 3 1 68 1 9 11 3 8 9 0 70 4 7 58 6 3 7 WLHP 68 2 1 11 4 9 0 0 70 4 8 59 4 4 4 68 2 2 11 4 9 0 0 70 4 8 59 8 4 8 68 2 3 11 4 9 1 0 70 4 8 60 1 5 2 68 2 5 11 5 9 1 0 70 4 8 60 7 6 0 75 1 4 11 6 9 2 0 70 4 9 61 8 2 1 75 1 7 11 9 9 5 0 70 5 0 63 8 3 0 75 1 9 12 0 9 6 0 71 5 0 64 9 3 6 75 2 1 12 1 9 7 0 71 5 0 65 7 4 3 75 2 2 12 2 9 8 0 71 5 0 66 1 4 7 75 2 3 12 2 9 8 0 71 5 1 66 5 5 0 75 2 5 12 3 9 9 0 71 5 1 67 1 5 8 86 1 4 12 8 10 3 0 72 5 2 71 2 2 1 86 1 7 13 1 10 6 0 72 5 3 73 5 2 9 86 1 9 13 2 10 7 0 72 5 4 74 7 3 5 86 2 1 13 3 10 8 0 72 5 4 75 7 4 2 86 2 2 13 4 10 9 0 73 5 4 76 1 4 5 86 2 3 13 4 11 0 0 73 5 4 76 5 4 9 86 2 5 13 5 11 0 0 73 5 4 71 2 5 6 Notes Heating performance data is tabulated at 68 F DB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 2 1 Minimum cfm 228 Rated cfm 285 Maximum cfm 342
205. pump module 136 WSHP PRCO17H EN Control Wiring Figure 26 Basic 24V 460V 60 Hz 3 ph 460 60 3 tt ou 48 281 s Tm Pe u M LLL OUS EN as say P172 4 27 LLL n Le BM os 68 DEVICE PREFIX LOCATION CODE g PAS Say A 9 2 COMPRESSOR SECTON 3 INDOOR FAN AND COR SECTION w 4 WATER COIL SECTION S RETURN AND FRESH AIR SECTION EES Pe ay E n EE sr pos pressure cus 1 3 20 52 Row PRESSURE CUTOUT 4 a 12 e a m ake P1 5 1 5 MA 13 AB ol fo PI 6 1 6 2 14 Pi 3 ji 3 15 16 91 A 7A 7 ie p 18 2 P1 2 7 3 2 NOTE CONNECT 7A LEAD WITH 460 60 3 8A LEAD WHEN BLACK WIRE OF m MOTOR IS NOT BEING USED 20 1782 3 amp 4 21 26 z2 1K4 14 45 23 24 25 26 27 28 29 1K5 30 31 465 28151 By J2 4 J2 2 S 30 EO TT c 1K1 6 7 8 3 32 33 34 35 36 la c s 1781 5 1T81 6 38 39 SINGLE 1 40 STAGE Ts Room B R 4 T STAT 7 42 45 y 45 45 4 48 P q i INSET A A i 1 TE 49 1 ISOLATION VALVE 8174 i 1781 6 dm SET d Mon Leomon i AN WARNING EE HAZARDOUS VOLTAGE H ii
206. r For example if the water temperature stays in the desired range between 60 F 16 C and 90 F 32 C neither the boiler nor the cooling tower need to operate In applications such as office buildings heat generated by lights people and office equipment often results in the need to provide year round cooling in the interior zones of the building In these applications the benefit of this heat recovery further reduces boiler energy use during the winter months Ground Source The advantages of a geothermal heat pump system can literally cut business heating and cooling cost by 30 to 40 percent In this application the cooling tower and boiler are replaced with a ground heat exchanger The ground heat exchanger is a series of pipes buried in the earth The earth is used as an energy storage tank Ground source heat pump systems offer the potential for saving energy because they can reduce or eliminate the energy needed to operate a cooling tower and or boiler Eliminating the cooling tower has architectural and maintenance advantages and eliminating the boiler frees up floor space in the building Ground source heat pump system geothermal n J heat exchanger ff L WSHPs 71 ON N Sl RO N i v Ac The fluctuating temperatures of fluid from the earth are more stable than air allowing the equipment to operate at a lower discharge pressure and use fewer kilowatts The constant earth temperature will h
207. r at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 7 0 Maximum cfm 720 Rated cfm 900 Maximum cfm 1080 Table 63 GEV030 fan correction factors Cooling I nput Heating I nput Entering cfm Cooling Capacity Sensible Capacity Watts Heating Capacity Watts 720 0 956 0 876 1 005 0 989 1 075 765 0 968 0 910 1 004 0 993 1 054 810 0 979 0 941 1 001 0 997 1 036 855 0 990 0 969 1 001 1 002 1 020 900 1 000 1 000 1 000 1 000 1 000 990 1 017 1 060 0 999 1 008 0 976 1035 1 025 1 088 0 999 1 007 0 963 1080 1 033 1 116 0 999 1 008 0 952 70 WSHP PRCO17H EN e TRANE Performance Data Table 64 GEV030 correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Air WB F Capacity Watts 65 6 70 6 75 6 80 6 85 6 Air DB F Capacity Watts 49 4 0 922 1 009 0 992 1 061 1 131 53 0 1 030 0 868 56 3 0 924 1 009 0 800 1 013 1 132 58 0 1 021 0 911 60 3 0 926 1 009 0 612 0 837 1 055 63 0 1 010 0 954 63 2 0 956 1 008 0 467 0 694 0 922 1 138 68 0 1 000 1 000 66 2 1 000 1 000 0 545 0 775 1 000 1 214 73 0 0 988 1 049 72 1 1 0
208. rmance continued EWT GPM Total Mbtuh Sen Mbtuh SHR Power kW Hoah LWT Feet Head 105 6 4 36 0 29 5 0 82 4 02 49 7 120 6 5 7 105 7 8 36 2 29 7 0 82 3 93 49 6 117 6 8 3 105 8 8 36 3 29 8 0 82 3 88 49 5 116 2 10 2 105 9 8 36 4 29 9 0 82 3 85 49 5 115 1 12 3 105 10 3 36 4 29 9 0 82 3 83 49 5 114 6 13 4 105 10 8 36 4 29 9 0 82 3 82 49 5 114 2 14 5 105 11 8 36 5 30 0 0 82 3 80 49 5 113 4 16 9 110 6 4 34 9 29 1 0 84 4 25 49 4 125 5 5 7 110 7 8 35 1 29 3 0 84 4 16 49 3 122 6 8 2 110 8 8 35 2 29 4 0 84 4 11 49 2 121 2 10 1 110 9 8 35 3 29 5 0 84 4 07 49 2 120 0 12 1 110 10 3 35 3 29 5 0 84 4 06 49 2 119 6 13 2 110 10 8 35 4 29 6 0 84 4 04 49 2 119 1 14 3 110 11 8 35 4 29 6 0 84 4 02 49 1 118 4 16 7 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 9 8 Minimum cfm 1064 Rated cfm 1330 Maximum cfm 1596 Table 78 GEV042 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 6 4 30 4 20 8 2 82 18 5 8 0 25 7 8 30 9 21 2 2 82 19 6 11 7 25 8 8 31 1 21 4 2 83 20 1 14 4 25 9 8 31 2 21 6 2 83 20 6 17 2 25 10 3 31 3 21 6
209. rten job installation requirements The structural integrity of the design helps assure no bracket deflection or unit bowing from the unit s weight Field return air hook up and filter maintenance are more simplistic Isolation for the hanging bracket is provided with a neoprene rubber grommet design This isolation device helps prevent sound vibration from reaching the structural support members of the building during compressor start and stop e TRANE Features and Benefits Refrigeration Piping The unit s copper tubing is created from a 99 pure copper formation that conforms to the American Society of Testing ASTM B743 for seamless light annealed processing The unit s copper refrigeration system is designed to be free from contaminants and conditions such as drilling fragments dirt or oil This excludes the possibility of these contaminants from damaging the compressor motor Schrader Connections The connections for the low and high side of the refrigeration system are located directly beside the control box at the front service access panel Expansion Valve All Trane water source systems include an expansion valve flow metering device The thermal expansion valve TXV allows the unit to operate with an entering fluid temperature from 25 F to 110 E and entering air temperatures from 55 F to 95 F The valve is designed to meter refrigerant flow through the circuitry to achieve desired heating or cooling T
210. s above 60 F Once the entering water temperature rises above 60 F the boilerless controller returns the unit to normal compressor heating operation and locks out the electric heater This maximizes efficiency from the unit during the few days requiring heat from the mechanical system See Figure 3 for the factory mounted and wired boilerless control electric heat water source heat pump This is available as a single point power connection Figure 3 Boilerless control electric heat water source heat pump THERMAL EXPANSION VALVE ENTERING WATER SENSOR WATER IN si ELECTRIC HEATING COIL REVERSING VALVE 24V POWER AIR TO REFRIGERANT WATER TO REFRIG BM ELECTHT HEAT EXCHANGER HEAT EXCHANGER CONTACTOR COMPR CONTACTOR BOILERLESS CONTROLLER A boilerless controls option for field installed electric heat is also available In this application the heater shall be placed external to the equipment All power connections for the electric heater will be completely separate from the unit The unit contains boilerless controls to interface with the field provided electric heat Note For geothermal applications the boilerless controller has an adjustable setting of 25 35 45 55 and 60 Water Connections The water in water out connections to the co axial water coil are located on the right hand chamfered corner of the unit The fittings are mounted flush to the chamfered wall
211. s than with a single filtration system This design also offers maximum flexibility ofthe supply and return air configurations The maximum working pressure for both the GEH and GEV coils is 650 psig It is designed for maximum capacity with an additional benefit of physical unit size reduction Coil specifications for both GEH and GEV models may be found on in the General Data p 23 of this catalog Blower Housing The blower housing is constructed of non corrosive galvanized steel A factory mounted orifice ring is provided for ease of motor serviceability on the 17 5 ton direct drive units All air side panels are interchangeable with one another for ease offield convertibility ofthe supply air on the GEH model Cabinet Insulation The cabinet insulation design meets UL 181 requirements The air stream surface of the insulation is fabricated of a non biodegradable source Compressor and Co axial Coil Isolation Vibration isolation of the compressor and co axial water coil is accomplished by increasing the rigidity and stiffness at the base The platform provides double isolation to the compressor and single isolation to the co axial water coil for additional attenuation during compressor start and stop Design Advantages The horizontal and vertical configurations range in capacities from 2 5 tons The innovative designs offers superior field flexibility at the jobsite along with service accessibility 4 WSHP PRCO17H EN
212. ssor enclosure 18 gauge single wall front panel 16 gauge single wall front panel lined compressor enclosure with 12 inch cabinet insulation lined compressor enclosure with 12 inch cabinet insulation 12 gauge compressor water to refrigerant heat exchanger pan with second 12 gauge compressor water to refrigerant heat exchanger pan stage of vibration isolation with second stage of vibration isolation compressor vibration isolation compressor vibration isolation water to refrigerant heat exchanger vibration isolation water to refrigerant heat exchanger vibration isolation lengthwise unit base stiffeners lengthwise unit base stiffeners 3 32 inch foam gasket sealant placed around the perimeter Boilerless Control Electric Heat option WSHP PRC017H EN In cooling dominant regions where heat may be used 15 to 30 days out of the winter season eliminating the boiler may be an economical advantage to the building owner Eliminating a boiler from the system reduces costs associated with the mechanical system installation as well as the maintenance and service of the boiler How can heat be provided for the few days of the year when heat is necessary Through the water source heat pump of course The advantage of the water source heat pump is it s ability to provide heat recovery within the closed water loop While some WSHPs may be extracting heat from the closed water loop otherWSHPs may be adding heat to the closed water loop This creates a
213. standby situation the controllers heating and cooling setpoints are usually wider than the occupied setpoints This occupied standby operation is used during daytime hours when people are not present in the space such as lunchtime or recess To determine the space occupancy an occupancy sensor is applied In an unoccupied situation the controller assumes the building is vacant which normally falls in evening hours when a space may be empty In the unoccupied mode the controller usesthe default unoccupied heating and cooling setpoints stored in the controller When the building is in unoccupied mode individual units may be manually placed into timed override of the unoccupied mode at the units wall sensor During timed override the controller interprets the request and initiates the occupied setpoint operation then reports the effective occupancy mode as occupied bypass In the occupied bypass mode the controller applies the occupied heating and cooling setpoint for a 120 minute time limit Random Start To prevent all ofthe units in a building from energizing major loads atthe same time the controller observes a random start from 0 to 25 seconds This timer halts the controller until the random start time expires WSHP PRCO17H EN WSHP PRC017H EN e TRANE Controls Reversing Valve Operation For cooling the reversing valve output is energized simultaneously with the compressor It will remain energized until the controller tur
214. t of head At 30 Propylene Glycol the correction factor for heat capacity is 0 9603 and the pressure drop is 1 174 The corrected cooling capacity Mbtuh 36 7 0 9603 35 2 The corrected water side pressure drop Ft head 16 1 1 174 18 9 WSHP PRCO17H EN TRANE Electrical Data Table 103 Electrical data standard static motors 2 5 tons Maximum Total Comp Comp Blower Blower Fan Minimum Overcurrent Electric Electric Model Unit RLA LRA No of Cmp Motor Motor Motor Circuit Protective Heat Heat No Volts FLA ea ea Comp MCC FLA hp Num Ampacity Device kW Amps GEHE GEVE 006 115 60 1 6 8 5 6 30 0 1 7 5 1 20 1 12 1 8 20 15 0 0 0 0 006 208 60 1 3 9 3 3 14 0 1 4 2 0 60 1 12 1 4 73 15 0 0 0 0 006 208 60 1 4 5 3 3 14 0 1 4 2 0 60 1 12 i 5 68 15 0 8 3 9 006 230 60 1 3 8 3 2 15 0 1 4 2 0 60 1 12 1 4 60 15 0 0 0 0 006 230 60 1 4 9 3 2 15 0 1 4 2 0 60 1 12 1 6 18 15 1 0 4 3 006 220 240 50 1 3 4 2 9 17 0 1 4 0 0 52 1 12 1 4 15 15 0 0 0 0 006 220 240 50 1 7 4 2 9 17 0 1 4 0 0 52 1 12 1 9 19 15 1 6 6 8 006 265 60 1 3 0 2 5 11 0 1 3 5 0 52 1 12 1 3 65 15 0 0 0 0 006 265 60 1 2 5 2 5 11 0 1 3 5 0 52 1 12 1 6 92 15 1 3 5 0 009 115 60 1 7 6 6 4 36 0 1 8 6 1 20 1 12 1 9 20 15 0 0 0 0 009 208 60 1 4 3 3 7 16 0 1 4 8 0 60 1 12 1 5 23 15 0 0 0 0 009 208 60 1 6 5 317 16 0 1 4 8 0 60 1 12 1 8 14 15 1 2 5 9 009 230 60 1 4 1 3 5 17 0 1 4 8 0 6
215. t or through a momentary main power interruption Ahigh pressure switch shall protect the compressor against operation at refrigerant system pressures exceeding 650 psig e Factory installed wire harness shall be available for the Basic Deluxe ZN524 and UC400 control packages Nameplate information shall be provided for the application of either time delay fuses or HACR circuit breakers for branch circuit protection from the primary source of power WSHP PRCO17H EN WSHP PRC017H EN e TRANE Mechanical Specifications Electric Heat option Internal boilerless control electric heat shall be factory wired and tested It shall be composed of a nichrome open wire coil designed for 2 kW per unit ton The design consist of a single stage of electric heat used as a primary heating source when compressor lockout has occurred due to the entering water temperature falling below 55 F with an adjustable range between 25 F to 60 F The electric heat option is not intended for secondary heat All power connections to the electric heat shall be made in the equipment s control box External boilerless electric heat control option is composed of a control interface for a field provided electric heat The heater is placed external to the unit by the installer Power connection to the electric heat is separate from the unit Filters Units come standard with a flat filter rack for non ducted return air applications One inch throwaway filters ar
216. to help limit shipping damage The water connection devices are constructed of copper material and include a National Female Pipe Thread NFPT junction The connections are attached to the unit s chamfer corner to alleviate the need for a back up wrench during installation 10 WSHP PRCO17H EN e TRANE Features and Benefits Waterside Economizer option The beauty of the waterside economizer is it s ability to take advantage of any loop condition that results in cool water temperatures A prime example would be during fall winter and spring when cooling towers have more capacity than required and could be controlled to lower temperatures for economizer support Another more common inexpensive means of free comfort cooling includes buildings systems where perimeter heating and core cooling are needed In this system the perimeter units extract heat from the building loop while in the heating mode forcing the building loop temperature to drop Where as the core are of a building may require cooling in summer or in winter based upon lighting people and equipment Waterside economizer system COOLING TOWER CIRCULATING 7 PUMP OFF 3 WAY VALVE in by pass PLATE FRAME HEAT EXCHANGER in by pass mode Ifthe water source system design contained an economizing coil option the moderate temperature loop water circulated through a core water source system can provide an inexpensive means to satisfy room c
217. uipment to enable panel removal from the unit for service maintenance ability Local and or NEC codes require greater service clearance Check all code requirements prior to unit installation Installer is responsible for following all local and NEC code requirements 1 E J M TOP BLOWER ACCESS COMP CONTROL ACCESS w o WCI mounting location HI VOLT 9 1 e 12 241 6305 LOW VOLT LEFT SIDE FRONT RIGHT SIDE Table 116 Dimensional data right return back supply W I W O Drain Unit A B Cc D E F G H J K L M NPTI NPTI FPT 1 3 4 006 015 19 1 2 31 1 4 21 1 2 11 1 2 102 006 009 44 006 009 9 3 2 15 17 6 7 8 8 3 4 1 2 1 2 3 4 495 794 546 292 g amp aT 241 381 432 175 203 19 13 13 19 152 012 015 32 012 015 9 3 4 018 024 21 1 2 39 1 4 21 1 2 13 1 2 4 3 7 8 9 1 2 23 3 4 17 8 1 4 248 374 3 4 3 4 3 4 030 546 997 546 343 102 98 241 603 432 368 31 38 19 19 19 19 289 24 1 2 41 7 8 26 1 2 18 1 7 8 9 y2 19 23 10 1 2 13 1 2 1 3 4 3 4 3 4 3 4 036 042 622 1064 673 457 3 4 4 83 48 241 483 584 267 343 a9 a9 19 a9 26 1 2 46 7 8 30 1 2 18 2 9 1 2 29 27 7 8 13 7 8 13 7 8 1 2 1 1 3 4 Std 048
218. ulated Data shown is for unit performance only Interpolation is permissible Extrapolation is not Rated GPM 8 4 Minimum cfm 912 Rated cfm 1140 Maximum cfm 1368 WSHP PRC017H EN 75 e TRANE Performance Data Table 70 GEV036 heating performance EWT GPM Htg Cap Mbtuh Absorb Mbtuh Power kW LWT Feet Head 25 5 5 27 6 18 6 2 61 18 2 6 6 25 6 7 27 9 19 0 2 61 19 3 9 5 25 7 6 28 2 19 2 2 62 19 9 11 8 25 8 4 28 3 19 4 2 62 20 4 14 3 25 8 8 28 4 19 5 2 62 20 6 15 6 25 9 2 28 5 19 5 2 63 20 8 16 9 25 10 1 28 6 19 7 2 63 21 1 19 6 32 5 5 30 2 21 2 2 66 24 2 6 5 32 6 7 30 8 21 7 2 67 25 5 9 4 32 7 6 31 0 21 9 2 67 26 2 11 6 32 8 4 31 3 22 1 2 68 26 7 14 0 32 8 8 31 3 22 2 2 68 27 0 15 3 32 9 2 31 3 22 2 2 67 27 2 16 6 32 10 1 31 5 22 4 2 67 27 6 19 2 45 5 5 35 8 26 4 2 74 35 3 6 1 45 6 7 36 4 27 0 2 75 37 0 8 8 45 7 6 36 6 27 2 2 75 37 8 10 8 45 8 4 36 9 27 5 2 76 38 5 13 0 45 8 8 37 0 27 6 2 76 38 7 14 2 45 9 2 37 1 27 6 2 76 39 0 15 4 45 10 1 37 2 27 8 2 77 39 5 18 0 55 5 5 40 3 30 7 2 84 43 8 5 8 55 6 7 41 0 31 3 2 85 45 7 8 4 55 7 6 41 3 31 6 2 85 46 6 10 4 55 8 4 41 6 31 9 2 86 47 4 12 5 55 8 8 41 7 31 9 2 86 47 8 13 7 55 9 2 41 9 32 1 2 86 48 1 14 8 55 10 1 42 1 32 3 2 87 48 6 17 2 68 5 5 45 9 35 7 2 99 54 9 5 5 68 6 7 46 9 36 7 3 01 57 1 7 9 68 7 6 47 5 37 1 3 03 58 2 9 8 68 8 4 47 6 37 3 3 02 59 1 11 8 68 8 8 47 8 37 4 3 03 59 5 12 8 68 9 2 47
219. um flow rate of 20 gpm Each pump module is fully assembled for connection to water and electrical points The kit contains all of the necessary components for the installation operation and maintenance of a closed loop application See WSHPC IN 5 72 9006 03 for electrical and dimensional requirements 5 Thedistributed pumping system supply and return lines should be sized to handle the required flow with a minimum pressure drop Note Pipe will sweat if low temperature water is below the dew point of the surrounding space Trane recommends that these lines be insulated to prevent damage from condensation when condenser loop is designed to be below 60 F Equipment installed in attic crawl space temperatures below 40 F may require antifreeze in the water loop 6 For acoustically sensitive areas a six inch deep fiberglass insulation is recommended to be field installed below the horizontal unit This field supplied insulation should be approximately twice the footprint size of the unit It provides sound damping of the unit while in operation WSHP PRC017H EN 17 e TRANE Application Considerations Installation of the 12 5 Ton Vertical Whether securing the 2 5 ton GEV to a central pumping system or a distributed pumping system Trane recommends a few accessory considerations to the system installation CAPPED VENTED The field supplied line voltage disconnect 1 should be installed for branch circuit prote
220. wer kW PUR LWT Feet Head 86 4 5 23 7 18 1 0 77 1 91 30 2 99 5 7 1 86 5 0 23 8 18 2 0 77 1 89 30 2 98 0 8 7 86 5 6 23 8 18 3 0 77 1 87 30 2 96 8 10 4 86 5 9 23 8 18 3 0 77 1 86 30 2 96 3 11 3 86 6 2 23 9 18 3 0 77 1 85 30 2 95 8 12 2 86 6 7 23 9 18 3 0 77 1 84 30 2 95 0 14 3 95 3 6 22 6 17 7 0 78 2 18 30 0 111 5 5 0 95 4 5 22 7 17 8 0 78 2 12 30 0 108 4 7 0 95 5 0 22 8 17 9 0 78 2 10 30 0 106 9 8 5 95 5 6 22 9 17 9 0 78 2 07 30 0 105 7 10 2 95 5 9 22 9 17 9 0 78 2 07 30 0 105 2 11 0 95 6 2 22 9 18 0 0 78 2 06 30 0 104 7 12 0 95 6 7 23 0 18 0 0 78 2 04 29 9 103 9 13 9 105 3 6 21 4 17 3 0 81 2 44 29 7 121 3 5 1 105 4 5 21 6 17 4 0 81 2 38 29 7 118 3 7 1 105 5 0 21 6 17 4 0 81 2 35 29 7 116 8 8 5 105 5 6 21 7 17 5 0 81 2 33 29 7 115 6 10 1 105 5 9 21 7 17 5 0 81 2 32 29 6 115 1 10 9 105 6 2 21 7 17 5 0 81 2 31 29 6 114 6 11 8 105 6 7 21 8 17 6 0 81 2 30 29 6 113 8 13 7 110 3 6 20 7 17 0 0 82 2 59 29 6 126 2 5 2 110 4 5 20 9 IZL 0 82 2 52 29 5 123 2 7 2 110 5 0 21 0 17 2 0 82 2 50 29 5 121 7 8 6 110 5 6 21 1 17 3 0 82 2 47 29 5 120 5 10 1 110 5 9 21 1 17 3 0 82 2 46 29 5 120 0 10 9 110 6 2 21 1 17 3 0 82 2 45 29 5 119 6 11 8 110 6 7 21 1 17 3 0 82 2 43 29 4 118 8 13 6 Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at ARI ISO 13256 1 rated cfm For ARI ISO 13256 1 certified ratings see Table 18 p 27 See Performance correction tables to correct performance at conditions other than those tabulat
221. wheel e ON and CANCEL buttons e Fan switch AUTO OFF e X13511527010 Zone Sensor e Tracer ZN524 and UC400 compatible e External setpoint adjustment wheel e ON and CANCEL buttons o X13511529010 Zone Sensor e Tracer ZN524 and UC400 compatible e External setpoint adjustment wheel e X1379044401 Zone Sensor 132 e Tracer ZN524 and UC400 compatible Temperature and relative humidity sensor WSHP PRCO17H EN WSHP PRC017H EN e TRANE Thermostats and Zone Sensors Table 119 Wireless zone sensor selection for use with the UC400 controller Sensor Part Number Description X1379082201 Universal Display Sensor e Clear and simple monitoring and control E e Tracer UC400 Compatible C X13790492 Wireless Zone Sensor e Local control e Limited occupant temp control e Timed occupancy overrides o X13790821 Wireless Zone Sensor Simplicity e Eliminates local temperature control when higher control level is required e WCI UC400 compatible e Provides wireless communication between the Tracer SC Tracer Unit Controllers and BACnet Communication Interface BCI modules 133 e TRANE Accessories Ducted Panel Figure 23 Return air duct panel The return air arrangement may be easily converted from a free return air system to a ducted return air system with the addition of a return air side panel By replacing the filter racks with the return air panel a complete

Trane H-V WSHP .5 to 25 Tons Catalogue

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