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Trane Vertical Stack WSHP Catalogue
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1. Performance Data Table 12 GET 018 heating performance continued Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 45 3 6 17 2 13 3 1 13 37 6 8 7 45 4 2 17 4 13 6 1 13 38 5 11 4 45 4 6 17 6 13 7 1 14 39 1 13 4 45 5 0 17 7 13 8 1 14 39 5 15 5 45 5 3 17 7 13 9 1 14 39 7 16 9 55 2 3 18 5 14 5 1 16 42 1 3 7 55 2 9 19 1 15 1 1 17 44 6 5 7 55 3 6 19 6 15 6 1 18 46 4 8 4 55 4 2 19 9 15 8 1 18 47 5 11 0 55 4 6 20 0 15 9 1 18 48 1 12 9 55 5 0 20 1 16 1 1 19 48 6 14 9 55 5 3 20 2 16 1 1 19 48 9 16 2 68 2 3 21 3 17 2 1 21 52 7 3 5 68 2 9 22 2 18 0 1 22 55 6 5 5 68 3 6 22 6 18 5 1 22 57 7 8 0 68 4 2 22 9 18 7 1 23 59 1 10 5 68 4 6 23 0 18 8 1 22 59 8 12 3 68 5 0 23 2 19 0 1 23 60 4 14 2 68 5 3 23 3 19 1 1 23 60 7 15 5 75 2 3 22 9 18 7 1 23 58 4 3 4 75 2 9 23 7 19 5 1 24 61 6 5 4 75 3 6 24 2 20 0 1 24 63 9 7 8 75 4 2 24 5 20 3 1 24 65 4 10 2 75 4 6 24 6 20 4 1 24 66 1 12 0 75 5 0 24 8 20 6 1 24 66 8 13 9 75 5 3 24 9 20 7 1 24 67 1 15 1 77 2 3 23 4 19 1 1 24 60 0 3 4 77 2 9 24 2 19 9 1 25 63 3 5 3 77 3 6 24 6 20 4 1 24 65 7 7 8 77 4 2 25 0 20 7 1 25 67 1 10 2 77 4 6 25 1 20 9 1 24 67 9 11 9 77 5 0 25 2 21 0 1 24 68 6 13 8 77 5 3 25 3 21 0 1 24 69 0 15 0 86 2 3 25 2 20 9 1 26 67 4 3 3 86 2 9 26 0 21 7 1 25 71 0 5 2 86 3 6 26 4 22 2 1 25 73 7 7 5 86 4 2 26 7 22 5 1 24 75 3 9 9 86 4 6 26 8 22 6 1 24 76 2 11 6 86 5 0 26 9 22 7 1 24 76 9 13 4 86 5 3 27 0 22 8 1 23 77 3 14 6 Notes Heating p
2. ALL RISERS ARE CAPPED ATTHE CABINET RUN OUTS SYSTEM SUPPLY IS FROM THETOP OR BOTTOM DRAIN RISER IS CAPPED AT THE CABINET RUN OUT BOTTOM SUPPLY AND RETURN RISERS ARE PIPED WITH OPENTOP FOR VENTING OR FLUSHING TOP SUPPLY AND RETURN RISERS SYSTEM SUPPLY IS FROMTHE TOP OR BOTTOM TOP OR BOTTOM SUPPLY AND RETURN RISERS ARE OPEN AT THETOP FOR SUPPLYING WATER TO OTHER UNITS BOTTOM SUPPLYTO UNITS OPEN ATTHE TOP FOR VENTING OR FLUSHING OFTHE SYSTEM SYSTEM SUPPLY IS FROM THE BOTTOM CAPPED SUPPLY AND RETURN PIPING OPEN DRAIN FOR VENTING TO ROOF OR CONDENSATE REMOVAL FROM OTHER EQUIPMENT SYSTEM SUPPLY IS FROMTHE TOP CAPPED SUPPLY AND RETURN PIPING Factory installed risers are only available as shown in Figure 11 p 46 Modification to the factory riser may be required in the field to fit the contractor s riser schedule Riser location and appropriate hose length for ease of service is an important factor during unit installation Recommended hose length per riser location includes e 2 hose All riser locations Trapping the main condensate riser is recommended but not mandatory as the unit condensate line is trapped internal to the equipment 46 WSHP PRCO20D EN Dimensional Data Figure 12 Supply air arrangements R S D FRONT BACK SUPPLY AIR 009 012 10 W X 6 H 015 024 z 14 W X 12 H 036 16 W X 14 H R S D 0 0 9 FRONT LEFT SUPPLY A
3. 4 Application Considerations 7 SEIEGIUON PTOCEJUFES 5 lt take 13 Model Number Descriptions 14 General Data a a audes 3n eec RES ODES Pac eed OES 16 Performance Data 17 Unit Fan Performance 38 aso io Oh Soe BO Eee 42 Dimensional 43 eon 51 Deluxe 24V Electronic Controls 51 Deluxe 24V features include 51 Tracer ZN510 functions include 53 Thermostats and Zone Sensors 55 PCCCSSONCS 2525 3 9 4 OE ded dE R a d douce X OR EYE p a d Rr CAO d P dad 56 Mechanical Specification su i dco iro Y c eno Ec oun dr oon eee ce o ewe 57 3 TRANE Features and Benefits Unit Description The vertical high rise water source heat pump is a floor mounted configuration available ina34ton 1 ton 1 ton 1 ton 2 ton and 3 ton sizes The unit cabinet may be ordered for early shipment to aid in early installation of drywall plumbing and electrical
4. 464 556 566 955 778 730 690 1420 1222 1155 998 30 KW 0 121 0 107 0 175 0 139 0 151 0 227 0 324 0 392 0 293 0 280 0 258 0 686 0 582 0 568 0 480 0 35 CFM 288 558 455 444 785 537 544 920 754 710 671 1396 1202 1122 0 118 0 170 0 135 0 147 0 330 0 221 0 318 0 382 0 285 0 274 0 252 0 674 0 572 0 555 CFM 518 676 70 KW 0 291 0 299 1206 0 588 1055 0 498 1 10 CFM KW 900 0 481 984 0 472 0 75 CFM KW 649 0 287 1175 0 575 1031 0 486 a The NO Ducted option is for non ducted free return units Units specified as non ducted free return are factory wired to low speed Units specified as ducted are factory wired to high speed 38 WSHP PRCO20D EN Table 20 ECM Blower motor external static pressure without return air door RAD with filter Model Speed External Static Pressure in of wg 0 00 0 05 0 10 0 15 0 20 0 25 0 30 0 35 0 40 0 45 0 50 0 55 Profile kW A GET 009 C D A B GET 012 C D A B GET 015 C D A B GET 018 024 036 374 0 025 344 0 023 313 0 021 285 0 017 487 0 027 442 0 025 403 0 023 368 0 019 594 0 062 540 0 044 486 0 032 432 0 025 712 0 097 648 0 077 584 0 056 522 0 039 903 0 100 827 0 081 746 0 060 659 0 041 1293 0 285 1178 0 214 1063 0 158 950 0 117 kW
5. 77 4 2 19 2 15 6 0 81 22 7 1 03 87 8 10 2 77 4 6 19 2 15 6 0 81 22 7 1 02 86 9 11 9 77 5 0 19 2 15 6 0 81 22 6 1 01 86 1 13 8 77 5 3 19 2 15 6 0 81 22 6 1 00 85 6 15 0 86 2 3 18 6 15 3 0 83 22 9 1 26 106 3 3 3 86 2 9 18 6 15 4 0 83 22 7 1 21 101 7 5 2 86 3 6 18 6 15 4 0 82 22 6 1 17 98 6 7 5 86 4 2 18 6 15 4 0 82 22 6 1 15 96 7 9 9 86 4 6 18 7 15 4 0 82 22 6 1 14 95 8 11 6 86 5 0 18 7 15 4 0 82 22 5 1 13 95 0 13 4 86 5 3 18 7 15 4 0 82 22 5 1 13 94 6 14 6 95 2 3 17 9 15 1 0 84 22 7 1 41 115 2 3 0 95 2 9 18 0 15 1 0 84 22 6 1 35 110 6 4 8 95 3 6 18 0 15 1 0 84 22 5 1 32 107 5 7 0 95 4 2 18 0 15 2 0 84 22 4 1 30 105 7 9 1 95 4 6 18 0 15 2 0 84 22 4 1 28 104 7 10 7 95 5 0 18 0 15 2 0 84 22 4 1 28 104 0 12 4 95 5 3 18 0 15 2 0 84 22 4 1 27 103 5 13 6 WSHP PRC020D EN 27 TRANE Performance Data Table 11 GET 018 cooling performance continued Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kw LWT feet head 105 2 3 17 2 14 9 0 86 22 7 1 60 125 2 2 9 105 2 9 17 2 14 9 0 86 22 5 1 54 120 5 4 6 105 3 6 17 3 14 9 0 86 22 4 1 50 117 4 6 8 105 4 2 17 3 14 9 0 86 22 3 1 47 115 6 8 9 105 4 6 17 3 14 9 0 86 22 3 1 46 114 7 10 4 105 5 0 17 3 14 9 0 86 22 2 1 45 113 9 12 1 105 5 3 17 3 14 9 0 86 22 2 1 45 113 5 13 2 115 2 3 16 5 14 6 0 89 22 7 1 83 135 2 2 9 115 2 9 16 5 14 6 0 88 22 5 1 76 130 5 4 5 115 3 6 16 5 14 6 0 89 22 3 1 72 127 4 6 6 115 4 2 16 5 14 6 0 89 22 2 1 69 125 6 8 7 115 4 6 16 5 14 6 0 8
6. PSC Motor 230 60 1 4 1 3 5 17 0 0 60 1 20 4 98 15 265 60 1 3 3 2 8 13 0 0 50 1 20 4 00 15 GET 009 208 60 1 4 3 3 7 16 0 0 55 1 3 5 18 15 ECM Motor 230 60 1 4 1 3 5 17 0 0 55 1 3 4 93 15 265 60 1 3 4 2 8 13 0 0 55 1 3 4 05 15 208 60 1 7 0 6 3 30 0 0 70 0 13 8 58 15 PSC Motor 230 60 1 7 0 6 3 30 0 0 70 0 13 8 58 15 265 60 1 5 6 5 0 23 0 0 60 0 13 6 85 15 GET 012 208 60 1 6 9 6 3 30 0 0 60 1 3 8 48 15 ECM Motor 230 60 1 6 9 6 3 30 0 0 60 1 3 8 48 15 265 60 1 5 6 5 0 23 0 0 60 1 3 6 85 15 208 60 1 8 6 7 9 36 0 0 70 1 8 10 58 15 PSC Motor 230 60 1 8 6 7 9 36 0 0 70 1 8 10 58 15 265 60 1 7 0 6 4 30 0 0 60 1 8 8 60 15 GET 015 208 60 1 8 5 7 9 36 0 0 60 1 2 10 48 15 ECM Motor 230 60 1 8 5 7 9 36 0 0 60 1 2 10 48 15 265 60 1 7 0 6 4 30 0 0 60 1 2 8 60 15 208 60 1 10 3 9 6 42 0 0 70 1 8 12 70 20 Discharge 230 60 1 10 3 9 6 42 0 0 70 1 8 12 70 20 8 3 7 7 35 0 0 60 1 8 10 23 15 208 60 1 10 2 9 6 42 0 0 60 1 2 12 60 20 018 ECM Motor 230 60 1 10 2 9 6 42 0 0 60 1 2 12 60 20 265 60 1 8 3 7 7 35 0 0 60 1 2 10 23 15 208 60 1 11 3 9 6 42 0 1 70 1 5 13 70 20 Ducted PSC Motor 230 60 1 11 3 9 6 42 0 1 70 1 5 13 70 20 265 60 1 8 8 7 7 35 0 1 10 1 5 10 73 15 208 60 1 15 7 13 5 58 3 2 20 1 3 19 08 30 PSC Motor 230 60 1 15 7 13 5 58 3 2 20 1 3 19 08 30 265 60 1 10 8 9 0 54 0 1 80 1 3 13 05 20 GET 024 208 60 1 14 5 13 5 58 3 0 95 1 2 17 83 30 ECM Motor 230 60 1 14 5 13 5 58 3 0 95 1 2 17 83 30 265 60 1 10 0 9 0 54 0 0 95 1 2 12 20 20 208
7. TRANE Product Catalog Water Source Heat Pump Axiom High Efficiency Vertical Stack GET 3 Tons 60 Hz November 2013 WSHP PRCO20D EN R TRANE Introduction Water Source Vertical High Rise The 3 4 ton through 3 ton vertical high rise water source heat pump is a floor mounted furred in unit designed to be hidden from view behind drywall to blend with the room s natural decor In multi story buildings the units may be stacked one on top of the other to minimize piping and electrical costs Supply return and condensate riser piping may be factory mounted to simplify job site installation of the equipment The high rise configuration is often used in hotels dorms and assisted living facilities where a single unit could provide comfort to a single or multiple room dwelling Because the units are mounted directly in the space ductwork is optional All water source heat pumps are commissioned tested and quality certified prior to leaving the factory This assures global quality standards from controls water refrigeration and aesthetics to the building owner and installing contractor Key features of the water source vertical stack heat pump include 1 Removable replaceable chassis 8 the front high and low pressure service ports accessible 2 Ducted and free discharge cabinet selections available Tamper proof hinged acoustical door option 3 Fa
8. 05 42 7 5 4 55 5 8 35 7 28 7 2 05 45 1 8 4 55 7 1 36 2 29 2 2 05 46 8 12 0 55 8 4 36 6 29 6 2 05 48 0 16 1 55 9 1 36 7 29 7 2 05 48 5 18 5 55 9 8 36 8 29 8 2 05 48 9 21 1 55 10 5 36 9 29 9 2 05 49 3 23 8 68 4 5 40 1 32 8 2 13 53 4 5 2 68 5 8 41 2 33 9 2 14 56 3 8 0 68 7 1 41 8 34 5 2 13 58 3 11 5 68 8 4 42 2 34 9 2 13 59 7 15 4 68 9 1 42 3 35 0 2 13 60 3 17 7 68 9 8 42 5 35 2 2 13 60 8 20 1 68 10 5 42 6 35 3 2 13 61 3 22 7 75 4 5 42 9 35 5 2 17 59 2 5 0 75 5 8 44 2 36 8 2 19 62 3 7 9 75 7 1 44 9 37 5 2 19 64 5 11 2 75 8 4 45 4 37 9 2 19 66 0 15 0 75 9 1 45 5 38 0 2 18 66 6 17 3 75 9 8 45 6 38 1 2 19 67 2 19 7 75 10 5 45 7 38 2 2 18 67 7 22 2 77 4 5 43 8 36 3 2 19 60 9 5 0 77 5 8 45 1 37 6 2 20 64 0 7 8 77 7 1 45 8 38 3 2 21 66 2 11 1 77 8 4 46 2 38 7 2 20 67 8 14 9 77 9 1 46 4 38 8 2 20 68 5 17 2 77 9 8 46 5 38 9 2 20 69 1 19 5 WSHP PRCO20D EN 35 TRANE Performance Data Table 16 GET 036 heating performance continued Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 77 10 5 46 6 39 0 2 20 69 6 22 0 86 4 5 47 7 39 9 2 27 68 3 4 9 86 5 8 49 1 41 3 2 29 71 8 7 6 86 7 1 49 9 42 1 2 30 74 2 10 8 86 8 4 50 3 42 5 2 30 75 9 14 5 86 9 1 50 5 42 6 2 30 76 6 16 7 86 9 8 50 6 42 7 2 30 77 3 19 0 86 10 5 50 6 42 8 2 30 77 9 21 4 Notes Heating performance data is tabulated at 68 F DB entering air at AHRI ISO 13256 1 rated cfm See Performance correction tables to correct performance at condi
9. 120 8TDD11 120 8TDD11 0 75 0 368 16 WSHP PRCO20D EN Performance Data Table 4 AHRI ISO performance Water Loop Ground Water Cooling Heating Cooling Heating Cooling Heating Flow Capacity Capacity Capacity Capacity Capacity Unit Size CFM Mbtuh EER Mbtuh COP Mbtuh EER Mbtuh Mbtuh EER Mbtuh Rated Rated Ground Loop PSC Motor GET 009 8200 12 8 10800 46 9700 184 8700 3 8 8800 14 9 6600 32 GET 012 28 440 11900 13 5 14100 46 13100 18 9 11800 40 12300 151 9000 3 2 GET 015 14700 13 1 17700 46 16600 20 1 13700 37 15400 148 11800 3 3 GET 018 18100 13 0 22900 45 19500 18 0 17900 3 7 18700 143 14800 33 GET 024 23300 13 1 26600 4 3 25600 186 23600 39 24300 14 9 18700 32 GET 036 84 1170 33700 130 41300 43 37900 187 34400 37 35100 14 6 27300 32 ECM Motor GET 009 8300 13 9 10500 46 9600 211 8500 3 9 8700 16 2 6500 32 GET 012 28 440 12000 14 2 14300 4 8 14100 232 11600 40 12600 165 8700 3 2 GET 015 14900 15 0 18000 5 17000 23 9 14800 43 15600 17 5 11300 3 5 GET 018 18500 146 22300 46 21100 226 18400 4 2 19500 17 14200 34 024 24200 160 26300 4 8 26800 24 23100 44 25200 184 17800 35 GET 036 84 1170 34200 152 40200 46 38200 24 33500 41 35600 17 8 26300 33 Note Certified in accordance with AHRI Water to Air and Brine to Air Heat Pump Certification Program which is base
10. 15 3 55 4 1 15 3 12 2 0 90 49 0 17 5 55 4 4 15 4 12 3 0 90 49 4 19 6 68 1 9 16 3 13 2 0 91 54 0 4 2 68 2 3 16 7 13 6 0 90 56 2 6 1 68 2 8 17 1 14 0 0 91 58 0 8 6 68 3 5 17 4 14 4 0 91 59 8 12 7 68 3 8 17 6 14 5 0 91 60 4 14 6 68 4 1 17 7 14 6 0 91 60 9 16 7 68 4 4 17 8 14 7 0 91 61 3 18 7 75 1 9 17 4 14 3 0 91 59 7 4 1 75 2 3 17 9 14 8 0 91 62 1 5 9 75 2 8 18 3 15 2 0 91 64 1 8 4 75 3 5 18 7 15 6 0 91 66 1 12 4 75 3 8 18 9 15 8 0 91 66 7 14 3 75 4 1 19 0 15 9 0 91 67 3 16 3 75 4 4 19 1 16 0 0 91 67 7 18 3 77 1 9 17 7 14 6 0 91 61 4 4 1 77 2 3 18 3 15 2 0 91 63 8 5 9 77 2 8 18 7 15 6 0 91 65 9 8 3 77 3 5 19 1 16 0 0 91 67 9 12 3 77 3 8 19 2 16 1 0 91 68 5 14 2 77 4 1 19 4 16 3 0 91 69 1 16 2 77 4 4 19 5 16 4 0 91 69 5 18 1 86 1 9 19 3 16 2 0 91 68 8 4 0 86 2 3 19 8 16 7 0 91 71 4 5 7 86 2 8 20 3 17 2 0 91 73 7 8 1 86 3 5 20 8 17 7 0 90 75 9 11 9 86 3 8 20 9 17 9 0 90 76 6 13 8 86 4 1 21 1 18 1 0 90 77 2 15 7 86 4 4 21 2 18 1 0 90 77 7 17 6 Notes Heating performance data is tabulated at 68 F DB entering air at AHRI ISO 13256 1 rated cfm See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 3 5 Minimum cfm 432 Rated cfm 540 Maximum cfm 648 Table 11 GET 018 cooling performance Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kW LWT feet head 45 2 3 20 1 15 9 0 79 22 5 0 72 65 0
11. 19 0 1 13 115 3 3 7 95 2 3 15 2 13 4 0 88 18 9 1 08 111 4 5 3 95 2 8 15 2 13 4 0 88 18 8 1 05 108 4 7 5 95 3 5 15 2 13 4 0 88 18 7 1 02 105 7 11 2 95 3 8 15 2 13 4 0 88 18 6 1 01 104 8 12 9 95 4 1 15 2 13 4 0 88 18 6 1 00 104 1 14 8 95 4 4 15 2 13 4 0 88 18 6 1 00 103 5 16 6 105 1 9 14 6 13 2 0 90 19 1 1 30 125 3 3 6 105 2 3 14 6 13 2 0 91 18 9 1 25 121 4 5 2 105 2 8 14 6 13 2 0 91 18 8 1 22 118 4 7 3 105 3 5 14 6 13 2 0 91 18 6 1 19 115 7 10 9 105 3 8 14 6 13 2 0 91 18 6 1 18 114 8 12 6 105 4 1 14 6 13 2 0 91 18 6 1 17 114 1 14 4 24 WSHP PRC020D EN Performance Data Table 9 015 cooling performance continued Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kW LWT feet head 105 4 4 14 6 13 2 0 91 18 5 1 16 113 5 16 1 115 1 9 14 1 13 1 0 93 19 4 1 54 135 7 3 5 115 2 3 14 1 13 0 0 93 19 1 1 48 131 6 5 0 115 2 8 14 0 13 0 0 93 19 0 1 44 128 5 7 1 115 3 5 14 0 13 0 0 93 18 8 1 40 125 7 10 6 115 3 8 14 0 13 0 0 93 18 8 1 39 124 9 12 2 115 4 1 14 0 13 0 0 93 18 7 1 38 124 1 14 0 115 4 4 14 0 13 0 0 93 18 7 1 37 123 5 15 7 120 1 9 13 7 13 0 0 94 19 2 1 60 140 4 3 7 120 2 3 13 7 13 0 0 94 19 0 1 56 136 6 5 1 120 2 8 13 7 12 9 0 94 18 9 1 52 133 5 7 0 120 3 5 13 7 12 9 0 95 18 7 1 48 130 7 10 4 120 3 8 13 7 12 9 0 95 18 7 1 47 129 8 12 0 120 4 1 13 6 12 9 0 95 18 6 1 46 129 1 13 7 120 4 4 13 6 12 9 0 95 18 6 1 45 128 5 15 4 Notes Cooling performance data is tabulated at 80 6 F
12. 3 76 SWAGE 3 76 SWAGE 11 279 88 2235 80 2032 120 120 3048 3048 4 4 102 102 Ft dd 4851 Ft a Fo 610 610 a e lt 3 ti u 2 11 2 o 279 o 5 u in 5 5 n n Z 136 136 3454 3454 88 2235 80 2032 120 120 3048 3048 29 29 737 737 80 UNIT HEIGHT FORTOP SUPPLY AIR 88 UNIT HEIGHT FOR FRONT BACK SIDE SUPPLY AIR Riser Extensions are field provided and installed Note Riser expansion must be considered when calculating total riser length 48 WSHP PRCO20D EN Figure 14 Hinged acoustical door SHEET ROCK OPENING Dimensional Data 2 X 4 STUD 1 X 1 CLOSED CELL INSULATION RETURN AIR OPENING FLANGE ON CABINET RETURN AIR DOOR FLANGE CABINET ix CLOSED CELL INSULATION Axe A Note TOP VIEW Finished wall and framing should not touch the unit cabinetry RETURN AIR OPENING FLANGE ON CABINET RETURN AIR DOOR FRAME RETURN AIR OPENING 1 X1 CLOSED CELL INSULATION FLANGE ON CABINET 1 X 1 CLOSED RETURN AIR OPENING CELL INSULATION FLANGE ON CABINET RETURN AIR DOOR FRAME 1 1 2 X 2 3 8 3 1 2 3 8 _ WSHP PRCO20D EN CABINET SIDE VIEW 49 TRANE Dimensional Data 50 Table 27 Return air hinged acoustical door 00
13. 4 20 1 0 79 29 7 1 26 87 6 6 8 75 5 6 25 5 20 1 0 79 29 7 1 23 85 6 9 2 75 6 1 25 6 20 1 0 79 29 7 1 22 84 7 10 7 75 6 5 25 6 20 2 0 79 29 7 1 21 84 1 12 0 75 7 0 25 6 20 2 0 79 29 7 1 20 83 5 13 6 77 3 0 24 8 19 9 0 80 29 6 1 40 96 7 3 1 77 3 9 25 1 19 9 0 80 29 6 1 33 92 2 4 9 77 4 7 25 2 20 0 0 79 29 6 1 30 89 6 6 7 77 5 6 25 3 20 1 0 79 29 7 1 27 87 6 9 2 77 6 1 25 4 20 1 0 79 29 7 1 25 86 7 10 6 77 6 5 25 4 20 1 0 79 29 7 1 25 86 1 11 9 77 7 0 25 5 20 1 0 79 29 7 1 24 85 5 13 5 86 3 0 24 0 19 5 0 81 29 3 1 57 105 6 3 0 86 3 9 24 2 19 6 0 81 29 3 1 50 101 0 4 7 86 4 7 24 3 19 7 0 81 29 4 1 47 98 5 6 6 86 5 6 24 5 19 7 0 81 29 4 1 44 96 5 8 9 86 6 1 24 5 19 7 0 81 29 4 1 43 95 6 10 3 86 6 5 24 6 19 8 0 80 29 4 1 42 95 0 11 6 86 7 0 24 6 19 8 0 80 29 4 1 41 94 4 13 2 95 3 0 23 0 19 2 0 83 29 1 1 77 114 4 2 7 30 WSHP PRC020D EN Performance Data Table 13 GET 024 cooling performance continued Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kW LWT feet head 95 3 9 23 3 19 3 0 83 29 1 1 70 109 9 4 3 95 4 7 23 4 19 3 0 82 29 1 1 66 107 4 6 0 95 5 6 23 5 19 3 0 82 29 1 1 63 105 4 8 2 95 6 1 23 6 19 3 0 82 29 1 1 61 104 5 9 5 95 6 5 23 6 19 4 0 82 29 1 1 60 103 9 10 6 95 7 0 23 6 19 4 0 82 29 1 1 59 103 3 12 1 105 3 0 21 9 18 7 0 86 28 8 2 01 124 2 2 6 105 3 9 22 2 18 8 0 85 28 8 1 93 119 7 4 2 105 4 7 22 3 18 9 0 85 28 7 1 89 117 2 5 8 105 5 6 22 4 18 9 0 85 28 7 1 86 115 3 7 9 1
14. 56 78 5 13 4 68 3 0 12 8 10 1 0 79 14 7 0 56 77 8 15 1 68 3 2 12 8 10 1 0 79 14 7 0 55 77 2 16 9 68 3 5 12 8 10 1 0 79 14 7 0 55 76 4 19 8 75 1 5 12 5 10 0 0 80 14 8 0 68 94 8 4 4 75 2 0 12 6 10 0 0 80 14 8 0 64 89 8 7 3 75 2 4 12 6 10 0 0 80 14 7 0 63 87 3 10 0 75 2 8 12 6 10 1 0 80 14 7 0 62 85 5 13 1 75 3 0 12 6 10 1 0 80 14 7 0 61 84 8 14 8 75 3 2 12 6 10 1 0 80 14 7 0 61 84 2 16 5 75 3 5 12 6 10 1 0 80 14 7 0 60 83 4 19 4 77 1 5 12 5 10 0 0 80 14 8 0 69 96 8 4 4 77 2 0 12 5 10 0 0 80 14 8 0 66 91 8 7 2 77 2 4 12 5 10 0 0 80 14 7 0 64 89 3 9 9 77 2 8 12 5 10 0 0 80 14 7 0 63 87 5 13 0 77 3 0 12 6 10 0 0 80 14 7 0 63 86 8 14 7 77 3 2 12 6 10 0 0 80 14 7 0 62 86 2 16 4 77 3 5 12 6 10 0 0 80 14 7 0 62 85 4 19 2 86 1 5 12 2 9 9 0 81 14 9 0 78 105 8 4 2 86 2 0 12 2 9 9 0 81 14 8 0 75 100 8 7 0 86 2 4 12 2 9 9 0 81 14 7 0 73 98 3 9 7 86 2 8 12 2 9 9 0 81 14 7 0 71 96 5 12 6 86 3 0 12 2 9 9 0 81 14 7 0 71 95 8 14 3 86 3 2 12 2 9 9 0 81 14 7 0 71 95 2 16 0 86 3 5 12 2 9 9 0 81 14 6 0 70 94 4 18 7 95 1 5 11 8 9 8 0 82 14 9 0 89 114 8 3 7 95 2 0 11 9 9 7 0 82 14 8 0 85 109 8 6 2 95 2 4 11 9 9 8 0 82 14 7 0 83 107 2 8 6 95 2 8 11 9 9 8 0 82 14 6 0 81 105 5 11 3 95 3 0 11 9 9 8 0 82 14 6 0 81 104 8 12 7 95 3 2 11 9 9 8 0 82 14 6 0 80 104 1 14 2 95 3 5 11 9 9 8 0 82 14 6 0 80 103 3 16 7 105 1 5 11 4 9 5 0 84 14 9 1 01 124 8 3 8 105 2 0 11 4 9 6 0 84 14 7 0 97 119 7 6 1 105 2 4 11 4 9 6 0 84 14 7 0 95 117 2 8 3 105 2 8 11 4 9 6 0 84 14 6 0 93 115 4 1
15. 60 1 17 7 14 1 77 0 3 60 1 2 21 23 35 PSC Motor 230 60 1 17 7 14 1 77 0 3 60 1 2 21 23 35 265 60 1 15 0 12 2 72 0 2 77 1 2 18 02 30 GET 036 208 60 1 16 1 14 1 77 0 2 00 3 4 19 63 30 ECM Motor 230 60 1 16 1 14 1 77 0 2 00 3 4 19 63 30 265 60 1 14 2 12 2 72 0 2 00 3 4 17 25 25 42 WSHP PRC020D EN Dimensional Data Figure 9 Unit cabinet riser IE 8 Fls 3 3 4 VARIES DEPENDENT esp ON RISER O D OPTIONAL DUCT OPENING 1 12 7 DUCT C SUPPLY 11 279 FOR 80 2032 CABINET HEIGHT COLLAR 3 76 FOR 88 2235 CABINET HEIGHT SUPPLY AIR OPENINGS AND RISER LOCATIONS CANNOT 1 2 12 7 O D BE ONTHE SAME SIDE OFTHE UNIT ELECTRIC CONDUIT Al gt lt 1 25 4 RISER LOCATION CAN ON ANY SIDE EXCEPT FRONT B P AND MAY BE SUPPLIED BYTRANE OR BY OTHERS OPTIONNAL 1 or 3 DISCHARGE FLANGE NOT SHOWN SWAGE 3 76 M SUPPLY AIR OPENING 1 1 2 38 LOW VOLTAGE CONNECTION BOX FOR THERMOSTAT FROM 96 2438 TO 120 3048 O u 20 2 ib ecd oc on O lt 6 lt 5 LLI lt lt CE nz aD Cr TE z 2 THROWAWAY FIETER N D D RISER CONNECTION CHASSIS T 1 2 13 NPTE 009 018 ACCESS E 3 4 19 NPTE 024 036 x i AN NOTE E CONNECTION 3 RIGHT RISER LOCATION SHOWN IN FRONT AND RIGHT 3 4 19 O VIEWS FRONT RIGHT SIDE Table 24 Unit cabin
16. 9 015 cooling performance continued Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kw LWT feet head 55 3 8 16 8 14 0 0 83 18 5 0 50 64 8 15 3 55 4 1 16 8 14 0 0 83 18 5 0 50 64 0 17 5 55 4 4 16 8 14 0 0 83 18 5 0 49 63 5 19 6 68 1 9 16 3 13 8 0 85 18 9 0 76 88 2 4 2 68 2 3 16 4 13 8 0 85 18 8 0 72 84 4 6 1 68 2 8 16 4 13 8 0 84 18 8 0 69 81 4 8 6 68 3 5 16 4 13 9 0 84 18 7 0 67 78 7 12 7 68 3 8 16 5 13 9 0 84 18 7 0 66 77 8 14 6 68 4 1 16 5 13 9 0 84 18 7 0 65 77 1 16 7 68 4 4 16 5 13 9 0 84 18 7 0 65 76 5 18 7 75 1 9 16 1 13 7 0 85 18 9 0 84 95 2 4 1 75 2 3 16 1 13 7 0 85 18 9 0 81 91 4 5 9 75 2 8 16 1 13 8 0 85 18 8 0 78 88 4 8 4 75 3 5 16 2 13 8 0 85 18 7 0 75 85 7 12 4 75 3 8 16 2 13 8 0 85 18 7 0 74 84 8 14 3 75 4 1 16 2 13 8 0 85 18 7 0 74 84 1 16 3 75 4 4 16 2 13 8 0 85 18 7 0 73 83 5 18 3 77 1 9 16 0 13 7 0 86 19 0 0 87 97 2 4 1 77 2 3 16 0 13 7 0 86 18 9 0 83 93 4 5 9 77 2 8 16 1 13 7 0 85 18 8 0 80 90 4 8 3 77 3 5 16 1 13 7 0 85 18 7 0 78 87 7 12 3 77 3 8 16 1 13 7 0 85 18 7 0 77 86 8 14 2 77 4 1 16 1 13 8 0 86 18 7 0 76 86 1 16 2 77 4 4 16 1 13 7 0 85 18 7 0 75 85 5 18 1 86 1 9 15 6 13 6 0 87 19 0 0 99 106 2 4 0 86 2 3 15 6 13 6 0 87 18 9 0 95 102 4 5 7 86 2 8 15 6 13 6 0 87 18 8 0 92 99 4 8 1 86 3 5 15 7 13 6 0 87 18 7 0 89 96 7 11 9 86 3 8 15 7 13 6 0 87 18 7 0 88 95 8 13 8 86 4 1 15 7 13 6 0 87 18 6 0 87 95 1 15 7 86 4 4 15 7 13 6 0 87 18 6 0 87 94 5 17 6 95 1 9 15 2 13 4 0 89
17. Chassis Only Digit 32 Return Riser 0 No Riser Chassis Only Digit 33 Condensate Riser 0 No Riser Chassis Only Digit 34 35 36 Riser Length 000 No Riser Chassis Only 15 TRANE General Data Table 3 General Data eight in 350 sso 399 399 wiath ind 359 60 200 00 240 Bepthimm a064 064 492 96 W NE IE XA 3M M 4064 4 406 4 4 5080 0 5080 0 6096 6 Face Area 6 2 Face Area cm2 1254 1254 1959 1959 2676 Fins Perem 35 35 38 14 x 20 14 x 20 18 x 25 18 x 25 20 x 30 Approximate weight cabinet Approximate weight cabinet Approximate weight chassis Approximate weight chassis Nominal 1 Filter Size Water I n Out size Condensate Riser Connection PSC Ducted Discharge PSC Free Discharge ECM Motor 0 33 motoru os os Refrig Side PSIG 650 650 Water Side PSIG ete D i 0 081 0 081 0 228 0 228 0 271 Water to Refrigerant Coil 036 Scroll 24 0 88 0 24 0 609 6 2235 2 609 6 225 195 190 180 2 88 2676 4 14 5 5 20 x 30 mm 356 x 508 356 508 457 x 635 457 x 635 508 x 762 508 x 762 3 4 34 34 90 6TDD 90 6TDD 90 6RDD 100 6TDD 100 6TDD 120 8TDD11 0 5 90 6TDD 90 6TDD 90 6RDD 100 6TDD 100 6TDD 120 8TDD11 0 5 90 6TDD 90 6TDD 100 6TDD 100 6TDD
18. Figure 3 ZN510 control box The Tracer Loop Controller TLC may be added to either the Deluxe controls or the ZN510 controls to maintain system loop operation See WMCA IOP 1 for more information on the TLC The ZN510 controller may also be applied with the Tracker and Summit building management systems to further enhance system operation Non fused switch and fused entrance block may be factory added to the equipment to save installation time of these components in the field where local building codes allow Deluxe 24V Electronic Controls General alarm is accomplished through the lockout relay and is used to drive light emitting diodes This feature will drive dry contacts only and may not be used to drive field installed control inputs Factory Installed Flow Control Optional factory mounting of the isolation valve and flow control valves is available to speed field equipment installation and help provide optimum water flow balancing support Refrigeration Section The units compressor is a highly efficient hermetically sealed with internal vibration isolation External isolation is provided between the compressor and mounting plate to help reduce radiated noise that is typically associated with compressor start The air to refrigerant coil is easily accessible for cleaning purposes behind the units removable return air door panel The water to refrigerant coil is acopper or cupro nickel option co axial tube within a tu
19. See Model Number Descriptions p 14 The cabinet design is available in either an 88 inch height free discharge or 80 inch height ducted configuration As many as 3 supply air discharges are available for the 11 4 ton 3 ton free discharge cabinets to provide multiple supply air through one unit Air distribution is made through a rigid bar type extruded aluminum grille mounted to the sheetrock It is both durable and attractive in design The return air panel is a hinged acoustical door see Figure 1 p 4 The door allows for easy access to the units filter and for maintenance of the equipment The hinged acoustical panel provides greater sound attenuation and is mounted flush to the wall This panel is easily removed for filter maintenance or chassis removal through the magnetic catch door An optional tamper proof latch is available on the hinged door design to impede access required Figure 1 Return air flush mounted hinged door Blower Motor Assembly The units blower motor assembly includes double width double inlet DWDI blower with direct drive PSC motor or optional ECM motor for improved efficiency and power factor It may be easily removed for cleaning or service after removal of the unit chassis The PSC motor is a multi speed design factory wired to high speed or low speed order specific The tap will be wired and capped inside the unit control box for easy field convertibility The ECM motor is pro
20. Yes Yes No No Yes Yes No No Yes Yes No No Unit Yes Yes No No 408 272 453 304 648 432 780 520 984 656 1404 936 CFM Max Min 648 432 780 520 984 656 1404 936 CFM Max Min 1404 936 0 00 CFM 421 355 357 307 453 401 418 345 560 553 445 665 696 544 908 850 799 1303 1330 1059 KW 0 108 0 073 0 073 0 061 0 140 0 112 0 125 0 097 0 155 0 169 0 135 0 253 0 361 0 271 0 344 0 317 0 292 0 651 0 642 0 523 0 05 CFM 388 332 333 297 433 383 400 331 539 538 433 644 675 526 895 827 781 KW 0 107 0 072 0 071 0 060 0 137 0 109 0 122 0 095 0 153 0 167 0 135 0 249 0 354 0 266 0 335 0 310 0 286 1293 0 638 1304 0 630 1051 0 516 External Static Pressure in of wg 0 10 CFM 354 307 309 280 412 362 379 313 652 523 524 422 625 654 506 876 806 764 1282 1277 1042 KW 0 106 0 070 0 070 0 059 0 134 0 106 0 120 0 092 0 191 0 152 0 165 0 134 0 246 0 348 0 262 0 327 0 303 0 280 0 625 0 618 0 510 0 15 CFM 320 278 282 258 390 340 356 292 634 511 510 608 632 854 787 746 1270 1248 KW 0 104 0 068 0 069 0 058 0 130 0 103 0 117 0 090 0 187 0 149 0 162 0 242 0 342 0 318 0 297 0 275 0 614 0 606 0 20 CFM 283 245 253 367 318 332 616 499 496 592 610 829 768 727 KW 0 103 0 067
21. and unoccupied mode Fan Run Timer The controller s 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 53 TRANE Controls High and Low Pressure Safety Controls The Tracer ZN510 controller 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 controller to 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 Random Start To prevent all of the units in a building from energizing major loads at the same time the controller observes a random start from O to 25 seconds This timer halts the controller until the random start time expires Reversing Valve Operation For cooling the reversing valve output 15 energized simultaneously with the compressor It will remain energized until the controller turns 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 54 WSHP PRCO20D EN Thermostats and Zone Sensors Table 29 Thermostat sensor
22. pressure is provided by means of a high pressure switch Loss of charge protection is provided by a low pressure switch Refrigerant Circuits The refrigerant circuit contains a thermal expansion device service pressure ports and system safety devices factory installed as standard Air to Refrigerant Coil Internally finned 3 8 copper tubes mechanically bonded to a configured aluminum plate fin are standard Coils are leak tested at the factory to ensure the pressure integrity The coil is leak tested to 200 psig and pressure tested to 650 psig 57 TRANE Mechanical Specifications 58 Drain Pan The condensate pan is constructed of corrosive resistant material The bottom of the drain pan is sloped in two planes to pitch the condensate towards the drain connection Condensate is piped to a lower base pan through condensate hose for ease of chassis removal A clear drain hose is factory clamped onto the drain connection for field hook up Water to Refrigerant Heat Exchanger The water to refrigerant heat exchanger is of a high quality co axial coil for maximum heat transfer The copper or optional cupro nickel coil is deeply fluted to enhance heat transfer and minimize fouling and scaling The coil has a working pressure of 650 psig on the refrigerant side and 400 psig on the water side Indoor Fan The blower is a double width double inlet DWDI forward curved wheel The blower is a direct drive PSC or optional ECM fra
23. riser The maximum water velocity that a riser should experience is about 6 or 7 feet second Table 2 p 10 can be used as a quick reference chart for determining the maximum GPM allowed for a given riser size Riser flow diagram can be found in the 2009 ASHRAE Fundamentals Handbook and may be used to calculate the precise water velocity for a given riser diameter and flow Table 2 Maximum riser flow rate Riser Size in Head Loss ft 100 ft Note Table 2 p 10 is for general design calculation reference It is not intended to take the place of an engineered piping design WSHP PRCO20D EN WSHP PRCO20D EN Riser Size Example Central Plant Control REVERSE RETURN Application Considerations Assume asix story building is served by a high rise water source heat pump When referencing the catalog determine each high rise heat pump uses 3 gallons per minute to meet the required capacity of the 1 ton unit What is the minimum riser diameter that can be used on each floor With this arrangement determine the volume of water used at each floor is GPM The top floor riser therefore only needs to be sized for 3 GPM Referring to Table 2 p 10 we know that a 1 inch type M riser can handle up to 16 GPM therefore the riser size is determined to be 1 inch The first floor will see 18 GPM through the riser Since 18 GPM will result in more than 6 ft second in a 1 riser
24. the same space Compressor Operation The compressor is cycled on and off to meet heating or cooling zone demands The control of the unit uses the units 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 Data Sharing TheTracer ZN510 controller is 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 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
25. the water loop temperature during low energy use hours typically during the night time hours to provide a greater optimization during the time of day where energy consumption may be at its greatest Using the loop controller as a means of coordinating cooling or heating storage the building owner can expect better efficiencies from the WSHP equipment WSHP PRCO20D EN TRANE Mechanical Specifications WSHP PRC020D EN General Equipment is factory assembled piped internally wired fully charged with R 410A refrigerant and oil Units are tested at the factory Products are certified in accordance with AHRIWater to Air and Brine to Air Heat Pump Certification Program which is based ISO Standard 13256 1 1998 All units have an ETL label that meets USA UL std and Canadian CSA std Casing The cabinet assembly is constructed of heavy gauge galvanized steel It houses the blower fan and control hook up to the unit thermostat or zone sensor A basepan with condensate hose is included with the cabinet design Base rails allow ease of chassis installation removal for service or maintenance One two or three supply air openings shall are factory provided Optional one or three inch flanges are provided on all free discharge openings The chassis is constructed of heavy gauge galvanized steel The chassis houses the compressor reversing valve water to refrigerant heat exchanger air to refrigerant heat exchanger thermal expansion
26. valve corrosive resistant condensate pan and water inlet outlet connections The chassis is installed into the cabinet by sliding it in place on the locating rails within the cabinet design The insulation contains a flame spread rating of less than 25 and smoke density rating of less than 50 as tested in accordance with ASTM 85 The elastomer insulation has a UL 94 5V rating Sound Attenuation Sound attenuation is applied as a standard feature in the product design The enhanced reduction package includes a heavy gage base plate and gasket insulation around the compressor enclosure An optional deluxe sound reduction package is also available It includes a heavy gage base plate gasket and insulation around the compressor enclosure and vibration isolation between the chassis and cabinet An additional dampening treatment is applied around the compressor enclosure to achieve greater acoustical reductions Filters One inch throwaway filters are standard and factory installed The filters have an average resistance of 76 and dust holding capacity of 26 grams per square foot Compressors All units have direct drive hermetic rotary unit sizes 009 018 and scroll unit sizes 024 and 036 type compressors compressor contains rubber isolation to aid in noise reduction during compressor start stop Internal thermal overload protection and compressor anti short cycle timers are also provided Protection against excessive discharge
27. 0 037 0 035 0 032 0 027 0 042 0 038 0 034 0 029 0 072 0 054 0 042 0 034 0 109 0 087 0 066 0 048 0 118 0 096 0 073 0 052 0 306 0 233 0 175 0 133 kW 0 050 0 046 0 042 0 036 0 057 0 052 0 046 0 039 0 081 0 064 0 051 0 042 0 121 0 098 0 076 0 058 0 135 0 111 0 085 0 063 0 328 0 253 0 193 0 148 kW 0 062 0 057 0 052 0 045 0 071 0 065 0 057 0 049 0 090 0 073 0 060 0 051 0 134 0 110 0 087 0 069 0 152 0 125 0 098 0 074 0 349 0 272 0 210 0 163 kW 0 075 0 068 0 062 0 054 0 086 0 077 0 069 0 059 0 100 0 083 0 069 0 059 0 148 0 123 0 099 0 080 0 168 0 140 0 110 0 085 0 370 0 292 0 227 0 178 kW 0 087 0 079 0 071 0 063 0 100 0 090 0 080 0 068 0 109 0 092 0 079 0 068 0 163 0 136 0 111 0 091 0 185 0 154 0 123 0 097 0 392 0 311 0 245 0 193 kW 0 098 0 090 0 081 0 071 0 114 0 103 0 091 0 078 0 119 0 101 0 088 0 076 0 178 0 150 0 123 0 102 0 201 0 168 0 136 0 109 0 413 0 330 0 262 0 208 kW 0 110 0 100 0 090 0 080 0 128 0 115 0 102 0 087 0 128 0 111 0 097 0 085 0 193 0 163 0 135 0 114 0 216 0 182 0 148 0 121 0 433 0 349 0 279 0 223 kW 0 121 0 110 0 099 0 088 0 142 0 127 0 112 0 096 0 138 0 121 0 106 0 093 0 208 0 177 0 148 0 125 0 232 0 196 0 161 0 133 0 454 0 369 0 296 0 238 kW 0 133 0 120 0 108 0 096 0 155 0 139 0 122 0 105 0 148 0 131 0 116 0 102 0 223 0 191 0 160 0 1
28. 0 067 0 127 0 100 0 113 0 183 0 146 0 159 0 237 0 336 0 310 0 291 0 269 0 25 CFM KW 244 342 295 309 598 487 481 575 588 988 803 750 709 0 102 0 124 0 097 0 110 0 179 0 143 0 155 0 232 0 330 0 402 0 301 0 286 0 264 1033 0 503 1256 0 603 1219 0 593 1022 0 496 External Static Pressure in of wg 0 40 CFM 535 433 421 758 517 521 884 732 689 651 1371 1181 1086 KW 0 165 0 130 0 142 0 323 0 215 0 312 0 371 0 277 0 267 0 246 0 662 0 562 0 542 0 45 CFM 510 405 729 497 847 712 666 KW 0 160 0 125 0 317 0 305 0 359 0 268 0 260 0 50 CFM KW CFM KW CFM 480 697 810 693 642 0 154 0 311 0 348 0 260 0 251 1346 0 650 1160 0 553 1048 0 528 1320 0 638 1138 0 543 1007 0 515 0 55 445 661 774 675 1293 1117 0 148 0 305 0 336 0 251 0 625 0 533 0 60 404 620 739 658 1265 1097 0 141 0 300 0 324 0 243 0 613 0 522 965 0 501 919 0 487 967 0 464 0 80 CFM KW 1142 0 563 1003 0 472 949 0 454 927 0 444 External Static Pressure in of wg 0 85 0 90 0 95 1 00 CFM KW CFM KW CFM KW CFM KW 1107 0 550 1071 0 536 1032 0 523 991 0 509 967 0 456 919 0 440 1240 0 592 1188 0 581 1011 0 488 0 65 CFM KW 573 0 295 706 0 312 641 0 234 1236 0 601 1076 0 511 1 05 CFM KW 947 0 495 316 286 472
29. 0 9 105 3 0 11 4 9 6 0 84 14 6 0 93 114 7 12 3 105 3 2 11 4 9 6 0 84 14 6 0 94 114 1 13 8 105 3 5 11 4 9 6 0 84 14 6 0 93 113 3 16 2 115 1 5 10 9 9 3 0 86 14 8 1 15 134 8 3 8 115 2 0 10 9 9 3 0 86 14 7 1 11 129 7 6 0 115 2 4 10 9 9 3 0 86 14 6 1 09 127 2 8 1 115 2 8 10 9 9 3 0 86 14 6 1 07 125 4 10 6 115 3 0 10 9 9 3 0 86 14 5 1 06 124 7 12 0 WSHP PRCO20D EN 21 TRANE Performance Data Table 7 012 cooling performance continued Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kw LWT feet head 115 3 2 10 9 9 3 0 86 14 5 1 06 124 1 13 4 115 3 5 10 9 9 3 0 86 14 5 1 05 123 3 15 8 120 1 5 10 6 9 2 0 87 14 8 1 23 139 8 3 8 120 2 0 10 6 9 2 0 87 14 7 1 19 134 7 5 9 120 2 4 10 6 9 2 0 87 14 6 1 16 132 2 8 0 120 2 8 10 6 9 2 0 87 14 5 1 14 130 4 10 5 120 3 0 10 6 9 2 0 87 14 5 1 13 129 7 11 8 120 3 2 10 6 9 2 0 87 14 5 1 13 129 0 13 3 120 3 5 10 6 9 2 0 87 14 4 1 12 128 2 15 6 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at AHRI ISO 13256 1 rated cfm For AHRI ISO 13256 1 certified ratings see Table 4 p 17 See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 2 8 Minimum cfm 303 Rated cfm 380 Maximum cfm 456 Table 8 GET 012 heating performance Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 25
30. 05 6 1 22 4 18 9 0 84 28 7 1 84 114 4 9 2 105 6 5 22 4 19 0 0 84 28 7 1 84 113 8 10 3 105 7 0 22 5 19 0 0 84 28 7 1 83 113 2 11 8 115 3 0 20 7 18 3 0 88 28 4 2 28 134 0 2 6 115 3 9 20 9 18 4 0 88 28 4 2 20 129 6 4 1 115 4 7 21 0 18 4 0 88 28 4 2 15 127 1 5 7 115 5 6 21 1 18 4 0 87 28 3 2 12 125 1 1 7 115 6 1 21 1 18 5 0 87 28 3 2 11 124 3 9 0 115 6 5 21 2 18 5 0 87 28 3 2 09 123 7 10 1 115 7 0 21 2 18 5 0 87 28 3 2 08 123 1 11 5 120 3 0 20 1 18 0 0 89 28 3 2 39 138 8 2 7 120 3 9 20 3 18 1 0 89 28 2 2 32 134 5 4 1 120 4 7 20 4 18 1 0 89 28 2 2 27 132 0 5 6 120 5 6 20 5 18 2 0 89 28 2 2 24 130 1 7 6 120 6 1 20 6 18 2 0 88 28 1 2 22 129 2 8 9 120 6 5 20 6 18 2 0 88 28 1 2 21 128 6 9 9 120 7 0 20 6 18 2 0 88 28 1 2 20 128 0 11 3 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at AHRI ISO 13256 1 rated cfm For AHRI ISO 13256 1 certified ratings see Table 4 p 17 See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 5 6 Minimum cfm 656 Rated cfm 820 Maximum cfm 984 Table 14 GET 024 heating performance Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 25 3 0 14 8 10 4 1 30 18 1 4 7 25 3 9 15 3 10 8 1 30 19 5 7 4 25 4 7 15 5 11 1 1 31 20 3 10 3 25 5 6 15 8 11 3 1 30 21 0 14 0 25 6 1 15 9 11 4 1 31 21 3 16 2 25 6 5 15 9 11 5 1 31 21 5 18 1 25 7 0 16 0 11 6
31. 1 1 51 1 53 1 54 1 56 1 56 1 56 LWT 27 7 27 9 28 2 34 8 36 8 38 1 39 1 39 5 39 8 40 2 43 1 45 5 46 9 48 1 48 6 49 0 49 4 53 9 56 8 58 5 59 8 60 5 60 9 61 4 59 8 62 8 64 7 66 2 66 8 67 3 67 8 61 4 64 6 66 4 68 0 68 7 69 1 69 7 69 0 72 4 74 5 76 2 76 9 77 5 WPD feet head 15 7 17 5 20 0 3 4 5 5 7 6 10 3 12 0 13 4 15 2 3 3 5 2 7 3 9 9 11 5 12 9 14 6 3 2 5 0 6 9 9 4 11 0 12 3 14 0 3 1 4 9 6 8 9 2 10 7 12 0 13 6 3 1 4 9 6 7 9 2 10 6 11 9 13 5 3 0 4 7 6 6 8 9 10 3 11 6 WSHP PRC020D EN Performance Data Table 14 GET 024 heating performance continued Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 86 7 0 33 3 27 9 1 57 78 0 13 2 Notes Heating performance data is tabulated at 68 F DB entering air at AHRI ISO 13256 1 rated cfm See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 5 6 Minimum cfm 656 Rated cfm 820 Maximum cfm 984 Table 15 GET 036 cooling performance Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kW LWT feet head 45 4 5 41 9 31 5 0 75 46 1 1 23 65 5 5 6 45 5 8 42 1 31 7 0 75 46 0 1 14 60 9 8 8 45 7 1 42 3 31 7 0 75 46 0 1 08 57 9 12 5 45 8 4 42 4 31 8 0 75 46 0 1 04 55 9 16 8 45 9 1 42 5 31 9 0 75 46 0 1 02 55 1 19 3 4
32. 1 31 21 7 20 6 32 3 0 16 4 12 0 1 31 24 0 4 6 32 3 9 17 0 12 5 1 32 25 6 7 2 32 4 7 17 3 12 8 1 32 26 6 10 0 32 5 6 17 6 13 1 1 32 27 3 13 5 WSHP PRCO20D EN 31 TRANE Performance Data Table 14 GET 024 heating performance continued 32 EWT 32 32 32 45 45 45 45 45 45 45 55 55 55 55 55 55 55 68 68 68 68 68 68 68 75 75 75 75 75 75 75 77 77 77 77 77 77 77 86 86 86 86 86 86 GPM 6 1 6 5 7 0 3 0 3 9 4 7 5 6 6 1 6 5 7 0 3 0 3 9 4 7 5 6 6 1 6 5 7 0 3 0 3 9 4 7 5 6 6 1 6 5 7 0 3 0 3 9 4 7 5 6 6 1 6 5 7 0 3 0 3 9 4 7 5 6 6 1 6 5 7 0 3 0 3 9 4 7 5 6 6 1 6 5 Total Gross Mbtuh 17 7 17 8 17 9 19 9 20 6 20 9 21 3 21 4 21 5 21 6 22 5 23 3 23 7 24 1 24 3 24 4 24 5 26 0 26 8 27 4 27 8 28 0 28 1 28 3 27 8 28 8 29 4 29 8 30 0 30 1 30 3 28 4 29 3 29 9 30 3 30 5 30 7 30 9 30 7 31 8 32 4 32 8 33 0 33 1 Heat of Absorb Mbtuh 13 2 13 3 13 3 15 3 15 9 16 3 16 6 16 8 16 8 17 0 17 8 18 5 19 0 19 3 19 5 19 6 19 7 21 1 21 9 22 4 22 9 23 0 23 1 23 3 22 9 23 8 24 3 24 7 24 9 25 0 25 1 23 4 24 3 24 8 25 2 25 4 25 6 25 7 25 6 26 6 27 1 27 5 27 7 27 8 Compr Power kW 1 33 1 33 1 33 1 35 1 36 1 36 1 37 1 37 1 37 1 37 1 38 1 39 1 40 1 40 1 40 1 40 1 41 1 43 1 44 1 45 1 46 1 46 1 46 1 46 1 46 1 48 1 49 1 49 1 49 1 49 1 50 1 47 1 49 1 49 1 50 1 50 1 51 1 5
33. 1 5 7 7 5 4 0 67 17 8 6 9 25 2 0 7 9 5 6 0 68 19 4 11 4 25 2 4 8 1 5 7 0 68 20 2 16 5 25 2 8 8 1 5 8 0 68 20 9 21 2 25 3 0 8 2 5 8 0 68 21 1 23 8 25 3 2 8 2 5 9 0 68 21 3 25 7 25 3 5 8 2 5 8 0 68 21 7 30 6 32 1 5 8 5 6 1 0 69 23 8 6 7 32 2 0 8 7 6 4 0 69 25 6 11 0 32 2 4 8 9 6 5 0 69 26 6 15 1 32 2 8 9 0 6 6 0 69 27 3 19 8 32 3 0 9 0 6 7 0 69 27 6 22 3 32 3 2 9 1 6 7 0 69 27 8 24 9 32 3 5 9 1 6 8 0 70 28 1 29 1 45 1 5 10 1 7 7 0 71 34 8 4 9 45 2 0 10 4 8 0 0 71 37 0 8 1 45 2 4 10 6 8 2 0 71 38 2 11 2 45 2 8 10 7 8 3 0 71 39 1 14 6 45 3 0 10 8 8 3 0 71 39 5 16 5 45 3 2 10 8 8 4 0 71 39 8 18 4 45 3 5 10 9 8 4 0 72 40 2 21 5 55 1 5 11 3 8 9 0 72 43 2 4 7 55 2 0 11 7 9 2 0 73 45 8 7 8 55 2 4 11 9 9 4 0 73 47 1 10 7 55 2 8 12 1 9 6 0 73 48 2 14 1 55 3 0 12 2 9 7 0 73 48 6 15 9 55 3 2 12 2 9 7 0 73 49 0 17 8 55 3 5 12 3 9 7 0 73 49 4 20 7 68 1 5 13 0 10 5 0 74 54 1 4 5 22 WSHP PRC020D EN Performance Data Table 8 012 heating performance continued Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 68 2 0 13 4 10 9 0 75 57 1 7 4 68 2 4 13 7 11 1 0 75 58 7 10 2 68 2 8 13 9 11 3 0 75 59 9 13 4 68 3 0 14 0 11 4 0 75 60 4 15 1 68 3 2 14 0 11 5 0 76 60 8 16 9 68 3 5 14 1 11 6 0 76 61 4 19 8 75 1 5 13 9 11 3 0 75 59 9 4 4 75 2 0 14 4 11 8 0 76 63 2 7 3 75 2 4 14 7 12 1 0 76 65 0 10 0 75 2 8 14 9 12 3 0 77 66 2 13 1 75 3 0 15 0 12 3 0 77 66 8 14 8 75 3 2 15 0 12 4 0 77 67 3 1
34. 3 0 90 10 8 0 79 124 0 6 1 115 2 6 8 1 7 3 0 90 10 8 0 79 123 2 7 1 120 1 1 8 0 7 3 0 91 11 2 0 94 139 9 1 6 120 1 5 8 0 7 2 0 91 11 0 0 90 134 7 2 6 120 1 8 8 0 7 2 0 91 11 0 0 88 132 2 3 6 120 2 1 8 0 7 2 0 91 10 9 0 87 130 4 4 7 18 WSHP PRC020D EN Performance Data Table 5 009 cooling performance continued Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kW LWT feet head 120 2 3 8 0 7 2 0 91 10 9 0 86 129 7 5 3 120 2 4 7 9 7 2 0 91 10 9 0 86 129 0 6 0 120 2 6 7 9 7 2 0 91 10 8 0 85 128 3 7 0 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at AHRI ISO 13256 1 rated cfm For AHRI ISO 13256 1 certified ratings see Table 4 p 17 See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 2 1 Minimum cfm 292 Rated cfm 340 Maximum cfm 408 Table 6 GET 009 heating performance Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 25 1 1 6 0 4 2 0 52 17 5 2 7 25 1 5 6 2 4 4 0 52 19 1 4 5 25 1 8 6 3 4 5 0 53 20 0 6 2 25 2 1 6 4 4 6 0 53 20 6 8 1 25 2 3 6 4 4 6 0 53 20 9 9 1 25 2 4 6 5 4 7 0 53 21 1 10 2 25 2 6 6 5 4 7 0 53 21 4 11 9 32 1 1 6 7 4 8 0 53 23 4 2 7 32 1 5 6 9 5 1 0 54 25 3 4 4 32 1 8 7 0 5 2 0 54 26 2 6 0 32 2 1 7 1 5 3 0 54 27 0 7 9 32 2 3 7 2 5 3 0 54 27 3 8 9 32 2 4 7 2 5 3 0 5
35. 3 8 45 2 9 19 9 15 8 0 79 22 2 0 67 60 3 6 0 45 3 6 19 8 15 8 0 80 22 0 0 64 57 2 8 7 45 4 2 19 7 15 8 0 80 21 8 0 62 55 4 11 4 45 4 6 19 7 15 7 0 80 21 8 0 61 54 5 13 4 26 WSHP PRCO20D EN Performance Data Table 11 GET 018 cooling performance continued Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kW LWT feet head 45 5 0 19 6 15 6 0 80 21 6 0 60 53 6 15 5 45 5 3 19 6 15 7 0 80 21 6 0 60 53 2 16 9 55 2 3 20 0 15 9 0 79 22 9 0 84 75 3 3 7 55 2 9 20 0 15 8 0 79 22 7 0 79 70 6 5 7 55 3 6 19 9 15 8 0 79 22 5 0 76 67 5 8 4 55 4 2 19 9 15 8 0 79 22 4 0 74 65 7 11 0 55 4 6 19 9 15 8 0 79 22 4 0 73 64 7 12 9 55 5 0 19 9 15 8 0 80 22 4 0 73 63 9 14 9 55 5 3 19 9 15 8 0 80 22 3 0 72 63 5 16 2 68 2 3 19 6 15 7 0 80 23 0 1 01 88 4 3 5 68 2 9 19 6 15 7 0 80 22 9 0 96 83 8 5 5 68 3 6 19 6 15 7 0 80 22 8 0 92 80 6 8 0 68 4 2 19 6 15 7 0 80 22 7 0 90 78 8 10 5 68 4 6 19 6 15 7 0 80 22 7 0 90 77 9 12 3 68 5 0 19 6 15 7 0 80 22 6 0 89 77 1 14 2 68 5 3 19 6 15 7 0 80 22 6 0 88 76 6 15 5 75 2 3 19 2 15 6 0 81 23 0 1 10 95 4 3 4 75 2 9 19 3 15 6 0 81 22 8 1 05 90 8 5 4 75 3 6 19 3 15 6 0 81 22 8 1 02 87 6 7 8 75 4 2 19 3 15 6 0 81 22 7 1 00 85 8 10 2 75 4 6 19 3 15 6 0 81 22 7 0 99 84 9 12 0 75 5 0 19 3 15 6 0 81 22 7 0 98 84 1 13 9 75 5 3 19 3 15 6 0 81 22 6 0 98 83 6 15 1 77 2 3 19 1 15 5 0 81 23 0 1 13 97 4 3 4 77 2 9 19 2 15 6 0 81 22 8 1 08 92 7 5 3 77 3 6 19 2 15 6 0 81 22 8 1 04 89 6 7 8
36. 36 0 247 0 209 0 173 0 145 0 475 0 388 0 313 0 254 kW 0 144 0 130 0 117 0 104 0 168 0 151 0 133 0 114 0 158 0 141 0 126 0 111 0 239 0 205 0 172 0 147 0 261 0 222 0 185 0 157 0 496 0 406 0 331 0 269 kW 0 155 0 140 0 126 0 112 0 181 0 162 0 142 0 123 0 168 0 151 0 136 0 120 0 253 0 218 0 183 0 157 0 276 0 236 0 198 0 169 0 516 0 425 0 348 0 284 Unit Fan Performance 0 60 kW 0 165 0 149 0 134 0 120 0 193 0 173 0 152 0 131 0 179 0 162 0 146 0 130 0 268 0 230 0 194 0 166 0 290 0 248 0 210 0 182 0 537 0 444 0 365 0 299 0 65 kW 0 176 0 159 0 143 0 127 0 206 0 184 0 161 0 139 0 191 0 173 0 157 0 140 0 282 0 242 0 204 0 175 0 303 0 261 0 222 0 194 0 557 0 463 0 382 0 314 0 70 kW 0 176 0 159 0 143 0 127 0 206 0 184 0 161 0 139 0 202 0 185 0 168 0 150 0 282 0 242 0 204 0 175 0 303 0 261 0 222 0 194 0 557 0 463 0 382 0 314 Note The ECM motor is programmed for constant CFM The CFM is factory set on Profile B The ECM motor will reduce airflow to 50 in fan only mode for additional energy savings Figure 5 OT ETI TPAD A A A gt i Dip switch to select profile WSHP PRCO20D EN ECM control board and dip switch setting CB060 96P01 d 39 TRANE Unit Fan Performance Table 21 Pressure drop due to return air door RAD Model No CFM DP CFM DP CFM DP G
37. 4 27 6 9 9 32 2 6 7 3 5 4 0 54 27 9 11 6 45 1 1 8 1 6 2 0 56 34 0 2 1 45 1 5 8 4 6 5 0 57 36 4 3 4 45 1 8 8 6 6 6 0 57 37 6 4 7 45 2 1 8 7 6 7 0 57 38 6 6 2 45 2 3 8 7 6 8 0 57 39 0 6 9 45 2 4 8 8 6 8 0 57 39 3 7 8 45 2 6 8 8 6 9 0 57 39 8 9 1 55 1 1 9 2 7 2 0 58 42 2 2 0 55 1 5 9 5 7 5 0 58 45 0 3 3 55 1 8 9 7 7 7 0 59 46 4 4 5 55 2 1 9 9 7 9 0 59 47 5 5 9 55 2 3 9 9 7 9 0 59 48 0 6 7 55 2 4 10 0 8 0 0 59 48 4 7 5 55 2 6 10 1 8 0 0 59 48 9 8 7 68 1 1 10 6 8 6 0 60 52 8 1 9 68 1 5 11 1 9 0 0 61 56 0 3 1 68 1 8 11 3 9 2 0 61 57 8 4 3 68 2 1 11 5 9 4 0 61 59 1 5 6 68 2 3 11 5 9 4 0 61 59 6 6 4 68 2 4 11 6 9 5 0 61 60 1 7 1 68 2 6 11 7 9 6 0 61 60 7 8 3 WSHP PRC020D EN 19 TRANE Performance Data Table 6 GET 009 heating performance continued Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 75 1 1 11 4 9 3 0 61 58 5 1 8 75 1 5 11 9 9 8 0 62 62 0 3 1 75 1 8 12 2 10 0 0 62 63 9 4 2 75 2 1 12 4 10 2 0 63 65 3 5 5 75 2 3 12 5 10 3 0 63 65 8 6 2 75 2 4 12 5 10 4 0 63 66 4 7 0 75 2 6 12 6 10 5 0 63 67 0 8 2 77 1 1 11 6 9 5 0 62 60 1 1 8 77 1 5 12 1 10 0 0 62 63 7 3 0 77 1 8 12 4 10 3 0 63 65 6 4 2 77 2 1 12 6 10 5 0 63 67 0 5 5 77 2 3 12 7 10 5 0 63 67 6 6 2 77 2 4 12 8 10 6 0 63 68 2 6 9 77 2 6 12 9 10 7 0 63 68 9 8 1 86 1 1 12 7 10 5 0 63 67 3 1 8 86 1 5 13 3 11 1 0 64 71 3 3 0 86 1 8 13 5 11 3 0 65 73 4 4 1 86 2 1 13 8 11 6 0 65 75 0 5 3 86 2 3 13 8 11 6 0 65 75 7 6 0 86 2 4 14 0 11
38. 49 85 5 5 5 75 2 3 9 4 7 7 0 82 11 0 0 48 84 8 6 2 75 2 4 9 4 7 7 0 82 11 1 0 48 84 2 7 0 75 2 6 9 4 7 7 0 82 11 1 0 48 83 4 8 2 77 1 1 9 1 7 6 0 83 11 0 0 54 96 5 1 8 77 1 5 9 2 7 6 0 83 11 0 0 52 91 6 3 0 77 1 8 9 3 7 6 0 82 11 0 0 51 89 2 4 2 77 2 1 9 3 7 7 0 82 11 0 0 50 87 5 5 5 77 2 3 9 3 7 7 0 82 11 0 0 49 86 8 6 2 77 2 4 9 3 7 7 0 82 11 0 0 49 86 2 6 9 77 2 6 9 3 7 7 0 82 11 0 0 49 85 4 8 1 86 1 1 8 9 7 5 0 85 10 9 0 60 105 4 1 8 86 1 5 8 9 7 5 0 84 10 9 0 57 100 5 3 0 86 1 8 9 0 7 5 0 84 10 9 0 56 98 1 4 1 86 2 1 9 0 7 6 0 84 10 9 0 55 96 4 5 3 86 2 3 9 0 7 6 0 84 10 9 0 55 95 7 6 0 86 2 4 9 0 7 6 0 84 10 9 0 54 95 0 6 7 86 2 6 9 0 7 6 0 84 10 9 0 54 94 3 7 9 95 1 1 8 6 7 4 0 86 10 9 0 67 114 4 1 7 95 1 5 8 7 7 5 0 86 10 8 0 64 109 5 2 8 95 1 8 8 7 7 5 0 86 10 8 0 62 107 0 3 8 95 2 1 8 7 7 5 0 86 10 8 0 61 105 3 5 1 95 2 3 8 7 7 5 0 86 10 8 0 61 104 6 5 7 95 2 4 8 7 7 5 0 86 10 8 0 61 104 0 6 4 95 2 6 8 7 7 5 0 86 10 8 0 60 103 2 7 5 105 1 1 8 4 7 4 0 88 10 9 0 76 124 4 1 6 105 1 5 8 4 7 4 0 88 10 8 0 72 119 5 2 7 105 1 8 8 4 7 4 0 88 10 8 0 71 117 0 3 7 105 2 1 8 4 7 4 0 88 10 8 0 70 115 2 4 9 105 2 3 8 4 7 4 0 88 10 8 0 69 114 6 5 5 105 2 4 8 4 7 4 0 88 10 7 0 69 113 9 6 2 105 2 6 8 4 7 4 0 88 10 7 0 69 113 2 7 3 115 1 1 8 1 7 3 0 90 11 0 0 86 134 6 1 6 115 1 5 8 1 7 3 0 90 10 9 0 83 129 6 2 6 115 1 8 8 1 7 3 0 90 10 9 0 81 127 1 3 6 115 2 1 8 1 7 3 0 90 10 8 0 80 125 3 4 8 115 2 3 8 1 7 3 0 90 10 8 0 80 124 6 5 4 115 2 4 8 1 7
39. 5 120 10 5 30 4 27 0 0 89 40 9 3 05 127 8 18 7 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at AHRI ISO 13256 1 rated cfm For AHRI ISO 13256 1 certified ratings see Table 4 p 17 See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 8 4 Minimum cfm 936 Rated cfm 1170 Maximum cfm 1404 Table 16 GET 036 heating performance Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 25 4 5 23 4 16 9 1 90 17 5 7 6 25 5 8 23 9 17 4 1 90 19 0 11 8 25 7 1 24 3 17 8 1 90 20 0 16 8 25 8 4 24 6 18 1 1 90 20 7 22 5 34 WSHP PRC020D EN Performance Data Table 16 GET 036 heating performance continued Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 25 9 1 24 6 18 1 1 90 21 0 25 8 25 9 8 24 7 18 2 1 90 21 3 29 4 25 10 5 24 8 18 3 1 90 21 5 33 2 32 4 5 25 7 19 1 1 92 23 5 7 4 32 5 8 26 4 19 8 1 93 25 2 11 5 32 7 1 26 8 20 2 1 93 26 3 16 3 32 8 4 27 0 20 5 1 92 27 1 21 8 32 9 1 27 2 20 6 1 92 27 5 25 1 32 9 8 27 3 20 7 1 92 27 8 28 5 32 10 5 27 3 20 8 1 92 28 0 32 2 45 4 5 30 9 24 0 2 00 34 3 5 6 45 5 8 31 6 24 8 1 99 36 5 8 8 45 7 1 32 1 25 3 1 99 37 9 12 5 45 8 4 32 4 25 6 1 99 38 9 16 8 45 9 1 32 5 25 7 1 99 39 4 19 3 45 9 8 32 6 25 8 1 99 39 7 22 0 45 10 5 32 7 25 9 1 98 40 1 24 8 55 4 5 34 7 27 7 2
40. 5 9 8 42 6 31 9 0 75 46 0 1 01 54 4 22 0 45 10 5 42 6 31 9 0 75 46 0 0 99 53 8 24 8 55 4 5 40 6 31 0 0 76 45 6 1 45 75 2 5 4 55 5 8 40 9 31 2 0 76 45 6 1 36 70 7 8 4 55 7 1 41 1 31 2 0 76 45 5 1 31 67 8 12 0 55 8 4 41 2 31 2 0 76 45 5 1 27 65 8 16 1 55 9 1 41 2 31 3 0 76 45 5 1 26 65 0 18 5 55 9 8 41 2 31 3 0 76 45 5 1 25 64 3 21 1 55 10 5 41 3 31 3 0 76 45 5 1 23 63 7 23 8 68 4 5 38 9 30 4 0 78 44 9 1 74 87 9 5 2 68 5 8 39 1 30 5 0 78 44 8 1 66 83 4 8 0 68 7 1 39 3 30 5 0 78 44 7 1 60 80 6 11 5 68 8 4 39 4 30 6 0 78 44 7 1 57 78 6 15 4 68 9 1 39 4 30 5 0 77 44 7 1 55 77 8 17 7 68 9 8 39 4 30 6 0 78 44 7 1 54 77 1 20 1 68 10 5 39 5 30 6 0 78 44 7 1 53 76 5 22 7 75 4 5 37 9 30 0 0 79 44 4 1 91 94 7 5 0 75 5 8 38 1 30 1 0 79 44 4 1 82 90 3 7 9 75 7 1 38 3 30 1 0 79 44 3 1 77 87 5 11 2 75 8 4 38 3 30 1 0 78 44 3 1 74 85 5 15 0 75 9 1 38 4 30 1 0 79 44 3 1 72 84 7 17 3 75 9 8 38 4 30 2 0 78 44 2 1 71 84 0 19 7 75 10 5 38 4 30 2 0 78 44 2 1 70 83 4 22 2 77 4 5 37 6 29 9 0 80 44 3 1 96 96 7 5 0 77 5 8 37 8 30 0 0 79 44 2 1 87 92 2 7 8 77 7 1 38 0 30 0 0 79 44 2 1 82 89 4 11 1 77 8 4 38 1 30 1 0 79 44 1 1 78 87 5 14 9 77 9 1 38 1 30 1 0 79 44 1 1 77 86 7 17 2 77 9 8 38 1 30 1 0 79 44 1 1 76 86 0 19 5 77 10 5 38 1 30 1 0 79 44 1 1 75 85 4 22 0 86 4 5 36 2 29 3 0 81 43 7 2 19 105 4 4 9 86 5 8 36 4 29 4 0 81 43 6 2 10 101 0 7 6 WSHP PRCO20D EN 33 TRANE Performance Data Table 15 GET 036 cooling performance continued Total Gross Gross S
41. 6 5 75 3 5 15 2 12 5 0 77 67 9 19 4 77 1 5 14 1 11 6 0 76 61 6 4 4 77 2 0 14 7 12 1 0 77 64 9 7 2 77 2 4 14 9 12 3 0 77 66 7 9 9 77 2 8 15 2 12 5 0 77 68 1 13 0 77 3 0 15 2 12 6 0 77 68 6 14 7 77 3 2 15 3 12 7 0 77 69 1 16 4 77 3 5 15 4 12 8 0 78 69 7 19 2 86 1 5 15 4 12 7 0 78 69 1 4 2 86 2 0 15 9 13 3 0 79 72 8 7 0 86 2 4 16 3 13 6 0 79 74 7 9 7 86 2 8 16 5 13 7 0 80 76 2 12 6 86 3 0 16 6 13 8 0 80 76 8 14 3 86 3 2 16 7 13 9 0 80 77 3 16 0 86 3 5 16 8 14 0 0 80 78 0 18 7 Notes Heating performance data is tabulated at 68 F DB entering air at AHRI ISO 13256 1 rated cfm See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 2 8 Minimum cfm 303 Rated cfm 380 Maximum cfm 456 Table 9 GET 015 cooling performance Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kW LWT feet head 45 1 9 16 9 14 0 0 83 18 5 0 49 64 8 4 6 45 2 3 16 9 14 0 0 83 18 4 0 45 61 0 6 6 45 2 8 17 0 14 1 0 83 18 4 0 42 58 2 9 3 45 3 5 17 1 14 1 0 83 18 4 0 39 55 5 13 8 45 3 8 17 1 14 1 0 82 18 5 0 38 54 7 15 9 45 4 1 17 1 14 1 0 82 18 4 0 38 54 0 18 2 45 4 4 17 1 14 1 0 83 18 3 0 37 53 4 20 4 55 1 9 16 7 14 0 0 84 18 8 0 61 75 0 4 4 55 2 3 16 7 13 9 0 83 18 7 0 57 71 2 6 4 55 2 8 16 8 14 0 0 83 18 6 0 54 68 3 9 0 55 3 5 16 8 14 0 0 83 18 6 0 51 65 6 13 3 WSHP PRC020D EN 23 TRANE Performance Data Table
42. 7 0 66 76 2 6 7 86 2 6 14 0 11 8 0 65 77 0 7 9 Notes Heating performance data is tabulated at 68 F DB entering air at AHRI ISO 13256 1 rated cfm See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 2 1 Minimum cfm 272 Rated cfm 340 Maximum cfm 408 Table 7 GET 012 cooling performance Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kW LWT feet head 45 1 5 13 1 10 3 0 78 14 7 0 45 64 6 4 9 45 2 0 13 2 10 3 0 78 14 7 0 43 59 7 8 1 45 2 4 13 2 10 3 0 78 14 7 0 42 57 2 11 2 45 2 8 13 3 10 3 0 78 14 7 0 41 55 5 14 6 45 3 0 13 3 10 3 0 78 14 7 0 41 54 8 16 5 45 3 2 13 3 10 3 0 78 14 7 0 41 54 2 18 4 45 3 5 13 3 10 3 0 78 14 7 0 41 53 4 21 5 55 1 5 13 0 10 2 0 79 14 8 0 52 74 7 4 7 55 2 0 13 1 10 2 0 78 14 7 0 49 69 7 7 8 55 2 4 13 1 10 2 0 78 14 7 0 48 67 3 10 7 55 2 8 13 1 10 2 0 78 14 7 0 47 65 5 14 1 55 3 0 13 1 10 2 0 78 14 7 0 46 64 8 15 9 55 3 2 13 1 10 3 0 78 14 7 0 46 64 2 17 8 55 3 5 13 1 10 3 0 78 14 7 0 46 63 4 20 7 68 1 5 12 7 10 1 0 79 14 8 0 62 87 7 4 5 68 2 0 12 8 10 1 0 79 14 8 0 59 82 8 7 4 68 2 4 12 8 10 1 0 79 14 7 0 57 80 3 10 2 20 WSHP PRC020D EN Performance Data Table 7 012 cooling performance continued Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kw LWT feet head 68 2 8 12 8 10 1 0 79 14 7 0
43. 9 19 4 44 1 8 012 489 1121 015 2314 4514 018 591 1149 024 27 1 8 54 5 8 036 689 1387 Return Air hinged Acoustical Door The hinged acoustical door is recessed into the wall so that the door is flush with the surface of the wall The opening through the wall for the door assembly must be centered with the return air opening of the unit cabinet For full installing instructions of the return air acoustical door see WSHP SVNO8 EN The dimensional data shown is based on Trane s factory supplied return air door Figure 15 Single deflection grille Blades are adjustable for controlling horizontal discharge path Figure 16 Double deflection grille Blades are adjustable for controlling discharge path in both horizontal and vertical paths Table 28 Supply air opening size Single Grille Top Discharge up 100 CFM 50 CFM 33 CFM to 100 CFM 009 012 14 W x 14 H 10 W x 6 H 14 W x 10 H 015 018 16 Wx12 H 14 WXx12 H 12 Wx8 H 16 Wx14 H 024 22 Wx18 H 14 Wx12 H 12 Wx8 H 16 Wx14 H 036 16 Wx14 H 14 Wx12 H 17 Wx17 H WSHP PRCO20D EN Controls Deluxe 24V Electronic Controls The 24V deluxe design is a microprocessor based control board conveniently located in the control box The board is unique to Trane water source products and is designed to control the unit as well as provide outputs for unit status m and fault detection 444 9 ay ORG m Rm E uk uki The board is
44. 9 22 2 1 68 124 6 10 2 115 5 0 16 5 14 6 0 89 22 2 1 67 123 9 11 8 115 5 3 16 5 14 6 0 89 22 1 1 66 123 4 12 8 120 2 3 15 7 14 2 0 90 22 2 1 90 139 8 3 0 120 2 9 15 8 14 3 0 90 22 1 1 85 135 2 4 5 120 3 6 15 8 14 3 0 90 22 0 1 81 132 2 6 5 120 4 2 15 9 14 3 0 90 21 9 1 78 130 4 8 5 120 4 6 15 9 14 3 0 90 21 9 1 76 129 5 10 0 120 5 0 15 9 14 3 0 90 21 9 1 75 128 8 11 6 120 5 3 15 9 14 4 0 90 21 9 1 75 128 3 12 7 Notes Cooling performance data is tabulated at 80 6 F DB 66 2 F WB entering air at AHRI ISO 13256 1 rated cfm For AHRI ISO 13256 1 certified ratings see Table 4 p 17 See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 4 2 Minimum cfm 501 Rated cfm 650 Maximum cfm 780 Table 12 GET 018 heating performance Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 25 2 3 12 3 8 8 1 03 17 2 5 2 25 2 9 12 6 9 1 1 03 18 7 8 1 25 3 6 12 8 9 3 1 04 19 8 11 7 25 4 2 12 9 9 3 1 04 20 6 15 8 25 4 6 12 9 9 4 1 04 20 9 18 3 25 5 0 12 9 9 4 1 04 21 3 21 0 25 5 3 12 9 9 3 1 04 21 5 22 7 32 2 3 13 5 9 9 1 05 23 2 5 0 32 2 9 13 9 10 3 1 06 24 9 7 8 32 3 6 14 1 10 5 1 06 26 2 11 4 32 4 2 14 4 10 7 1 07 26 9 14 9 32 4 6 14 4 10 8 1 07 27 3 17 5 32 5 0 14 5 10 9 1 07 27 7 20 2 32 5 3 14 6 10 9 1 07 27 9 22 0 45 2 3 16 3 12 5 1 11 33 9 3 8 45 2 9 16 8 13 0 1 12 36 1 6 0 28 WSHP PRCO20D EN
45. D EN Controls and filter status reversing valve coil two speed fan motor and water isolation valve support for variable speed pumping Note Optional condensate overflow Tracer ZN510 functions include WSHP PRCO20D EN Building Control Advantages The Tracer ZN510 controller has the ability to share information with one or several units on the same communication link This sharing of information is made possible via a twisted pair of wire and a building automation system or through Trane s Rover service tool An advantage of installing a ZN510 is its capability to work with other LonTalk certified controllers This provides greater flexibility to the building owner as well as greater flexibility in design Integrating the ZN510 on water source equipment and tying it to Summit system provides a complete building management system Each Tracer Summit can connect to a maximum of 120 controllers With the ICS system the Tracer can initiate an alarm on a loss 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 used for a large space s that may require more than one unit In addition to this application design the Tracer ZN510 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
46. DB 66 2 F WB entering air at AHRI ISO 13256 1 rated cfm For AHRI ISO 13256 1 certified ratings see Table 4 p 17 See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 3 5 Minimum cfm 432 Rated cfm 540 Maximum cfm 648 Table 10 GET 015 heating performance Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 25 1 9 9 7 6 9 0 82 17 7 6 2 25 2 3 9 9 7 0 0 83 18 9 8 9 25 2 8 10 0 7 2 0 83 19 9 12 5 25 3 5 10 2 7 4 0 83 20 8 18 4 25 3 8 10 3 7 4 0 83 21 1 21 2 25 4 1 10 3 7 5 0 83 21 4 24 2 25 4 4 10 3 7 5 0 83 21 6 27 1 32 1 9 10 6 7 7 0 84 23 8 6 0 32 2 3 10 8 8 0 0 84 25 1 8 6 32 2 8 11 0 8 1 0 85 26 2 12 1 32 3 5 11 2 8 3 0 85 27 3 17 8 32 3 8 11 3 8 4 0 85 27 6 20 6 32 4 1 11 3 8 4 0 85 27 9 23 5 32 4 4 11 4 8 5 0 85 28 1 26 3 45 1 9 12 6 9 6 0 87 34 7 4 6 45 2 3 12 9 9 9 0 87 36 4 6 6 45 2 8 13 2 10 2 0 88 37 7 9 3 45 3 5 13 4 10 4 0 88 39 1 13 8 45 3 8 13 5 10 5 0 88 39 5 15 9 45 4 1 13 6 10 5 0 88 39 9 18 2 45 4 4 13 6 10 6 0 88 40 2 20 4 55 1 9 14 1 11 1 0 89 43 2 4 4 55 2 3 14 5 11 5 0 89 45 0 6 4 WSHP PRC020D EN 25 TRANE Performance Data Table 10 GET 015 heating performance continued Total Gross Heat of Absorb Compr Power WPD EWT GPM Mbtuh Mbtuh kW LWT feet head 55 2 8 14 8 11 8 0 90 46 6 9 0 55 3 5 15 1 12 1 0 90 48 1 13 3 55 3 8 15 2 12 2 0 90 48 6
47. ET 009 272 0 04 340 0 05 408 0 08 GET 012 303 0 04 380 0 07 456 0 11 GET 015 432 0 06 540 0 09 648 0 12 GET 018 520 0 08 650 0 12 780 0 16 GET 024 656 0 06 820 0 08 984 0 12 GET 036 936 0 10 1170 0 16 1404 0 23 Note The pressure drop across the RAD door should be included the TOTAL ESP when determining airflow and fan motor power usage If the door is supplied by another vendor the pressure drop across that door must be included in the TOTAL ESP when determining airflow and fan motor power usage Table 22 Antifreeze correction factors Methanol Concentration by Volume item 50 Ethylene Glycol Concentration by Volume item 50 Propylene Glycol Concentration by Volume item 50 Brine NaCL Concentration by Volume item 50 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 40 WSHP PRCO20D EN WSHP PRCO20D EN Unit Fan Performance Figure 6 Cooling capacity correction factor Meith Ficia 1 Fa WIA a as Farcani Volume of Anies Figure 7 Heating capacity correction factor Paai Capacty Comecton acier 1 1 1 T Carnecton Factor Figure 8 Water pressure drop correction factor Fraeesmuane Drop F 2200 Correction Factor 1 ar adu Percar Voume of Ark freeze Example 1 Eth
48. IR 009 012 10 W X 6 H 015 024 z 14 W X 12 H 036 16 W X 14 H FRONT RIGHT SUPPLY AIR 009 012 10 W X 6 H 015 024 z 14 W X 12 H 036 16 W X 14 H R S D DIGIT 15 9 BACK FRONT LEFT SUPPLY AIR 009 012 Not Recommended 015 024 12 W X 8 H 036 14 W X 12 H FRONT RIGHT LEFT SUPPLY AIR 009 012 Not Recommended 015 024 12 W X 8 H 036 14 W X 12 H R S D R S D O O O O O O RIGHT SUPPLY AIR 009 012 14 W X 14 H 015 018 16 W X 12 H 024 14 W x 16 H 036 Not Recommended TOP SUPPLY AIR 009 012 14 X 10 015 024 16 X 14 036 17 x 17 WSHP PRC020D EN BACK LEFT SUPPLY AIR 009 012 10 W X 6 H 015 024 14 W X 12 H 036 16 W X 14 H BACK RIGHT SUPPLY AIR 009 012 10 W X 6 H 015 024 14 W X 12 H 036 16 W X 14 H R S D O O O DIGIT 15 6 LEFT RIGHT SUPPLY AIR 009 012 10 W X 6 H 015 024 14 W X 12 H 036 16 W X 14 H BACK FRONT RIGHT SUPPLY AIR 009 012 Not Recommended 015 024 12 W X 8 H 036 14 W X 12 H On Ov R O BACK SUPPLY AIR 009 012 14 W X 14 H 015 018 16 W X 12 H 024 14 W x 16 H 036 Not Recommended LEFT SUPPLY AIR 009 012 14 W X 14 H 015 018 2 16 W X 12 H 024 14 W x 16 H 036 Not Recommended RS D O O FRONT SUPPLY AIR 009 012 14 W X 14 H 015 018 16 W X 12 H 024 14 W x 16 H 036 Not Recommended 47 TRANE Dimensional Data Figure 13 Riser extensions
49. PRCO20D EN Water Flow Control The factory installed water flow control option is hard piped to the copper or cupro nickel water coil The selection is available in a high or low flow option An isolation valve and strainer are standard when the factory flow device is selected Two foot hose and ball valves are recommended for these units The hoses and ball valves are optional and can be selected with the chassis portion of the order or can be field provided These items are shipped separate from the chassis Table 26 Factory hose kit flow options Low Flow High Flow Unit Size Digit 9 3 4 Digit 9 5 6 009 1 5 GPM 2 0 GPM 012 2 0 GPM 2 5 GPM 015 2 5 GPM 3 5 GPM 018 3 0 GPM 4 0 GPM 024 4 0 GPM 6 0 GPM 036 6 0 GPM 8 0 GPM WSHP PRCO20D EN i p ri a LX Dimensional Data Water In Strainer Isolation Valve Flow Control 45 TRANE Dimensional Data Figure 11 Riser to unit connection RISER ARRANGEMENTS 2 1 2 64 Ges 37 813 gt gt z sl n a 2 m o oc SUPPLY RETURN AND DRAIN RISER CONNECTIONS TO THE UNIT BACK OR RIGHT VIEW SHOWN IN FIGUREA SYSTEM SUPPLY IS FROM THETOP BOTTOM OR SYSTEM RETURN IS FROM THETOP BOTTOM SUPPLY OR RETURN CAPPED AT THE CABINET Note This page may be used in riser schedule preparation for field installed risers SYSTEM SUPPLY IS FROMTHE BOTTOM
50. ation 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 PRCO20D EN 09 Nov 2013 We are committed to using environmentally Supersedes WSHP PRCO20 EN 23 Apr 2013 conscious print practices that reduce waste Ingersoll Rand
51. be design The inner water tube is deeply fluted to enhance heat transfer and minimize fouling and scaling The outer refrigerant gas tube is made from steel material The coil is leak tested to assure there TRANE Features and Benefits is no cross leakage between the water tube and the refrigerant gas steel tube coil The 7 009 012 015 018 and 34 024 036 threaded water connections to the water coil are available on the exterior chassis top A flexible hose connection with shut off is typically used between the riser and water coil in out connections on the chassis to reduce water vibration The refrigerant flow metering is made through a thermal expansion valve TXV The TXV allows the unit to operate with an entering fluid temperature from 25 F to 120 F and an entering air temperature from 40 F to 90 F The valve precisely meters refrigerant flow through the circuitry to achieve desired heating or cooling Unlike cap tube assemblies the TXV allows the exact amount of refrigerant required to meet the coil load demands This precise metering increases the over all efficiency of the unit The units reversing valve is piped to be energized in the cooling mode All vertical high rise units ship in a heat pump configuration with a system reversing valve Supply Return Condensate Risers Supply return and condensate risers are available as a factory mounted and shipped option The risers are constructed from type L or M cop
52. ble are also supplied LEDs light emitting diodes are included for diagnostics of the equipment The deluxe controller accepts a standard 24V digital thermostat ZN510 Controller option This system utilizes factory furnished and mounted DDC controls for operation on a COMM 5 LonMark link The Tracer ZN510 control package includes 75 VA transformer The controller provides random start delay heating cooling status occupied unoccupied mode fan status and filter maintenance options Optional wiring from the factory for condensate overflow is also available Three LEDs light emitting diodes are included for diagnostics of the equipment Return Air Hinged Acoustical Door option A frame mounted acoustical door is provided to attenuate noise door is hinged to the wall frame and contains magnetic latches to keep the door aesthetically in place It is flush mounted to the wall as to not protrude into the owner space door allows access to the unit for ease of filter replacement The door is constructed from heavy gauge formed galvanized steel and painted Polar white It is made available in a keylock design and a keyless design to fit several design applications Supply Air Grilles option Supply air grilles are available for air discharge from the unit The grilles are made in either a vertical louver or a bi directional louver option The grilles are painted the Polar White to match the door assembly Ball Valves op
53. ctional horsepower motor The blower motor assembly is designed for efficient and quiet operation The PSC motor is multi speed and is wired for a HIGH or LOW setting The ECM motor is programmed to provide four constant CFM profiles and is shipped on Profile B the rated CFM of the unit The motor is also factory programmed to provide 50 airflow in the fan only mode for additional energy savings Service or maintenance to the blower motor is easily achieved by removal of a single bracket Risers Factory provided supply and return risers are L copper The drain riser is copper Swages from one diameter to another are performed as specified by the engineer in the field Diameters and length are specified by the equipment model number Riser insulation optional contains a flame rating per UL94 5V with flame spread rate of no more than 25 Controls The unit control box contains all necessary devices to allow heating and cooling operation to occur from a unit mounted plug in thermostat or sensor The devices are as follows e 24VAC energy limiting class 75 VA breaker type transformer e 24VAC blower motor relay e 24 compressor contactor for compressor control e Lockout relay which controls cycling of the compressor is provided to protect the compressor during adverse operating conditions The device may be reset by interrupting the 24 VAC control circuit Reset may be done either at the thermostat or by momentary
54. ctory mounted flow control with strainer and 10 Unit mounted switch and fuse option isolation valve option 11 Lower height cabinet for ducted applications 4 Plug in chassis and plug in thermostat design 12 Auxiliary drain pan 5 Factory supplied riser options 13 Rust resistant chassis drain pan 6 Maintenance accessibility for coil fin cleaning 14 Intelligent controls 7 Extra quiet design includes enhanced and deluxe sound proofing choice Refrigeration Control TXV Water Out Connection Water In Connection Refrigeration Section Auxiliary Completely Enclosed Drain Pan Chassis Rails Trademarks Axiom ReliaTel TOPSS Tracer Trane and the Trane 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 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 PRCO20D EN 09 November 2013 Performance Data Efficiency Upgrades WPRD Chassis 2013Trane All rights reserved WSHP PRCO20D EN Table of Contents WSHP PRCO20D EN eee hee Eee eee 2 Water Source Vertical High Rise 2 Features and Benefits
55. d on ISO Standard 13256 1 1998 Certified conditions are 80 6 F DB 66 2 F WB EAT in cooling and 68 F DB 59 F WB EAT in heating Table 5 GET 009 cooling performance Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kW LWT feet head 45 1 1 10 3 8 0 0 77 11 7 0 41 65 7 2 1 45 1 5 10 4 8 0 0 77 11 8 0 40 60 7 3 4 45 1 8 10 5 8 0 0 76 11 9 0 39 58 2 4 7 45 2 1 10 6 8 1 0 76 12 0 0 39 56 4 6 2 45 2 3 10 8 8 1 0 75 12 1 0 39 55 7 6 9 45 2 4 10 8 8 1 0 75 12 1 0 39 55 1 7 8 45 2 6 10 8 8 1 0 75 12 2 0 39 54 3 9 1 55 1 1 9 8 7 8 0 79 11 3 0 44 75 1 2 0 55 1 5 10 0 7 9 0 79 11 4 0 42 70 2 3 3 55 1 8 10 1 7 9 0 78 11 5 0 42 67 8 4 5 55 2 1 10 2 7 9 0 78 11 6 0 41 66 0 5 9 55 2 3 10 2 7 9 0 78 11 6 0 41 65 3 6 7 55 2 4 10 2 7 9 0 78 11 6 0 41 64 7 7 5 55 2 6 10 3 8 0 0 77 11 7 0 41 63 9 8 7 68 1 1 9 4 7 7 0 82 11 1 0 49 87 7 1 9 68 1 5 9 5 7 7 0 81 11 1 0 47 82 8 31 68 1 8 9 6 1 7 0 81 11 1 0 46 80 4 4 3 68 2 1 9 6 7 7 0 80 11 2 0 46 78 6 5 6 68 2 3 9 6 7 8 0 80 11 2 0 45 77 9 6 4 68 2 4 9 7 7 8 0 80 11 2 0 45 77 3 7 1 68 2 6 9 7 7 8 0 80 11 2 0 45 76 5 8 3 75 1 1 9 2 7 6 0 83 11 0 0 53 94 5 1 8 75 1 5 9 3 7 6 0 82 11 0 0 51 89 7 3 1 WSHP PRC020D EN 17 TRANE Performance Data Table 5 GET 009 cooling performance continued Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kw LWT feet head 75 1 8 9 3 7 7 0 82 11 0 0 49 87 2 4 2 75 2 1 9 4 7 7 0 82 11 0 0
56. dorm rooms hotels and motels where multiple supply air configurations may be required for individual tenant heating and cooling The equipment requires little space and is tucked away from sight and rough handling The vertical stack design is economical to install requiring no ductwork for air supply The riser design may be stacked one on top of another for multi story applications or shared between two units see example B when architectural design permits Because the chassis is removable serviceability to the equipment is enhanced If service does become a requirement the chassis is simple to remove from the cabinet replaced with a back up chassis then repaired off site at a convenient time LI ERE 2 B E 25090 SINGLE SUPPLY CORNER SET UP DUAL SUPPLY DIVIDING WALL SET UP SINGLE SUPPLY PRIMARY SECONDARY SET UP 8 WSHP PRCO20D EN Application Considerations Equipment Risers The riser provides an easy way to facilitate the water flow through a multi story building and the high rise heat pump The I high rise heat pump is best applied to a building with identical KANA a zones on each floor and zones that are typically small An example building might include a hotel dorm condominium or assisted living facility With these types of buildings the riser column external to the unit cabinet can be stacked one on top of the
57. e unit height Cooling Tower Expansion Tank Water Storage Central Pumps Tri ko and Loop Controller Water to Water Heat Pump WSHP LG The dry wall enclosure allows the unit to blend in with the decor of the room If renovations are needed the drywall portion of the unit can simply be re papered or repainted with the remainder of the room With careful design the high rise WSHP can mu be incorporated into a room design while System occupying minimum floor space Installation Tips When installing a high rise water source heat pump there are specific installation requirements that should be taken into consideration These include e Noise control e Riser location e Furring in the unit Sound Attenuation The high rise heat pump is better suited for acoustically sensitive water source heat pump applications than other water source products Compressor and water noise are attenuated by the filter panel sheet rock and the acoustically lined door Air noise is silenced through the extended and insulated duct portion at the top of the vertical cabinet TRANE Application Considerations Figure 4 Installation illustration ur RM 101 RM 102 RM 103 RM 104 RM 110 RM 111 RM 112 RM 113 Q gt Tr A E Equipment Installation The vertical high rise unit is versatile in design to fit numerous applications It is typically applied to
58. e unit installation the units may be daisy chained directly to the Trane Tracer loop controller TLC pump s boiler and tower for a complete net worked water source system Direct Digital Controls When the ZN510 controller is linked directly to the Tracer Summit each Tracer Summit building automation system can connect a maximum of 120 Tracer ZN510 controllers MR pe s a1 ARA MT 4 es Tracer ZN510 Controls The Tracer ZN510 direct digital control DDC system is specifically designed for single water source equipment to provide control of the entire unit as well as outputs for unit status and fault detection This device is factory installed commissioned and tested to ensure the highest level of quality in unit design Each of the controller s features and options were selected to coordinate with the unit hardware to provide greater energy efficiency and equipment safety to prolong the equipment life Because the ZN510 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 Features include 75 VA transformer compressor contactor compressor lockout relay compressor run capacitor random start delay heating cooling status occupied unoccupied mode low pressure switch high pressure switch fan WSHP PRCO20
59. en Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kw LWT feet head 86 7 1 36 5 29 4 0 80 43 5 2 05 98 3 10 8 86 8 4 36 6 29 5 0 80 43 5 2 01 96 4 14 5 86 9 1 36 7 29 5 0 80 43 5 1 99 95 5 16 7 86 9 8 36 7 29 6 0 81 43 5 1 98 94 9 19 0 86 10 5 36 7 29 5 0 80 43 5 1 97 94 3 21 4 95 4 5 34 7 28 8 0 83 43 1 2 46 114 2 4 5 95 5 8 34 9 28 9 0 83 43 0 2 36 109 8 7 0 95 7 1 35 0 28 9 0 82 42 9 2 30 107 1 10 0 95 8 4 35 1 28 9 0 82 42 9 2 27 105 2 13 5 95 9 1 35 2 28 9 0 82 42 8 2 24 104 4 15 5 95 9 8 35 2 29 0 0 82 42 8 2 23 103 7 17 7 95 10 5 35 2 29 0 0 82 42 8 2 22 103 1 20 0 105 4 5 32 9 28 1 0 85 42 4 2 79 123 9 4 3 105 5 8 33 1 28 2 0 85 42 3 2 68 119 6 6 8 105 7 1 33 2 28 2 0 85 42 2 2 62 116 9 9 7 105 8 4 33 3 28 2 0 85 42 1 2 58 115 0 13 1 105 9 1 33 4 28 2 0 85 42 1 2 56 114 2 15 1 105 9 8 33 4 28 3 0 85 42 1 2 54 113 6 17 2 105 10 5 33 4 28 3 0 85 42 0 2 53 113 0 19 4 115 4 5 31 0 27 3 0 88 41 8 3 16 133 6 4 2 115 5 8 31 2 27 4 0 88 41 6 3 05 129 3 6 6 115 7 1 31 3 27 5 0 88 41 5 2 98 126 7 9 5 115 8 4 31 4 27 5 0 88 41 4 2 94 124 9 12 8 115 9 1 31 4 27 5 0 88 41 4 2 92 124 1 14 7 115 9 8 31 4 27 5 0 87 41 3 2 90 123 4 16 7 115 10 5 31 5 27 5 0 87 41 3 2 89 122 9 18 9 120 4 5 30 0 26 9 0 89 41 3 3 30 138 4 4 4 120 5 8 30 2 26 9 0 89 41 2 3 21 134 2 6 7 120 7 1 30 3 27 0 0 89 41 1 3 15 131 6 9 4 120 8 4 30 4 27 0 0 89 41 0 3 10 129 8 12 5 120 9 1 30 4 27 0 0 89 40 9 3 08 129 0 14 4 120 9 8 30 4 27 0 0 89 40 9 3 06 128 3 16
60. equence E R 410A Digits 5 7 Nominal Size Tons 009 34 Tons 012 1 015 14 Tons 018 112 Tons 024 2Tons 036 3Tons Digit 8 Voltage Volts Hz Phase 1 208 60 1 2 230 60 1 7 265 60 1 Digit 9 Heat Exchanger 1 Copper Water Coil 2 Cupro Nickel Water Coil 3 Copper Water Coil with Isolation Valve and Low Flow Control 4 Cupro Nickel Water Coil with Isolation Valve and Low Flow Control 5 Copper Water Coil with Isolation Valve and High Flow Control 6 Cupro Nickel Water Coil with Isolation Valve and High Flow Control Digit 10 Current Design Sequence WSHP PRCO20D EN Digit 11 Refrigeration Circuit 0 Heating and Cooling Circuit Digit 12 Blower Configuration 1 Free Discharge PSC motor 2 Ducted Discharge PSC motor 3 Free Discharge w 1 Flange PSC motor 4 Free Discharge w 3 Flange PSC motor 5 motor w o flange 6 ECM motor w 1 flange 7 motor w 3 flange 8 Chassis only No motor ECM Control 9 Chassis only No motor PSC Control Digit 13 Freeze Protection 0 None or Standard A 20 Freezestat B 35 Freezestat Digit 14 Open Digit 0 Open Digit 15 Supply Air Arrangement 0 No Supply Air Arrangement 1 Back and Front Supply Air 2 Back and Left Supply Air 3 Back and Right Supply Air 4 Front and Left Supply Air 5 Front and Right Supply Air 6 Left and Right Supply Air 7 Back Front and Right S
61. er is not disable until the main loop temperature is 5 F greater than the low loop supply setpoint for more than 5 minutes The TLC will also monitor the boiler loop temperature and provide an alarm if the temperature is below the boiler loop low limit after 30 minutes of run time The TLC will provide an alarm if the boiler loop temperature exceeds the boiler loop high limit after 30 minutes continually Facilities Management Water source heat pump systems are naturally decentralized thus they inherently provide individual zone control Typical installations use mechanical thermostats to provide localized control Central plant control is typically handled by a control panel located in the main mechanical room Minimal coordination is usually required between the central plant and the individual water source heat pumps for successful operation of the system A direct digital control system is recommended to help support coordination efforts between the central plant and the individual water source heat pumps This enhanced coordination can result in reductions operating cost of the entire system The following items are typical of the additional coordination Night setback and setup After hour usage for tracking and billing Pump cycling for occupied unoccupied control Zone scheduling Maintenance reporting for monitoring unit fault conditions Trend logging of the system water temperatures Monitoring of system levels for items such as wate
62. erformance data is tabulated at 68 F DB entering air at AHRI ISO 13256 1 rated cfm See Performance correction tables to correct performance at conditions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 4 2 Minimum cfm 501 Rated cfm 650 Maximum cfm 780 WSHP PRC020D EN 29 TRANE Performance Data Table 13 GET 024 cooling performance Total Gross Gross Sen Heat of Rej Comp Pwr WPD EWT GPM Mbtuh Mbtuh SHR Mbtuh kw LWT feet head 45 3 0 27 4 20 9 0 76 30 3 0 84 65 2 3 4 45 3 9 27 8 21 0 0 76 30 4 0 77 60 6 5 5 45 4 7 28 0 21 1 0 75 30 5 0 73 58 0 7 6 45 5 6 28 2 21 1 0 75 30 6 0 70 55 9 10 3 45 6 1 28 3 21 2 0 75 30 6 0 69 55 0 12 0 45 6 5 28 4 21 2 0 75 30 7 0 68 54 4 13 4 45 7 0 28 3 21 2 0 75 30 6 0 67 53 7 15 2 55 3 0 26 6 20 5 0 77 30 0 1 01 75 0 3 3 55 3 9 26 9 20 7 0 77 30 1 0 94 70 4 5 2 55 4 7 27 1 20 7 0 76 30 2 0 91 67 8 7 3 55 5 6 27 2 20 7 0 76 30 2 0 87 65 8 9 9 55 6 1 27 3 20 8 0 76 30 3 0 86 64 9 11 5 55 6 5 27 4 20 8 0 76 30 3 0 85 64 3 12 9 55 7 0 27 4 20 8 0 76 30 3 0 84 63 7 14 6 68 3 0 25 6 20 2 0 79 29 8 1 23 87 9 3 2 68 3 9 25 9 20 3 0 78 29 9 1 17 83 3 5 0 68 4 7 26 0 20 3 0 78 29 9 1 13 80 7 6 9 68 5 6 26 1 20 4 0 78 29 9 1 10 78 7 9 4 68 6 1 26 2 20 4 0 78 29 9 1 09 77 8 11 0 68 6 5 26 2 20 4 0 78 29 9 1 08 77 2 12 3 68 7 0 26 3 20 4 0 78 29 9 1 07 76 6 14 0 75 3 0 25 0 19 9 0 80 29 6 1 36 94 8 3 1 75 3 9 25 3 20 0 0 79 29 7 1 30 90 2 4 9 75 4 7 25
63. et riser GT D E F 009 012 1624 413 16 413 14 375 34 19 015 018 40 5 8 1032 18 476 19 024 036 12 305 49 5 8 1260 22 5 8 575 3 4 19 WSHP PRCO20D EN 43 TRANE Dimensional Data Figure 10 Unit cabinet riser 1 1 2 38 1 2 12 7 O D FACTORY 7 8 22 mm O D ELECTRIC CONDUIT FOR FIELD ELECTRIC ONDU CONDUIT LOW VOLTAGE CONNECTION BOX La FOR UNIT MTD AA THERMOSTAT S 1 2 13 NPTI GET 009 018 3 4 19 024 036 lt d K 60 ZO 1524 ou t x oe 2 BO OE LL AN NOTE REAR RISER LOCATION SHOWN Table 25 Dimensional data unit cabinet riser 16 16 8 1 8 43 7 8 3215 13 5 8 14 16 7 8 4 3 8 634 413 413 206 1114 826 346 356 429 111 171 16 4 16 8 1 8 43 7 8 3215 13 5 8 14 16 3 8 4 3 8 67 4 413 413 206 1114 826 346 356 416 111 171 015 018 18 20 10 45 3 8 34 8 9 17 3 8 16 1 8 18 534 434 457 508 254 1153 886 441 410 470 146 121 024 036 24 24 12 54 3 8 41 21 3 8 22 2134 6 610 610 305 1381 1041 543 559 552 102 152 44 WSHP
64. factory wired to a terminal stripto provide all necessary terminals E jd for field connections c 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 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 Note Electric heat is optional Deluxe 24V features include Anti short Cycle Timer The anti short cycle timer provides a three minute time delay between compressor stop and compressor restart Once thermostat is enabled an automatic 3 minute delay is provided for compressor protection 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 compressors will be enabled at this time if all start up time delays have ex
65. grammed to provide four constant CFM profiles and is shipped on Profile the rated CFM of the unit To change the PSC speed tap or the ECM CFM profile see installation manual WSHP SVX03 EN for instructions Controls Standard controls include a 24V micro processor Deluxe controller for a wall mounted thermostat option The thermostat is typically placed above the return air door Even though the thermostat is considered to be unit mounted the thermostat is mounted to the dry wall that covers the front of the unit WSHP PRCO20D EN WSHP PRCO20D EN Features and Benefits Thermostat selections are provided in the Thermostats and Zone Sensors p 55 section of the catalog They are available in manual or automatic changeover options The deluxe controller includes relays for anti short cycle compressor protection random start delay brown out protection low pressure time delay compressor delay on start and night setback control These extended control features offer greater system performance to extend the equipments life Figure 2 Deluxe control box The Tracer ZN510 controller option is provided on the vertical stack design for direct digital control DDC systems This controller offers the building owner innovative ways to optimize heating and cooling energy for the building Faults and sensors include random start delay heating cooling status occupied unoccupied mode and fan filter status
66. ickel Water Coil with Isolation Valve and Low Flow Control 5 Copper Water Coil with Isolation Valve and High Flow Control 6 Cupro Nickel Water Coil with Isolation Valve and High Flow Control Digit 10 Current Design Sequence Digit 11 Refrigeration Circuit 0 Heating and Cooling Circuit Digit 12 Blower Configuration 1 Free Discharge PSC motor 2 Ducted Discharge PSC motor 3 Free Discharge w 1 Flange PSC motor 4 Free Discharge w 3 Flange PSC motor 5 ECM motor w o flange 6 ECM motor w 1 flange 7 ECM motor w 3 flange 8 Chassis only No motor ECM Control 9 Chassis only No motor PSC Control Digit 13 Freeze Protection A 20 freezestat B 35 freezestat Digit 14 Open Digit 0 Open S Special 14 Digit 15 Supply Air Arrangement 0 No Supply Air Arrangement 1 Back and Front Supply Air 2 Back and Left Supply Air 3 Back and Right Supply Air 4 Front and Left Supply Air 5 Front and Right Supply Air 6 Left and Right Supply Air 7 Back Front and Right Supply Air 8 Back Front and Left Supply Air 9 Front Right and Left Supply Air B Back Supply Air L Left Supply Air R Right Supply Air T Top Supply Air F Front Supply Air Digit 16 Return Air Arrangement 0 No Return Air Door Field Provided 1 Flush with Wall Acoustic Hinged Return Air Door with Keyless Entry 2 Flush with Wall Acoustic Hinged Return Air Door with Keylock Ent
67. ill 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 17 Ball valve kit manual MeasurfloVac kit automatic Optional Isolation Valve Optional Isolation Valve 2 Position Valve 2 Position Valve AUTOMATIC TEMPERATURE TEMPERATURE CONTROL 2510 Mesurflo w PT s L Mesurmeter w PT s VALVE ERAS I LA CRD GRIS ji Ball Valve A Flex Hose gt Optional Yball Strainer w Blowdown Valve amp Hose Connector Optional Yball Strainer w Blowdown Valve amp Hose Connector Tracer Loop Controller Trane s Tracer Loop Controller TLC is a cost effective way of controlling the WSHP equipment as well as the mechanical components of the system Fluid coolers boilers pumps and water source heat pump units can be connected and controlled by the loop controller for total system optimization The Tracer loop control panel has the ability to lower or raise
68. it would be advisable to move to a 1 riser Two methods may be used when piping a riser column These include direct return or reverse return Advantages may be seen in both types of piping methods For a direct return installation the riser system is straightforward leaving little confusion about properly sized risers This provides more cost effective advantage during the installation process The disadvantages of this system is the pressure drop The total pressure drop on the unit for the sixth floor is much greater than the total pressure drop on the unit for the first floor This means that the riser column will require balancing from floor to floor during installation Piping advantages for the reverse return system include the ability to design the riser column so that the total system pressure drop through each unit is equalized The overall pressure drop 15 also lower allowing some energy savings potential This piping method however does not eliminate the need for proper balancing at each unit The disadvantage of this system relates to cost and complexity The reverse return method typically costs more because of the additional pipe required for each riser column Proper central plant control is critical to the operation of a water source heat pump system Loss of waterflow or loop temperatures outside of the recommended range will severely impact the operation of the equipment The following should be followed as mini
69. main power interruption high pressure switch protects the compressor against operation at refrigerant system pressures exceeding 650 psig Alow pressure switch is provides thattrips at 40 psig A freezestat is provided tripping at either 35 or 20 F e Factory installed wire harness is available for the Deluxe and ZN510 control packages Power connections are made through a factory installed conduit located at the top of the units cabinet An optional disconnect is provided conduit grants access directly to the control box Nameplate information is given for the application of either time delay fuses or HACR circuit breakers for branch circuit protection from the primary source of power Single phase single voltage rated equipment is designed to operate between plus or minus 10 of nameplate utilization voltage Operation outside of this range may adversely effect the service life of the equipment WSHP PRCO20D EN WSHP PRCO20D EN Mechanical Specifications Deluxe Controls option The deluxe control package provides a 75 VA transformer with circuit breaker The Micro processor based controller is designed to include a lockout relay anti short cycle compressor protection random start delay brown out protection low pressure time delay compressor delay on start and an open relay for night setback or pump request Optional wiring from the factory for condensate overflow and compressor ena
70. me 3 F and the temperature must remain above the differential for three minutes Up to three individual fan stages may be sequenced or the second stage of fan can be the high speed of a multi speed motor There are five different fan arrangements that the TLC supports A single fan with a single motor a single fan with dual motors pony motors a maximum of three fans with a maximum of three motors a variable speed fan with a field supplied variable frequency drive and a single multi speed motor Multiple cooling towers can be supported only if the cooling tower stages are controlled in parallel Boiler Operation The TLC will operate a boiler and the mixing valve respectively Boiler control is traditionally controlled by a separate boiler controller provided by the boiler manufacturer The boiler mixing valve will control the mixture of the boiler water into the main loop to achieve the desired loop supply water When the loop temperature falls below the low loop supply setpoint the TLC enables the boiler The ideal arrangement is for the boiler to have its own bypass loop so the boiler pump can circulate water through the heat exchanger The boiler will maintain the temperature of the water to the desired setting in the packaged boiler control The three way mixing valve is controlled by the TLC to add heat to the main loop by mixing in water from the boiler loop A proportional integral derivative algorithm controls the valve The boil
71. mum operational recommendation for the central plant Circulating pumps Sensing elements Heat rejector control i e closed circuit cooling tower or geothermal loop Heat adder i e boiler or geothermal loop 11 TRANE Application Considerations 12 Heat Rejection through a Closed Circuit Cooling Tower Cooling towers serve to reject heat from the condenser water loop to the atmosphere wo types of cooling towers are used with water source heat pump systems open or closed circuit The towers themselves are different but when an open tower is used in conjunction with a water to water heat exchanger the control of the two tower types is essentially the same Control for the closed circuit cooling towers may be made with aTrane amp Tracer Loop Controller TLC With the TLC up to four stages of cooling tower control are possible When the loop supply temperature is 4 F below the loop supply high setpoint the first stage of cooling is initiated by opening the closure dampers on the cooling tower At 2 F below the setpoint the next stage of cooling is initiated which is the starting of the tower s circulating pump If the amount of heat rejected by the first two stages is not enough the loop temperature will continue to rise When the temperature reaches the loop supply high setpoint the next stage of cooling is initiated This is the first stage of cooling tower fans The differential between the stages now beco
72. ooling operating costs by 30 40 The units are durable and typically last longer than conventional systems They are protected from harsh outdoor weather conditions because the unit is installed indoors and the loop underground According to ASHRAE the estimated service life for a commercial water to air heat pump is 19 years Geothermal heat pumps have fewer mechanical components making them more reliable and less prone to failure Geothermal heat pumps work toward the preservation of the environment by reducing the environmental impacts of electric power generation Flexibility The vertical high rise water source heat pump system is versatile for installation in boiler cooling tower applications as well as ground source geothermal applications The system typically employs a central pumping design The central pumping design involves a single pump design usually located within a basement or mechanical room to fulfill pumping requirements for the entire building system An auxiliary pump is typically applied to lessen the likelihood of system downtime if the main pump malfunctions Furring In the Unit The vertical high rise water source heat pump is designed to be a furred in application Dry wall sheetrock is attached to furring studs not unit cabinet until the entire cabinet except the front access panel is enclosed Access to the unit is made entirely through the front panel which spans approximately one half of th
73. other The piping installation for the entire HVAC system becomes very simple to install because it is pre measured and pre fabricated at the factory Factory risers are available as Type K design special L standard design and M standard design The differences between these types of materials is the wall thickness of the copper Table 1 p 9 shows the wall thickness for the most Il Su NZ SZ SZN common diameters of risers It is recommended for most jobs to gw use type LorM copper Type K risers are generally not necessary for most high rise heat pump applications The riser design contains threaded stubouts to facilitate ZZA connection of the supply and return risers to the hose kits The hose kits are then connected to the water in out of the units FLEXIBLE HOSES chassis Note Supply return drain risers that are ordered and supplied through the factory may be ordered as insulated RETURIN AIR Drain risers are generally made of type copper If copper drain MECHANICAL ROOM risers are used the risers should be insulated since the typical a aoe temperatures of condensate may cause the riser sweat Table 1 Riser characteristics Riser Size in OD in Copper Wall Thickness in Type L standard Type M standard Riser Size in ALD in O D in Copper Wall Thickness in WSHP PRCO20D EN 9 TRANE Ap
74. per The top of each riser is swaged to accept the same size diameter riser from above This helps facilitate installation of the water supply return and condensate to and from the unit Insulation may be factory installed or field installed per order selection The insulation helps keep moisture from forming on the pipes and damaging building construction The riser length may be ordered as standard in 96 to 120 lengths See Equipment Risers p 9 for riser application information Unit Safety All unit safety devices are provided to help prevent compressor damage Low pressure switch and high pressure switch are added to help protect the compressor operation under a low charge 40 psig or during high discharge 650 psig pressures In cases where a low charge or excessive loss of charge occurs each compressor comes equipped with an overload device to halt the compressor operation A safety lockout provides the mechanical communication of the low and high pressure switches to prevent compressor operation if the unit is under low or high refrigerant pressures or during a condensate overflow condition The lockout relay may be reset at the thermostat by cycling power to the unit or through a LonTalk front end device ZN510 control option WSHP PRCO20D EN TRANE Application Considerations WSHP PRC020D EN Advantages of Geothermal The advantages of a geothermal heat pump system can literally decrease heating and c
75. pired 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 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 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 microprocessor receives separate input signals from the refrigerant high pressure switch low suction pressure switch and condensate overflow WSHP PRCO20D EN 51 TRANE Controls 52 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 expi
76. plication Considerations 10 Table 1 Riser characteristics continued Type M standard Riser Size in OD in Copper Wall Thickness in Note Pressure ratings for risers are typically greater than the maximum pressure rating of the coaxial water to refrigerant heat exchangers This is true with exception of Type M copper in a 3 diameter The maximum pressure rating for Type M 3 diameter copper is 380 psig All other diameters for Type M copper and all 1 through 3 Type L copper are greater than the 400 psig rating on the coaxial water to refrigerant heat exchanger Riser Sizing The proper selection of riser diameter is critical when designing a cost effective job If the riser diameter is too small the flow of water to the heat pump may be restricted making the pumping power requirement excessive On the other hand if the riser diameter is too large the cost of the equipment may become unnecessarily high To determine the riser size calculate the flow at a particular riser Riser columns will begin with large diameters at the bottom of the column and decrease diameter as the water travels up toward the top floor The GPM at the first floor is determined by totaling the GPM of all the units on the riser column The GPM for the second floor is then determined by taking the total GPM and subtracting the flow from the first floor The proper size of the riser is determined by calculating the velocity of the water in the
77. red 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 30 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 or condensate overflow conditions The alarm can be reset at the thermostat or by cycling power to the unit Small Building Control The deluxe 24V electro mechanical design may be applied as a stand alone control system or as a multi unit installation system With a stand alone design units run independently of one another with an electronic digital thermostat With a multipl
78. rflow temperature faults heat rejector status heat adder status and circulating pump status WSHP PRCO20D EN TRANE Selection Procedures WSHP PRC020D EN Model Number Two model number designators have been defined for the cabinet configuration and the chassis configuration Both model numbers require input for the order to be complete and built to specification Typically the vertical stack equipment ships in two sections 1 The cabinet and riser section ship first to allow the contractor to furr in the equipment during sheetrock installation and 2 the chassis refrigeration water section ship approximately two to four weeks later eliminating storage requirements of the chassis and possible damage at the job site while waiting for installation For this reason there are two model number designators specific to the unit chassis and the cabinet for the equipment 13 TRANE Model Number Descriptions Vertical High Rise Cabinet WSHP Digits 1 3 Unit Configuration GET High Efficiency Vertical High Rise Heat Pump Digit 4 Development Sequence E R 410A Digits 5 7 Nominal Size Tons 009 34 Tons 012 1 015 1 Tons 018 1 Tons 024 2Tons 036 3Tons Digit 8 Voltage Volts Hz Phase 1 208 60 1 2 230 60 1 7 265 60 1 Digit 9 Heat Exchanger 1 Copper Water Coil 2 Cupro Nickel Water Coil 3 Copper Water Coil with Isolation Valve and Low Flow Control 4 Cupro N
79. ry Digit 17 Control Types D Deluxe 24V Controls C Tracer ZN510 Controls Digit 18 Thermostat Sensor Location 0 Wall Mounted Location Digit 19 Fault Sensors 0 No Fault Sensors 1 Condensate Overflow Sensor 2 Filter Maintenance Timer 3 Condensate Overflow and Filter Maintenance Timer Digit 20 22 Open Digits Digit 23 Unit Mounted Disconnect 0 No Unit Mounted Switch Toggle Switch Only Toggle Switch with Fuses Digit 24 Filter Type 1 1 inch Throwaway Filter Digit 25 Acoustic Arrangement 0 Enhanced Sound Attenuation 1 Deluxe Sound Attenuation Digit 26 Factory Configuration 3 R 410A Cabinet Digit 27 Paint Color 8 Polar White Digit 28 Outside Air Option 0 No Outside Air Digit 29 Piping Arrangement B Back Riser Location L Left Hand Riser Location R Right Hand Riser Location Digit 30 Riser Type 0 No Riser L Type L Riser Riser Digit 31 Supply Riser 0 No Riser 1 Dia Riser with Insulation 1 Dia Riser with Insulation 1 Dia Riser with Insulation 2 Dia Riser with Insulation 214 Dia Riser with Insulation G 3 Dia Riser with Insulation 2 1 Dia Riser 3 1 Dia Riser 4 1 Dia Riser 5 2 Dia Riser 6 210 Dia Riser 7 3 Dia Riser Digit 32 Return Riser 0 No Riser 1 Dia Riser with Insulation C 1 Dia Riser with Insulation 1 Dia Riser with In
80. selection Thermostat Sensor Part Number X13511211010 X13511212010 ssl X13511213010 X13511214010 X13651467020 X13511529010 X13511527010 e X1379084501 o WSHP PRCO20D EN Description 3 Heat 2 Cool Digital Display Thermostat e 3H 2C e Non Programmable 2 Heat 2 Cool Digital Display Programmable Thermostat e 2H 2C e 7 Day Programmable 2 Heat 2 Cool Digital Display Programmable Thermostat with Touch Screen e 2H 2C e 7 Day Programmable with Touch Screen 3 Heat 2 Cool Digital Display Programmable Thermostat with Relative Humidity Sensing Built in e 3H 2C e 7 Day Programmable e Humidity Sensing Communication Module Sold in packs of 12 e Compatible with X1351529010 and X13511527010 Zone Sensor e Tracer ZN510 and ZN524 compatible e External setpoint adjustment wheel Zone Sensor e Tracer ZN510 and ZN524 compatible e External setpoint adjustment wheel e ON and CANCEL buttons Zone Sensor e Tracer ZN510 and ZN524 compatible e External setpoint adjustment wheel e ON and CANCEL buttons e Fan switch AUTO OFF 55 TRANE Accessories 56 System balancing hose kit 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 w
81. sulation E 2 Dia Riser with Insulation 2 Dia Riser with Insulation G 3 Dia Riser with Insulation 2 1 Dia Riser 3 1 Dia Riser 4 1 Dia Riser 5 2 Dia Riser 6 210 Dia Riser 7 3 Dia Riser Digit 33 Condensate Riser 0 No Riser 1 Dia Riser with Insulation 1 Dia Riser with Insulation 1 Dia Riser with Insulation E 2 Dia Riser with Insulation 2 Dia Riser with Insulation G 3 Dia Riser with Insulation 2 1 Dia Riser 3 1 Dia Riser 4 1 Dia Riser 5 2 Dia Riser 6 2 Dia Riser 7 3 Dia Riser WSHP PRCO20D EN Digit 34 35 36 Riser Length 000 No Riser 096 96 Riser Length 097 97 Riser Length 098 98 Riser Length 099 99 Riser Length 100 100 Riser Length 101 101 Riser Length 102 102 Riser Length 103 103 Riser Length 104 104 Riser Length 105 105 Riser Length 106 106 Riser Length 107 107 Riser Length 108 108 Riser Length 109 109 Riser Length 110 110 Riser Length 111 111 Riser Length 112 112 Riser Length 113 113 Riser Length 114 114 Riser Length 115 115 Riser Length 116 116 Riser Length 117 117 Riser Length 118 118 Riser Length 119 119 Riser Length 120 120 Riser Length Vertical High Rise Chassis WSHP Digits 1 3 Unit Configuration GET High Efficiency Vertical High Rise Heat Pump cabinet with blower motor Digit 4 Development S
82. tion Ball valves are field installed between the riser stub out and the flexible hose Hoses option Hoses shall consist of a stainless steel outer braid with an inner core of tube made of a nontoxic synthetic polymar material The hoses shall be suitable for water temperatures ranging between 33 F and 211 F without the use of glycol Automatic Flow Devices option The automatic self balancing device shall automatically limit the rate of flow to within 10 percent of the specified amount over a 40 to 1 differential pressure operating range of 2 to 80 PSID The operational temperature shall be rated from fluid freezing to 225 F The valve body shall be suited for working pressures of 400 PSIG The valve internal core shall consist of one or more high temperature elastomeric diaphragms and precision orifice with sculptured orifice seat Dual pressure temperature test ports shall be standard for verifying the pressure differential and system temperature 59 A LID VRTERTE CERTIFIED PL www ahridirectory org m Water Source HP US ANSI AHRI ASHRAE IS013256 1 na Jn LISTE 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 rane offers a broad portfolio of advanced controls and HVAC systems comprehensive building services and parts For more inform
83. tions other than those tabulated Interpolation of data is permissible extrapolation is not Rated GPM 8 4 Minimum cfm 936 Rated cfm 1170 Maximum cfm 1404 Table 17 Correction factors for variation in entering air temperature Cooling Cooling Sensible vs Entering Dry Bulb Multipliers Heating Heating Entering Cooling Input Entering Heating Input Table 18 Correction factors for variation in air flow Model Entering CFM Cooling Capacity Capacity Watts Capacity Watts 36 WSHP PRCO20D EN Performance Data Table 18 Correction factors for variation in air flow continued Model Entering Cooling Capacity Capacity Watts Capacity Watts WSHP PRCO20D EN 37 TRANE Unit Fan Performance Table 19 PSC blower motor external static pressure without return air door RAD with filter Model Speed Ducted No GET 009 GET 012 GET 015 GET 018 GET 024 GET 036 Model Speed Ducted No GET 015 GET 018 GET 024 GET 036 Model Speed Ducted No GET 036 Tap High Low High Low High Low High Low High Low High Low High Low High Low High Low High Low High Low High Low Tap High Low High Low High Low High Low High Low High Low High Low High Low Tap High Low High Low CFM a Unit Max Min Yes Yes No No Yes Yes No No Yes Yes No No Yes Yes No Yes Yes No No Yes Yes No No Unit Yes Yes No No
84. upply Air 8 Back Front and Left Supply Air 9 Front Right and Left Supply Air B Back Supply Air L Left Supply Air R Right Supply Air T Top Supply Air F Front Supply Air Digit 16 Return Air Arrangement 0 No Door Chassis Only 1 Flush with Wall Acoustic Hinged Return Air Door with Keyless Entry 2 Flush with Wall Acoustic Hinged Return Air Door with Keylock Entry Digit 17 Control Types 0 Basic Controls for WPRD Retrofit Chassis D Deluxe 24V Controls Tracer ZN510 Controls Digit 18 Thermostat Sensor Location 0 Wall Mounted Location Digit 19 Fault Sensors 0 No Fault Sensors 1 Condensate Overflow Sensor 2 Filter Maintenance Timer 3 Condensate Overflow and Filter Maintenance Timer S TRANE Model Number Descriptions Digit 20 22 Open Digits Digit 23 Unit Mounted Disconnect 0 No Unit Mounted Switch C Switch Only D Switch with Fuses Digit 24 Filter Type 1 1 inch Throwaway Filter Digit 25 Acoustic Arrangement 0 Enhanced Sound Attenuation 1 Deluxe Sound Attenuation Digit 26 Factory Configuration 2 R 410A Chassis R WPRD Retrofit Chassis Digit 27 Paint Color 8 Polar White Digit 28 Outside Air Option 0 No Outside Air Digit 29 Piping Arrangement B Back Riser Location L Left Hand Riser Location R Right Hand Riser Location Digit 30 Riser Type 0 No Riser Chassis Only Digit 31 Supply Riser 0 No Riser
85. ylene Glycol The antifreeze solution is 20 by volume of Ethylene Glycol Determine the corrected cooling capacity and waterside pressure drop for a GET009 when the EWT is 86 F and the GPM is 2 3 From the catalog data the cooling capacity at these conditions with 100 water is 8 3 Mbtuh and the waterside pressure drop is 9 1 feet of head At 20 Ethylene Glycol the correction factor for cool capacity is 0 9912 and the pressure drop is 1 068 The corrected cooling capacity Mbtuh 8 50 0 9912 8 43 The corrected water side pressure drop Ft head 9 1 1 068 9 72 Example 2 Propylene Glycol The antifreeze solution is 30 by volume of Propylene Glycol Determine the corrected heating capacity and waterside pressure drop for a GET009 when the EWT is 45 F and the GPM is 2 3 From the catalog data the heating capacity at these conditions with 100 water is 8 3 Mbtuh and the waterside pressure drop is 11 1 feet of head At 30 Propylene Glycol the correction factor for heat capacity is 0 9603 and the pressure drop 15 1 174 The corrected heating capacity Mbtuh 8 3 0 9603 7 97 The corrected water side pressure drop Ft head 11 1 1 174 13 03 41 TRANE Electrical Data Table 23 Electrical performance Maximum Minimum Overcurrent Motor Total Comp RLA Comp Blower Blower Circuit Protective Model No Option Unit Volts FLA ea LRA Motor FLA Motor HP Ampacity Device 208 60 1 4 3 3 7 16 0 0 60 1 20 5 23 15
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