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   Trane Company (The)  UniTrane Fan-Coil  

UniTrane Fan-Coil - Page 19

 

 

Performance Data

ARI cooling performance is based on 80/67 F (27/19 C) entering air temperature, 45 F (7 C) entering chilled water temperature with a 10 F (5.5 C) delta T.

Heating performance is based on 70 F (21 C) entering air temperature, 180 F (82 C) entering hot water temperature with a 30 F (17 C) deltaT.

All performance measured on high speed tap, 115V, 0.2" (0.05 kPA) ESP with a throwaway filter. See page 14 for performance groupings.

 

Table PD-11 - High Static Motor, Four-Pipe, Group 1

    Cooling Heating      
    CFM TMBH SMBH GPM WPD TMBH   GFM WPD 115V 230V 277V
FC Coil (L/s) (TkW) (SkW) (L/S) (kPa) (TkW) O/ITD (L/s) (kPa) Watt Watt Watt
2 2ClH 282 (133) 5.9 (1.7) 4.7 (1.4) 1.27 (0.08) 8.6 (25.8) 9.8 (2.9) .09 0.65 (0.04) 1.0 (3.0) 145 145 145
  2C2H 260 (123) 5.6 (1.7) 4.4 (1.3) 1.22 (0.08) 8.1 (24.1) 16.8 (4.9) .15 1.12 (0.07) 5.3 (15.8) 145 145 145
  3ClH 260 (123) 8.1 (2.4) 5.8 (1.7) 1.72 (0.11) 22.1 (66.1) 9.3 (2.8) .08 0.62 (0.04) 0.9 (2.7) 145 145 145
3 2ClH 343 (162) 7.2 (2.1) 5.5 (1.6) 1.53 (0.10) 13.3 (39.9) 12.4 (3.6) .11 0.82 (0.05) 1.7 (5.1) 145 140 135
  2C2H 318 (150) 6.9 (2.0) 5.2 (1.5) 1.48 (0.09) 12.5 (37.5) 21.0 (6.2) .19 1.40 (0.09) 8.8 (26.3) 145 140 135
  3ClH 318 (150) 8.4 (2.5) 6.4 (1.9) 1.79 (0.11) 5.0 (14.9) 11.8 (3.5) .11 0.79 (0.05) 1.6 (4.7) 145 140 135
4 2Cl H 484 (228) 9.9 (2.9) 8.1 (2.4) 2.13 (0.13) 5.6 (16.9) 17.5 (5.1) .16 1.17 (0.07) 3.7 (11.1) 210 210 210
  2C2H 453 (214) 9.6 (2.8) 7.8 (2.3) 2.06 (0.13) 5.3 (15.9) 28.4 (8.3) .26 1.90 (0.12) 3.9 (11.6) 210 210 210
  3ClH 453 (214) 13.5 (4.0) 9.7 (2.9) 2.84 (0.18) 13.0 (39.9) 16.9 (4.9) .15 1.12 (0.07) 3.5 (10.3) 210 210 210
  2ClH 780 (368) 17.0 (5.0) 13.3 (4.0) 3.62 (0.23) 17.9 (53.4) 27.9 (8.2) .25 1.86 (0.12) 10.9 (32.6) 320 320 320
  2C2H 725 (342) 16.4 (4.8) 12.7 (3.7) 3.50 (0.22) 16.8 (50.1) 45.4 (13.3) .41 3.03 (0.19) 10.9 (32.6) 320 320 320
  3ClH 725 (342) 19.3 (5.7) 14.7 (4.3) 4.08 (0.26) 6.9 (20.7) 26.8 (7.9) .24 1.79 (0.11) 10.1 (30.3) 320 320 320
8 2ClH 886 (418) 18.1 (5.3) 15.0 (4.4) 3.85 (0.24) 5.5 (16.5) 34.0 (10.0) .31 2.26 (0.14) 18.6 (55.5) 320 320 320
  2C2H 835 (394) 17.6 (5.1) 14.4 (4.2) 3.73 (0.24) 5.2 (15.5) 52.8 (15.5) .48 3.52 (0.22) 4.3 (12.8) 320 320 320
  3ClH 835 (394) 23.8 (7.0) 17.3 (5.1) 4.98 (0.31) 11.1 (33.3) 32.8 (9.6) .30 2.19 (0.14) 17.5 (52.2) 320 320 320
10 2ClH 1230 (580) 25.9 (7.6) 20.6 (6.0) 5.53 (0.35) 12.0 (35.8) 46.0 (13.5) .42 3.06 (0.19) 38.4 (114.9) 530 530 530
  2C2H 1152 (544) 25.0 (7.3) 19.8 (5.8) 5.36 (0.34) 11.3 (33.7) 72.2 (21.2) .66 4.81 (0.30) 8.4 (25.1) 530 530 530
  3ClH 1152 (544) 32.8 (9.6) 23.5 (6.9) 6.91 (0.44) 22.8 (68.1) 44.3 (13.0) .40 2.95 (0.19) 36.0 (107.5) 530 530 530
12 2CIH 1315 (621) 30.6 (9.0) 23.5 (6.9) 6.48 (0.41) 17.2 (51.4) 51.4 (15.1) .47 3.43 (0.22) 53.5 (160.0) 530 530 530
  2C2H 1274 (601) 30.1 (8.8) 23.0 (6.8) 6.37 (0.40) 16.7 (49.9) 82.3 (24.1) .75 5.49 (0.35) 11.4 (34.1) 530 530 530
  3ClH 1274 (601) 36.9 (10.8) 26.9 (7.9) 7.74 (0.49) 17.5 (52.2) 50.5 (14.8) .46 3.36 (0.21) 51.8 (154.8) 530 530 530

Table PD-12 - High Static Motor, Four-Pipe, Group 2

    Cooling Heating      
    CFM TMBH SMBH GPM WPD TMBH   GFM WPD 115V 230V 277V
FC Coil (L/s) (TkW) (SkW) (L/S) (kPa) (TkW) O/ITD (L/s) (kPa) Watt Watt Watt
2 2ClH 250 (118) 5.5 (1.6) 4.3 (1.3) 1.20 (0.08) 7.8 (23.4) 9.1 (2.7) .08 0.61 (0.04) 0.9 (2.6) 145 145 145
  2C2H 234 (111) 5.3 @1.6) 4.1 (1.2) 1.16 (0.07) 7.4 (22.0) 15.6 (4.6) .14 1.04 (0.07) 4.7 (14.0) 145 145 145
  3ClH 234 (111) 7.6 (2.2) 5.4 (1.6) 1.63 (0.10) 20.1 (60.0) 8.8 (2.6) .08 0.58 (0.04) 0.8 (2.5) 145 145 145
3 2ClH 309 (146) 6.8 (2.0) 5.2 (1.5) 1.46 (0.09) 12.3 (36.8) 11.6 (3.4) .11 0.78 (0.05) 1.5 (4.5) 145 140 135
  2C2H 290 (137) 6.6 (1.9) 5.0 (1.5) 1.42 (0.09) 11.7 (34.8) 19.7 (5.8) .18 1.31 (0.08) 7.9 (23.5) 145 140 135
  3Cl H 290 (137) 8.0 (2.4) 6.0 (1.8) 1.70 (0.11) 4.6 (13.7) 11.2 (3.3) .10 0.75 (0.05) 1.4 (4.3) 145 140 135
4 2ClH 440 (208) 9.5 (2.8) 7.7 (2.3) 2.03 (0.13) 5.2 (15.5) 16.6 (4.9) .15 1.10 (0.07) 3.4 (10.0) 210 210 210
  2C2H 416 (196) 9.2 (2.7) 7.4 (2.2) 1.97 (0.12) 4.9 (14.7) 26.9 (7.9) .24 1.79 (0.11) 3.5 (10.4) 210 210 210
  3ClH 416 (196) 12.9 (3.8) 9.2 (2.7) 2.72 (0.17) 12.1 (36.1) 16.0 (4.7) .15 1.07 (0.07) 3.2 (9.4) 210 210 210
6 2ClH 704 (332) 16.2 (4.7) 12.5 (3.7) 3.45 (0.22) 16.4 (49.0) 26.4 (7.7) .24 1.76 (0.11) 9.8 (29.4) 320 320 320
  2C2H 662 (312) 15.7 (4.6) 12.0 (3.5) 3.35 (0.21) 15.5 (46.4) 42.8 (12.5) .40 2.85 (0.18) 9.8 (29.2) 320 320 320
  3ClH 662 (312) 18.3 (5.4) 13.9 (4.1) 3.88 (0.24) 6.3 (18.9) 25.4 (7.5) .23 1.69 (0.11) 9.2 (27.6) 320 320 320
8 2ClH 815 (385) 17.4 (5.1) 14.2 (4.2) 3.69 (0.23) 5.1 (15.2) 32.3 (9.5) .29 2.15 (0.14) 17.0 (50.8) 320 320 320
  2C2H 775 (366) 16.8 (4.9) 13.7 (4.0) 3.59 (0.23) 4.8 (14.5) 50.2 (14.7) .46 3.34 (0.21) 3.9 (11.6) 320 320 320
  3Cl H 775 (366) 22.9 (6.7) 16.5 (4.9) 4.80 (0.30) 10.4 (31.1) 31.3 (9.2) .28 2.09 (0.13) 16.1 (48.1) 320 320 320
10 2Cl H 11 17 @527) 24.6 (7.2) 19.4 (5.7) 5.29 (0.33) 11.0 (32.9) 43.5 (12.7) .40 2.90 (0.18) 34.8 (104.0) 530 530 530
  2C2H 1057 (499) 23.9 (7.0) 18.8 (5.5) 5.14 (0.32) 10.4 (31.2) 68.2 (20.0) .62 4.55 (0.29) 7.5 (22.5) 530 530 530
  3ClH 1057 (499) 31.4 (9.2) 22.4 (6.7) 6.64 (0.42) 21.1 (63.2) 42.1 (12.3) .38 2.80 (0.18) 32.9 (98.2) 530 530 530
12 2ClH 1242 (586) 29.7 (8.7) 22.7 (6.6) 6.31 (0.40) 16.4 (49.0) 49.7 (14.6) .45 3.31 (0.21) 50.4 (150.7) 530 530 530
  2C2H 1181 (557) 29.0 (8.5) 22.0 (6.5) 6.15 (0.39) 15.6 (46.7) 78.2 (22.9) .71 5.21 (0.33) 10.4 (31.0) 530 530 530
  3ClH 1181 (557) 35.5 (10.4) 25.6 (7.5) 7.45 (0.47) 16.2 (48.5) 48.2 (14.1) .44 3.21 (0.20) 47.7 (142.7) 530 530 530

Note:

1. CFM= Cubic feet per minute

2. TMBH =Total capacity (MBH)

3. GPM = Gallons per minute

4. WPD = Water pressure drop (feet of water)

5. Q/ITD = MBH (kW)/(Entering water temperature - Entering air temperature) when delta T and GPM (us) remain constant. To determine heating capacities at a different entering water temperature or entering air temp, compute the new ITD and multiply it by the Q/ITD shown.

6. Medium and low speed capacities are approximately 80 percent and 60 percent respectively of the high speed capacity.

7. High static motors need the appropriate length of duct to prevent poor acoustical applications.

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