Tecumseh HGA5512EXV Performance Data Sheet
Performance Data Sheet
HGA5512EXV
General Information
Model HGA5512EXV Refrigerant R-22
Test Condition ASHRAE Performance Test Voltage 265V ~ 60HZ
Return Gas 35°C (95°F) RETURN GAS Motor Type PSC
Performance Information
Evap
Temp (°C)
-25
-23.3
-20
-15
-10
-6.7
-5
0
Condensing Temperature (°C)
30 40 50 60
Btu/h 6610
Watts (Power)
Amps 2.81
Lb/h 90.5
Btu/h 6790 7230
Watts (Power)
Amps 2.83 2.67
Lb/h 92.9 98.9
Btu/h 7180 7170
Watts (Power)
Amps 2.86 2.76
Lb/h 98.3 98.1
Btu/h 7870 7330 7650
Watts (Power) 197 278 370
Amps 2.91 2.90 3.32
Lb/h 108 100 105
Btu/h 8720 7840 7590 8060
Watts (Power) 495 589 693 825
Amps 2.93 3.02 3.51 4.07
Lb/h 119 107 104 110
Btu/h 9380 8380 7860 7900
Watts (Power) 611 715 828 968
Amps 2.93 3.08 3.63 4.22
Lb/h 128 115 108 108
Btu/h 9760 8730 8100 7960
Watts (Power) 650 760 877 1020
Amps 2.92 3.11 3.68 4.30
Lb/h 134 120 111 109
Btu/h 11000 10000 9190 8630
Watts (Power) 700 828 962 1120
Amps 2.88 3.16 3.82 4.50
Lb/h 151 137 126 118
Btu/h 12500 11800 10900 10100
5
7.2
10
15
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 1.405159E+04 1.619702E+02 7.813779E+00 1.925049E+02
C2 -6.847027E+01 -1.062771E+01 -9.910891E-02 -9.377586E-01
C3 -8.251707E+01 2.574098E+01 -3.804478E-01 -1.131359E+00
C4 -5.936592E+00 -1.496457E+00 -1.221358E-03 -8.143320E-02
C5 1.831725E+01 4.544785E-01 3.398061E-03 2.509357E-01
C6 -1.106238E+00 -3.580018E-01 8.972783E-03 -1.513539E-02
C7 4.457563E-02 5.037625E-02 -1.489341E-05 6.137548E-04
C8 3.694209E-01 5.019033E-03 5.544627E-06 5.061497E-03
C9 -2.265699E-01 -1.063087E-03 -1.924540E-05 -3.103936E-03
C10 1.625690E-02 3.263633E-03 -5.922586E-05 2.225813E-04
Watts (Power) 683 831 984 1160
Amps 2.78 3.17 3.91 4.65
Lb/h 172 161 150 139
Btu/h 13300 12700 11900 11000
Watts (Power) 664 821 984 1170
Amps 2.71 3.15 3.93 4.70
Lb/h 182 174 163 151
Btu/h 14300 14000 13300 12400
Watts (Power) 636 807 982 1180
Amps 2.61 3.11 3.94 4.75
Lb/h 197 191 182 170
Btu/h 16500 16700 16400 15700
Watts (Power) 598 794 993 1220
Amps 2.37 2.98 3.90 4.78
Lb/h 226 229 224 214
Value = C1 + C2 * Te + C4 * Te^2 + C7 * Te^3 + (C3 + C5 * Te + C8 * Te^2) * Tc + (C6 + C9 * Te) * Tc^2 + C10 * Tc^3
Te = Evaporator Temperature
Tc = Condensing Temperature
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