Tecumseh AKA9455ZXC Performance Data Sheet
Performance Data Sheet
AKA9455ZXC
General Information
Model AKA9455ZXC Refrigerant R-404A
Test Condition ARI Performance Test Voltage 240V ~ 50HZ
Return Gas 18.3°C (65°F) RETURN GAS Motor Type CSR
Performance Information
Evap Temp (°F)
20
25
30
35
40
45
50
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h 8490 7480 6570 5730 4920 4120 3300
Watts 776 836 886 928 964 995 1020
Amps 3.98 4.21 4.41 4.57 4.71 4.81 4.88
Lb/h 135 127 120 114 108 102 95.0
Btu/h 9610 8480 7460 6510 5600 4690 3760
Watts 805 868 923 969 1010 1050 1080
Amps 4.03 4.28 4.50 4.69 4.86 5.00 5.12
Lb/h 155 146 138 131 124 117 109
Btu/h 10700 9500 8370 7310 6290 5280 4240
Watts 829 896 955 1010 1060 1100 1140
Amps 4.09 4.35 4.59 4.81 5.01 5.20 5.36
Lb/h 175 164 155 148 140 133 124
Btu/h 11900 10600 9330 8170 7040 5920 4770
Watts 847 919 984 1040 1100 1150 1200
Amps 4.14 4.42 4.68 4.93 5.17 5.39 5.60
Lb/h 195 184 174 166 158 150 142
Btu/h 13200 11700 10400 9130 7890 6660 5410
Watts 860 938 1010 1080 1140 1200 1260
Amps 4.21 4.50 4.78 5.06 5.33 5.59 5.85
Lb/h 217 205 195 187 179 171 163
Btu/h 14600 13100 11600 10200 8890 7560 6200
Watts 868 953 1030 1110 1180 1250 1320
Amps 4.27 4.58 4.88 5.19 5.49 5.80 6.10
Lb/h 242 230 220 211 204 196 188
Btu/h 16300 14600 13000 11500 10100 8650 7190
Watts 872 964 1050 1130 1220 1300 1380
Amps 4.35 4.67 5.00 5.33 5.66 6.01 6.37
Lb/h 271 259 249 241 234 227 220
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 1.544288E+04 -4.911561E+02 -1.025107E-01 1.297228E+02
C2 5.034321E+02 1.760111E+01 4.263936E-02 1.235165E+01
C3 -2.756543E+02 2.282350E+01 7.561950E-02 -3.132169E+00
C4 -4.309209E+00 -2.741084E-01 -2.753546E-04 -1.703464E-01
C5 -2.301897E+00 -1.343453E-01 -8.296986E-04 -7.289146E-02
C6 1.979947E+00 -1.371788E-01 -3.712766E-04 3.092801E-02
C7 6.008404E-02 4.162302E-04 3.533688E-06 1.540364E-03
C8 6.230496E-04 1.622995E-03 -1.134752E-07 5.507673E-04
C9 4.946808E-04 7.532733E-04 6.622340E-06 1.291469E-04
C10 -5.455674E-03 2.740044E-04 2.304965E-07 -9.875614E-05
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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