Tecumseh AKA9451ZXA Performance Data Sheet

Performance Data Sheet

AKA9451ZXA

General Information

Model AKA9451ZXA Refrigerant R-404A
Test Condition ARI Performance Test Voltage 115V ~ 60HZ
Return Gas 4.4°C (40°F) RETURN GAS Motor Type CSR

Performance Information

Evap Temp (°F)

0

5

10

15

20

25

30

Condensing Temperature (°F)

80 90 100 110 120 130 140

Btu/h 5810 4800 3980 3280 2650 2050 1420
Watts 811 824 832 831 819 793 751
Amps 7.81 7.42 7.22 7.12 7.03 6.86 6.52

Lb/h 105 89.1 78.4 71.1 64.8 57.3 46.3

Btu/h 6690 5610 4700 3910 3190 2480 1730
Watts 844 866 883 892 891 876 846
Amps 8.10 7.80 7.69 7.67 7.67 7.57 7.31

Lb/h 123 105 93.7 85.3 77.9 69.3 57.1

Btu/h 7600 6450 5470 4600 3780 2970 2120
Watts 874 905 931 949 958 955 936
Amps 8.35 8.14 8.13 8.20 8.28 8.27 8.08

Lb/h 140 122 110 101 93.0 83.6 70.6

Btu/h 8550 7340 6290 5340 4440 3530 2580
Watts 901 940 974 1000 1020 1030 1020
Amps 8.55 8.45 8.53 8.69 8.86 8.93 8.82

Lb/h 158 140 127 118 110 100 86.9

Btu/h 9520 8270 7150 6130 5150 4160 3100
Watts 925 972 1010 1050 1080 1100 1100
Amps 8.71 8.71 8.88 9.14 9.40 9.56 9.53

Lb/h 176 158 146 137 128 119 106

Btu/h 10500 9230 8060 6970 5910 4840 3690
Watts 948 1000 1050 1100 1140 1160 1170
Amps 8.80 8.90 9.18 9.54 9.89 10.1 10.2

Lb/h 193 176 165 156 149 140 127

Btu/h 11600 10200 9000 7850 6730 5580 4350
Watts 968 1030 1090 1140 1190 1220 1250
Amps 8.82 9.04 9.42 9.89 10.3 10.7 10.8

Lb/h 211 195 185 177 171 163 151

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 2.658246E+04 8.029985E+02 2.878237E+01 7.117586E+02
C2 2.279624E+02 -3.086047E+00 -1.140068E-01 5.112648E+00

C3 -4.632468E+02 -4.162213E+00 -5.694354E-01 -1.560919E+01
C4 -1.808635E-01 -3.622655E-03 -1.129165E-03 -6.247578E-02
C5 -7.462307E-03 7.557705E-02 2.499422E-03 -1.773339E-02
C6 3.238037E+00 8.821627E-02 5.053739E-03 1.307909E-01
C7 -4.092518E-03 4.222304E-04 -1.062476E-05 -1.054455E-04
C8 1.239808E-02 -8.097724E-04 6.913314E-06 8.492119E-04
C9 -8.794439E-03 6.191687E-04 -3.976412E-06 -3.801455E-05

C10 -8.662695E-03 -4.368585E-04 -1.515765E-05 -3.803629E-04

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