Tecumseh AKA9438ZXD Performance Data Sheet
Performance Data Sheet
AKA9438ZXD
General Information
Model AKA9438ZXD Refrigerant R-404A
Test Condition ARI Performance Test Voltage 230V ~ 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 4900 3800 2920 2110 1240 144
Watts 711 675 646 601 518 375 149
Amps 4.13 3.76 3.52 3.32 3.07 2.68 2.06
Lb/h 90.7 72.4 59.2 46.5 29.6 4.04
Btu/h 5340 4230 3380 2640 1880 936
Watts 739 707 692 671 622 524 352
Amps 4.27 3.92 3.72 3.58 3.42 3.14 2.64
Lb/h 96.7 79.5 68.5 59.2 47.0 27.2
Btu/h 5960 4790 3920 3210 2510 1670 551
Watts 776 741 733 730 710 650 528
Amps 4.41 4.07 3.90 3.83 3.74 3.56 3.20
Lb/h 106 88.8 78.8 71.8 62.9 47.6 21.4
Btu/h 6770 5490 4550 3820 3130 2350 1330
Watts 823 778 772 781 783 755 675
Amps 4.55 4.22 4.08 4.05 4.04 3.95 3.71
Lb/h 120 101 91.0 84.9 78.2 66.2 44.5
Btu/h 7760 6320 5280 4470 3750 2980 2010
Watts 878 819 808 822 840 838 795
Amps 4.69 4.35 4.23 4.25 4.30 4.30 4.17
Lb/h 139 117 106 99.4 93.5 83.7 65.2
Btu/h 8940 7300 6100 5170 4370 3560 2600
Watts 944 864 841 855 883 901 888
Amps 4.81 4.46 4.36 4.40 4.52 4.60 4.57
Lb/h 164 138 124 116 110 101 84.4
Btu/h 10300 8430 7020 5920 5000 4100 3090
Watts 1020 912 873 880 911 943 954
Amps 4.91 4.54 4.44 4.52 4.69 4.85 4.91
Lb/h 195 164 146 136 128 118 103
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 3.920850E+04 3.929328E+03 2.275462E+01 9.730757E+02
C2 3.442854E+02 6.867377E+01 1.565235E-01 6.635206E+00
C3 -8.872996E+02 -9.968799E+01 -5.160548E-01 -2.473416E+01
C4 1.111212E+01 1.163482E+00 1.452136E-03 2.532898E-01
C5 -6.691686E+00 -1.626208E+00 -3.475293E-03 -1.660395E-01
C6 7.678527E+00 1.042130E+00 4.755939E-03 2.327345E-01
C7 5.154249E-03 4.448738E-04 -1.018083E-05 1.040849E-03
C8 -9.497040E-02 -1.238682E-02 -1.416651E-05 -2.479759E-03
C9 4.082917E-02 1.033521E-02 2.297630E-05 1.177383E-03
C10 -2.434334E-02 -3.735499E-03 -1.518514E-05 -7.677794E-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
Loading...