Performance Data Sheet
Btu/h 5970 5360 4750 4140 3530 2920 2320
Watts 884 882 881 880 878 877 875
Amps 7.51 7.50 7.49 7.48 7.47 7.46 7.44
0
Lb/h 107 101 94.6 88.3 82.0 75.8 69.6
Btu/h 6760 6100 5440 4780 4120 3470 2820
Watts 925 932 938 944 950 956 962
Amps 7.86 7.91 7.96 8.01 8.06 8.11 8.15
5
Lb/h 122 115 109 103 96.3 90.1 83.9
Btu/h 7590 6880 6170 5470 4760 4060 3370
Watts 968 982 996 1010 1020 1040 1050
Amps 8.22 8.33 8.44 8.55 8.66 8.76 8.87
10
Lb/h 137 131 125 118 112 106 99.6
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 1.089660E+04 8.903108E+02 7.551621E+00 1.578184E+02
C2 2.304897E+02 -3.543048E+00 -2.263961E-02 2.864317E+00
C3 -6.127264E+01 -9.424821E-02 -6.781775E-04 -6.275483E-01
C4 8.740617E-01 -9.217828E-03 4.549184E-05 1.948444E-02
C5 -9.889957E-01 1.485924E-01 1.168777E-03 -1.541569E-03
C6 -7.944805E-03 4.495888E-04 4.017355E-06 -1.255123E-04
C7 2.483318E-03 3.104307E-04 1.397336E-06 1.240274E-04
C8 1.230749E-03 1.187403E-04 4.737511E-07 5.594473E-05
C9 8.128169E-05 4.970396E-06 1.212211E-08 3.314408E-06
C10 5.823827E-05 -4.092379E-06 -3.416944E-08 7.694389E-07
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