Performance Data Sheet
Btu/h 7250 5510 4360 3610 3070 2550 1860
Watts 960 828 775 771 789 800 775
Amps 4.05 3.49 3.26 3.26 3.35 3.43 3.38
0
Lb/h 143 107 87.0 78.1 74.5 70.6 60.7
Btu/h 8030 6190 4950 4130 3520 2950 2220
Watts 1010 869 814 813 839 864 857
Amps 4.20 3.62 3.40 3.42 3.57 3.73 3.78
5
Lb/h 158 120 98.9 89.4 85.7 82.2 73.1
Btu/h 8820 6870 5540 4640 3970 3350 2580
Watts 1040 895 837 841 876 915 928
Amps 4.27 3.68 3.47 3.53 3.74 3.98 4.13
10
Lb/h 172 133 111 101 97.0 93.9 85.7
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 6.524568E+04 8.269987E+03 3.486575E+01 1.716997E+03
C2 4.043385E+02 6.200381E+01 2.331857E-01 8.847050E+00
C3 -1.443005E+03 -1.951437E+02 -8.187235E-01 -4.070979E+01
C4 7.165124E-01 -3.846042E-01 -2.378792E-03 -3.252161E-03
C5 -4.158581E+00 -1.060418E+00 -4.282111E-03 -1.129041E-01
C6 1.151391E+01 1.678108E+00 6.989499E-03 3.386570E-01
C7 -6.917436E-03 -3.974205E-03 -1.747374E-05 -2.050821E-04
C8 -4.703255E-03 1.437381E-03 1.300261E-05 6.422841E-05
C9 1.278615E-02 5.308551E-03 2.287878E-05 4.809627E-04
C10 -3.172064E-02 -4.761741E-03 -1.962702E-05 -9.455724E-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