Performance Data Sheet
Btu/h 1720 1680 1640 1580 1520 1460 1380
Watts 340 350 359 366 371 373 372
Amps 4.67 4.73 4.79 4.84 4.88 4.90 4.90
0
Lb/h 27.9 27.2 26.5 25.6 24.7 23.5 22.3
Btu/h 1950 1910 1860 1810 1750 1680 1610
Watts 361 372 382 391 398 402 404
Amps 4.83 4.90 4.98 5.05 5.11 5.16 5.18
5
Lb/h 31.5 30.9 30.2 29.3 28.4 27.3 26.1
Btu/h 2190 2150 2110 2050 1990 1930 1860
Watts 384 395 406 416 425 432 436
Amps 5.01 5.10 5.19 5.28 5.36 5.43 5.47
10
Lb/h 35.5 34.9 34.2 33.3 32.4 31.3 30.1
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 1.826373E+03 2.833625E+02 4.960876E+00 2.956469E+01
C2 4.502795E+01 5.955678E+00 2.405374E-02 7.362146E-01
C3 5.302916E-01 -2.085592E-01 -1.970860E-02 7.824872E-03
C4 4.076855E-01 6.213874E-02 2.800819E-04 6.875606E-03
C5 -5.539125E-02 -5.809960E-02 -8.365530E-05 -8.750482E-04
C6 -1.785637E-02 1.871291E-02 2.847703E-04 -2.815118E-04
C7 1.597407E-03 2.579202E-04 4.091167E-06 2.834004E-05
C8 -5.194471E-04 -4.720402E-04 4.964856E-07 -8.556496E-06
C9 3.534372E-04 4.390100E-04 2.098185E-06 5.515798E-06
C10 -6.292359E-05 -9.072286E-05 -1.050488E-06 -1.037126E-06
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