Performance Data Sheet
Btu/h 2650 2720 2680 2540 2360 2180 2030
Watts 319 414 468 492 499 500 508
Amps 4.64 5.29 5.64 5.79 5.83 5.83 5.88
0
Lb/h 32.0 32.9 32.4 30.7 28.6 26.3 24.5
Btu/h 2990 3080 3040 2910 2740 2550 2390
Watts 340 439 496 525 536 543 556
Amps 4.76 5.44 5.84 6.04 6.11 6.15 6.25
5
Lb/h 36.2 37.3 36.8 35.3 33.1 30.9 28.9
Btu/h 3360 3460 3430 3310 3130 2940 2770
Watts 364 466 526 558 574 585 603
Amps 4.87 5.60 6.04 6.28 6.40 6.48 6.61
10
Lb/h 40.8 42.0 41.7 40.2 38.0 35.7 33.6
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 -7.247108E+03 -3.369465E+03 -2.116903E+01 -8.713148E+01
C2 4.635538E+00 1.374696E+00 -4.851190E-02 7.722594E-02
C3 2.744203E+02 9.300248E+01 6.545388E-01 3.305119E+00
C4 8.834433E-01 1.573500E-01 -3.047458E-04 1.114176E-02
C5 1.134109E+00 -3.721290E-03 9.582231E-04 1.363978E-02
C6 -2.413957E+00 -7.457703E-01 -5.287461E-03 -2.907813E-02
C7 1.077388E-03 6.443208E-04 -3.398669E-06 1.781607E-05
C8 -3.767352E-03 -1.412851E-03 3.094706E-06 -4.545023E-05
C9 -4.754742E-03 4.600462E-04 -6.991180E-07 -5.753958E-05
C10 6.621394E-03 1.994809E-03 1.423138E-05 7.975453E-05
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