Performance Data Sheet
Btu/h 21900 20500 19000 17500 15800 14100 12300
Watts 2450 2560 2720 2940 3220 3550 3940
Amps 7.61 7.86 8.22 8.69 9.27 9.96 10.8
0
Lb/h 368 366 364 362 359 357 354
Btu/h 24000 22400 20800 19100 17300 15400 13400
Watts 2560 2670 2830 3040 3310 3640 4030
Amps 7.82 8.07 8.43 8.89 9.47 10.2 11.0
5
Lb/h 409 407 405 402 399 396 393
Btu/h 26100 24400 22600 20700 18700 16600 14400
Watts 2680 2780 2940 3150 3420 3750 4130
Amps 8.05 8.29 8.64 9.10 9.68 10.4 11.2
10
Lb/h 453 450 447 444 441 437 433
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 2.942117E+04 3.627359E+03 9.607451E+00 3.762926E+02
C2 6.786050E+02 2.800475E+01 4.555764E-02 8.641709E+00
C3 -5.628872E+01 -3.726370E+01 -6.914812E-02 -2.452106E-02
C4 1.673671E+00 8.557082E-02 2.312748E-04 5.691043E-02
C5 -3.197512E+00 -8.528834E-02 -5.417476E-05 -6.846835E-03
C6 -4.802257E-01 2.826100E-01 5.528266E-04 -1.047547E-03
C7 -1.915713E-02 1.545265E-03 -4.338176E-07 -2.173272E-04
C8 -9.903789E-03 7.168254E-04 -2.629176E-07 -1.060949E-04
C9 -8.721465E-04 4.848771E-05 -3.133049E-08 -8.074331E-06
C10 5.477895E-05 -4.431985E-06 1.032679E-09 6.413901E-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