Performance Data Sheet
Btu/h 19200 18000 16700 15400 13900 12300 10700
Watts 2080 2220 2400 2620 2890 3190 3540
Amps 7.23 7.41 7.70 8.10 8.62 9.25 10.0
0
Lb/h 325 325 324 323 320 317 313
Btu/h 21300 20000 18600 17100 15500 13800 12000
Watts 2160 2300 2480 2700 2960 3270 3610
Amps 7.40 7.57 7.85 8.25 8.77 9.39 10.1
5
Lb/h 364 365 364 362 360 357 352
Btu/h 23600 22100 20600 19000 17300 15400 13500
Watts 2240 2380 2560 2780 3050 3350 3700
Amps 7.56 7.72 8.00 8.39 8.90 9.51 10.2
10
Lb/h 408 408 408 406 404 400 396
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 2.496441E+04 2.482574E+03 9.872722E+00 2.900647E+02
C2 6.165882E+02 1.605579E+01 4.200978E-02 7.852970E+00
C3 -3.295633E+01 -2.174294E+01 -7.819293E-02 7.767558E-01
C4 2.421878E+00 7.182467E-02 6.722009E-05 5.982782E-02
C5 -2.582077E+00 -1.537885E-02 -8.914994E-05 -3.565083E-03
C6 -4.914091E-01 2.096214E-01 5.630685E-04 -4.250216E-03
C7 8.672085E-03 1.091380E-03 -5.099050E-06 3.571187E-04
C8 3.224984E-03 4.407499E-04 -2.081239E-06 1.445085E-04
C9 8.898188E-05 1.982326E-05 -9.962944E-08 6.574843E-06
C10 -2.276529E-05 -2.893151E-06 1.340627E-08 -9.495868E-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