Performance Data Sheet

Btu/h 1980 1950 1920 1880 1830 1770 1690

Watts 385 395 404 413 420 425 428

Amps 4.64 4.71 4.76 4.80 4.83 4.86 4.88

Lb/h 32.0 31.6 31.0 30.4 29.6 28.6 27.4

Btu/h 2220 2200 2160 2120 2080 2020 1950

Watts 408 417 427 437 446 453 458

Amps 4.75 4.81 4.87 4.92 4.97 5.01 5.04

Lb/h 36.0 35.6 35.0 34.4 33.7 32.8 31.7

Btu/h 2490 2460 2430 2390 2350 2290 2230

Watts 432 442 452 462 472 481 488

Amps 4.86 4.93 5.00 5.06 5.12 5.17 5.22

Lb/h 40.4 39.9 39.4 38.8 38.1 37.2 36.2

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 2.225757E+03 3.621221E+02 3.734311E+00 3.603754E+01

C2 5.527410E+01 8.704505E+00 2.836411E-02 9.013926E-01

C3 -5.617393E+00 -1.044853E+00 1.662970E-02 -9.191509E-02

C4 5.207151E-01 9.995240E-02 1.818389E-04 8.698706E-03

C5 -2.071893E-01 -1.024279E-01 -2.897934E-04 -3.301119E-03

C6 5.682111E-02 2.432881E-02 -7.246505E-05 9.285991E-04

C7 2.046809E-03 4.119089E-04 1.271224E-06 3.573220E-05

C8 -1.564815E-03 -7.753603E-04 3.923129E-07 -2.511643E-05

C9 1.254938E-03 5.984374E-04 2.240376E-06 1.999423E-05

C10 -3.140940E-04 -9.652387E-05 8.598577E-08 -5.104211E-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