Performance Data Sheet
AWA9514ZXT
General Information
Model AWA9514ZXT Refrigerant R-404A
Test Condition ARI Performance Test Voltage 230V 3~ 60HZ
Return Gas 18.3°C (65°F) RETURN GAS Motor Type 3PH
Performance Information
Evap Temp (°F)
20
25
30
35
40
45
50
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h 25500 23700 20600 16900 13500 11000 10300
Watts 2110 2270 2320 2300 2270 2300 2440
Amps 6.64 6.80 7.00 7.20 7.39 7.53 7.60
Lb/h 397 399 371 328 287 263 271
Btu/h 28900 27200 24000 20100 16300 13200 11800
Watts 2220 2420 2490 2490 2470 2500 2620
Amps 6.38 6.66 6.97 7.29 7.58 7.81 7.96
Lb/h 460 466 439 394 348 315 312
Btu/h 32000 30500 27300 23200 19000 15400 13300
Watts 2250 2510 2620 2650 2640 2670 2780
Amps 6.37 6.76 7.17 7.58 7.95 8.26 8.48
Lb/h 513 525 502 457 408 369 357
Btu/h 34900 33600 30500 26300 21800 17800 15100
Watts 2230 2550 2710 2770 2790 2830 2950
Amps 6.52 6.99 7.48 7.95 8.39 8.76 9.03
Lb/h 560 581 563 521 471 428 409
Btu/h 37700 36700 33700 29400 24800 20400 17100
Watts 2170 2550 2770 2880 2930 3000 3130
Amps 6.69 7.22 7.77 8.30 8.78 9.19 9.48
Lb/h 604 636 626 589 540 496 472
Btu/h 40500 39900 37100 32900 28000 23400 19700
Watts 2070 2530 2820 2980 3080 3180 3330
Amps 6.77 7.35 7.94 8.51 9.01 9.43 9.74
Lb/h 649 695 695 665 620 577 550
Btu/h 43400 43200 40700 36600 31800 26900 22800
Watts 1940 2500 2860 3090 3240 3380 3570
Amps 6.65 7.26 7.87 8.45 8.96 9.38 9.67
Lb/h 700 761 774 753 714 674 647
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 -1.007715E+05 -9.941553E+03 2.307294E+01 -2.580618E+03
C2 5.363427E+02 4.030324E+01 -9.711805E-01 1.773855E+01
C3 3.556983E+03 3.127954E+02 -2.332399E-01 7.825825E+01
C4 -3.099669E+01 -4.243307E+00 2.005932E-02 -9.334011E-01
C5 2.285826E+01 1.882016E+00 5.501045E-03 4.120145E-01
C6 -3.813979E+01 -3.031729E+00 1.687529E-03 -7.867579E-01
C7 1.619300E-01 1.660857E-02 -1.562302E-04 4.933446E-03
C8 1.478686E-01 1.961567E-02 -3.849092E-05 4.575579E-03
C9 -1.648508E-01 -1.154691E-02 -7.521571E-06 -3.144613E-03
C10 1.287780E-01 9.814821E-03 -4.936906E-06 2.594112E-03
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