Performance Data Sheet
VSC9521ZXT
General Information
Model VSC9521ZXT 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 29200 27200 25100 23000 20800 18600 16200
Watts 1830 2070 2330 2640 2980 3380 3830
Amps 5.75 6.49 7.32 8.27 9.35 10.6 12.0
Lb/h 461 455 449 443 436 427 418
Btu/h 32200 30000 27700 25400 23000 20500 18000
Watts 1830 2060 2330 2630 2970 3360 3810
Amps 5.73 6.47 7.30 8.24 9.31 10.5 11.9
Lb/h 511 505 498 491 484 476 468
Btu/h 35400 33000 30500 28000 25300 22600 19800
Watts 1830 2060 2320 2620 2960 3340 3790
Amps 5.73 6.46 7.28 8.21 9.27 10.5 11.9
Lb/h 566 559 552 545 538 530 522
Btu/h 38800 36200 33500 30700 27800 24900 21900
Watts 1830 2060 2320 2610 2950 3330 3760
Amps 5.75 6.47 7.28 8.20 9.24 10.4 11.8
Lb/h 627 619 612 604 597 590 582
Btu/h 42500 39600 36600 33600 30500 27300 24000
Watts 1850 2080 2330 2620 2940 3320 3750
Amps 5.81 6.52 7.31 8.21 9.24 10.4 11.8
Lb/h 695 686 677 670 662 655 648
Btu/h 46400 43200 40000 36700 33400 29900 26400
Watts 1880 2100 2350 2630 2950 3320 3740
Amps 5.91 6.60 7.38 8.26 9.26 10.4 11.7
Lb/h 769 759 750 742 735 728 721
Btu/h 50500 47100 43600 40000 36400 32700 28900
Watts 1930 2150 2390 2660 2980 3330 3740
Amps 6.07 6.74 7.50 8.36 9.34 10.5 11.7
Lb/h 852 840 831 822 815 808 802
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 2.874190E+04 3.496091E+02 1.096994E+00 2.835771E+02
C2 6.627838E+02 -7.567830E+00 -2.374613E-02 9.894436E+00
C3 -1.221949E+02 2.277359E+01 7.145835E-02 4.411002E-01
C4 5.615262E+00 -1.095950E-01 -3.438844E-04 5.089803E-02
C5 -2.949073E+00 2.055600E-01 6.450007E-04 -6.194193E-02
C6 1.642031E-01 -1.462366E-01 -4.588574E-04 -6.646172E-04
C7 1.143571E-02 4.698609E-03 1.474317E-05 8.230839E-04
C8 -2.769608E-02 -2.007717E-03 -6.299762E-06 -1.058080E-04
C9 3.143146E-04 -7.684735E-04 -2.411296E-06 2.979016E-04
C10 -1.664770E-03 1.149333E-03 3.606345E-06 -2.795439E-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