Tecumseh VSA9510ZNA Performance Data Sheet

Performance Data Sheet

VSA9510ZNA

General Information

Model VSA9510ZNA Refrigerant R-404A
Test Condition ARI Performance Test Voltage 230V ~ 60HZ
Return Gas 4.4°C (40°F) RETURN GAS Motor Type CSR

Performance Information

Evap Temp (°F)

0

5

10

15

20

25

30

Condensing Temperature (°F)

80 90 100 110 120 130 140

Btu/h 9320 8660 8000 7330 6660 5970 5280
Watts 1130 1270 1410 1550 1690 1840 1980
Amps 5.19 5.79 6.39 7.00 7.61 8.23 8.86

Lb/h 158 157 156 154 153 152 150

Btu/h 10700 9890 9090 8280 7470 6650 5820
Watts 1150 1300 1450 1590 1750 1900 2050
Amps 5.22 5.85 6.48 7.12 7.76 8.41 9.06

Lb/h 179 177 176 174 172 170 168

Btu/h 12100 11200 10300 9330 8380 7430 6460
Watts 1160 1310 1470 1620 1780 1940 2100
Amps 5.23 5.89 6.54 7.21 7.88 8.55 9.24

Lb/h 202 200 198 196 194 192 190

Btu/h 13700 12600 11500 10500 9390 8300 7200
Watts 1160 1320 1480 1640 1800 1970 2140
Amps 5.21 5.90 6.59 7.28 7.97 8.68 9.39

Lb/h 229 227 224 222 220 217 214

Btu/h 15300 14100 12900 11700 10500 9250 8020
Watts 1160 1320 1480 1650 1810 1980 2160
Amps 5.18 5.89 6.60 7.32 8.05 8.78 9.52

Lb/h 258 256 253 250 248 245 242

Btu/h 17000 15700 14300 13000 11600 10300 8920
Watts 1160 1320 1490 1650 1820 2000 2170
Amps 5.13 5.86 6.61 7.35 8.10 8.86 9.62

Lb/h 290 288 285 282 279 276 273

Btu/h 18700 17300 15800 14300 12900 11400 9890
Watts 1160 1330 1490 1660 1830 2010 2190
Amps 5.06 5.82 6.59 7.36 8.14 8.93 9.72

Lb/h 325 322 319 316 313 310 306

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 1.451400E+04 2.382180E+01 4.441337E-01 1.679836E+02
C2 4.830032E+02 -4.394500E+00 -3.650869E-02 4.294719E+00

C3 -6.545636E+01 1.393485E+01 5.968501E-02 -1.245437E-01
C4 1.818548E+00 -2.006691E-01 -5.480488E-04 6.148297E-02
C5 -2.751981E+00 1.241241E-01 5.892820E-04 -6.691861E-03
C6 1.919677E-02 -5.163236E-03 -1.603000E-05 1.853487E-04
C7 -1.020426E-02 6.880569E-03 3.492666E-06 -1.247745E-04
C8 2.638005E-03 -2.351941E-03 -2.922052E-07 3.433228E-05
C9 -3.617040E-05 1.774275E-04 -1.521241E-07 -9.823679E-07

C10 -1.612742E-04 4.046191E-05 1.374792E-07 -1.557459E-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