Tecumseh AHA4518AXD Performance Data Sheet
Performance Data Sheet
AHA4518AXD
General Information
Model AHA4518AXD Refrigerant R-12
Test Condition ASHRAE Performance Test Voltage 230V ~ 60HZ
Return Gas 35°C (95°F) RETURN GAS Motor Type CSR
Performance Information
Evap Temp (°F)
20
25
30
35
40
45
50
55
Condensing Temperature (°F)
80 90 100 110 120 130 140
Btu/h 13600 13700 13100 11900 10500 9090 7830
Watts 1490 1550 1580 1590 1600 1600 1600
Amps
Lb/h 97.2 156 186 193 184 167 148
Btu/h 14700 15000 14600 13600 12200 10800 9410
Watts 1530 1610 1670 1710 1730 1740 1760
Amps
Lb/h 119 182 214 222 215 198 178
Btu/h 15700 16300 16100 15300 14000 12500 11000
Watts 1550 1670 1750 1810 1850 1880 1900
Amps
Lb/h 142 207 242 253 246 229 210
Btu/h 16800 17700 17700 17000 15800 14300 12700
Watts 1560 1720 1830 1910 1960 2000 2040
Amps
Lb/h 165 234 271 283 278 262 242
Btu/h 17900 19200 19400 18800 17700 16100 14400
Watts 1570 1750 1890 1990 2060 2120 2160
Amps
Lb/h 188 261 301 315 311 295 275
Btu/h 19100 20700 21100 20700 19600 18000 16300
Watts 1550 1770 1930 2060 2150 2220 2270
Amps
Lb/h 213 289 331 348 345 330 309
Btu/h 20400 22300 23000 22700 21600 20100 18200
Watts 1520 1770 1960 2110 2220 2310 2370
Amps
Lb/h 238 318 363 382 380 366 345
Btu/h 21800 24000 24900 24800 23800 22200 20300
Watts 1480 1750 1980 2150 2280 2380 2450
Amps
Lb/h 265 348 397 417 417 403 382
COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW
C1 -2.163329E+04 5.100568E+02 0.000000E+00 -2.153357E+03
C2 -8.077003E+02 -6.587301E+01 0.000000E+00 -5.271341E+00
C3 1.093666E+03 3.307658E+01 0.000000E+00 5.516601E+01
C4 -1.817906E+00 -7.873386E-02 0.000000E+00 -2.798317E-02
C5 1.944768E+01 1.315895E+00 0.000000E+00 1.849228E-01
C6 -1.173877E+01 -3.969353E-01 0.000000E+00 -4.446109E-01
C7 2.500099E-02 -2.083398E-03 0.000000E+00 2.916720E-04
C8 4.285292E-03 4.999296E-04 0.000000E+00 1.357179E-04
C9 -8.068154E-02 -4.284105E-03 0.000000E+00 -7.431831E-04
C10 3.645864E-02 1.302094E-03 0.000000E+00 1.156243E-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
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