SERVICING
51
Superheat
The expansion valves are factory adjusted to maintain 7 to
9 degrees superheat of the suction gas. Before checking
the superheat or replacing the valve, perform all the
procedures outlined under Air Flow, Refrigerant Charge,
Expansion Valve - Overfeeding, Underfeeding. These are
the most common causes for evaporator malfunction.
Checking Superheat
Refrigerant gas is considered superheated when its
temperature is higher than the saturation temperature
corresponding to its pressure. The degree of superheat
equals the degrees of temperature increase above
the saturation temperature at existing pressure. See
Temperature - Pressure Chart on following pages.
CAUTION
To prevent personal injury, carefully connect
and disconnect manifold gauge hoses. Escaping
liquid refrigerant can cause burns. Do not vent
refrigerant to atmosphere. Recover during
system repair or final unit disposal.
1. Run system at least 10 minutes to allow pressure to
stabilize.
2. For best results, temporarily install a thermometer on
the liquid line at the liquid line service valve and 4-6”
from the compressor on the suction line. Ensure the
thermometer makes adequate contact and is insulated
for best possible readings. Use liquid line temperature
to determine sub-cooling and vapor temperature to
determine superheat.
NOTE: An optional method is to locate the
thermometer at the suction line service valve. Ensure
the thermometer makes adequate contact and is
insulated for best possible readings.
3. Refer to the superheat table provided for proper system
superheat. Add charge to lower superheat or recover
charge to raise superheat.
Superheat Formula = Suct. Line Temp. - Sat. Suct. Temp.
EXAMPLE:
A. Suction Pressure = 143
B. Corresponding Temp. °F. = 50
C. Thermometer on Suction Line = 61°F.
To obtain the degrees temperature of superheat, subtract
50.0 from 61.0°F.
The difference is 11° Superheat. The 11° Superheat would
fall in the ± range of allowable superheat.
4. Disconnect manifold set, installation is complete.
SUBCOOLING FORMULA = SATURATED LIQUID TEMP.
- LIQUID LINE TEMP.
NOTE: Check the Schrader ports for leaks and tighten
valve cores if necessary. Install caps finger-tight.
HEAT PUMP - HEATING CYCLE
The proper method of charging a heat pump in the heat
mode is by weight with the additional charge adjustments
for line size, line length, and other system components.
For best results on outdoor units with TXVs, superheat
should be 2-5°F at 4-6” from the compressor. Make final
charge adjustments in the cooling cycle.
Checking Compressor Efficiency
The reason for compressor inefficiency is broken or
damaged scroll flanks on Scroll compressors, reducing the
ability of the compressor to pump refrigerant vapor.
The condition of the scroll flanks is checked in the following
manner:
1. Attach gauges to the high and low side of the system.
2. Start the system and run a “Cooling Performance Test.
If the test shows:
A. Below normal high side pressure.
B. Above normal low side pressure.
C. Low
temperature difference across coil.
D. Low amp draw at compressor.
And the charge is correct. The compressor is faulty -
replace the compressor.
Overfeeding
Overfeeding by the expansion valve results in high suction
pressure, cold suction line, and possible liquid slugging of
the compressor.
If these symptoms are observed:
1. Check for an overcharged unit by referring to the
cooling performance charts in the servicing section.
2. Check the operation of the power element in the valve
as explained in Checking Expansion Valve Operation.
3. Check for restricted or plugged equalizer tube.
Underfeeding
Underfeeding by the expansion valve results in low system
capacity and low suction pressures.
If these symptoms are observed:
1. Check for a restricted liquid line or drier. A restriction
will be indicated by a temperature drop across the drier.
2. Check the operation of the power element of the valve
as described in Checking Expansion Valve Operation.
Summary of Contents for ASXC16
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Page 5: ...PRODUCT IDENTIFICATION 5 ...