Caution – AAON CN-140 User Manual

31

For units equipped with low ambient (0°F)
option see the special charging instructions
at the end of this section.

Checking Liquid Sub-cooling
Measure the temperature of the liquid line as
it leaves the condenser coil.

Read the gauge pressure at the liquid line
close to the point where the temperature was
taken. You must use liquid line pressure as it
will vary from discharge pressure due to
condenser coil pressure drop.
Convert the pressure obtained to a saturated
temperature using the appropriate refrigerant
temperature-pressure chart.

Subtract

the

measured

liquid

line

temperature from the saturated temperature
to determine the liquid sub-cooling.

Compare calculated sub-cooling to the table
below for the appropriate unit type and
options.

Checking Evaporator Superheat
Measure the temperature of the suction line
close to the compressor.

Read gauge pressure at the suction line close
to the compressor.

Convert the pressure obtained to a saturated
temperature using the appropriate refrigerant
temperature-pressure chart.

Subtract the saturated temperature from the
measured suction line temperature to
determine the evaporator superheat.

For refrigeration systems with tandem scroll
compressors, it is critical that the suction
superheat setpoint on the expansion valve is
set with one compressor running. The
suction superheat should be 10-13°F with
one compressor running. The suction

superheat

will

increase

with

both

compressors

in

a

tandem

running.

Inadequate suction superheat can allow
liquid

refrigerant

to

return

to

the

compressors which will wash the oil out of
the compressor. Lack of oil lubrication will
destroy a compressor. Liquid sub-cooling
should be measured with both compressors
in a refrigeration system running.

Compare calculated superheat to Table 7 for
the appropriate unit type and options.

Table 7 - Acceptable Refrigeration Circuit

Values

Air-Cooled Condenser

Sub-Cooling

12-18°F

Sub-Cooling with

Hot Gas Reheat

15-22°F

Superheat

8-15°F

Adjusting

Sub-cooling

and

Superheat

Temperatures
The system is overcharged if the sub-cooling
temperature is too high and the evaporator is
fully loaded (low loads on the evaporator
result in increased sub-cooling) and the
evaporator

superheat

is

within

the

temperature range as shown in Table 7 (high
superheat results in increased sub-cooling)

Correct an overcharged system by reducing
the amount of refrigerant in the system to
lower the sub-cooling.

Expansion valves must be adjusted
to approximately 10-15°F of suction
superheat. Failure to have sufficient
superheat

will

damage

the

compressor and void the warranty.

CAUTION