Goodmans ASX User Manual
SERVICING
69
NOTE: At least twelve (12) inches of the suction line
immediately out of the compressor stub must be discarded
due to burned residue and contaminates.
immediately out of the compressor stub must be discarded
due to burned residue and contaminates.
1. Remove compressor discharge line strainer.
2. Remove the liquid line drier and expansion valve.
3
Purge all remaining components with dry nitrogen or
carbon dioxide until clean.
carbon dioxide until clean.
4. Install new components including liquid line drier.
5. Braze all joints, leak test, evacuate, and recharge sys-
tem.
6. Start up the unit and record the pressure drop across the
drier.
7. Continue to run the system for a minimum of twelve (12)
hours and recheck the pressure drop across the drier.
Pressure drop should not exceed 6 PSIG.
Pressure drop should not exceed 6 PSIG.
8. Continue to run the system for several days, repeatedly
checking pressure drop across the suction line drier. If
the pressure drop never exceeds the 6 PSIG, the drier has
trapped the contaminants. Remove the suction line drier
from the system.
the pressure drop never exceeds the 6 PSIG, the drier has
trapped the contaminants. Remove the suction line drier
from the system.
9. If the pressure drop becomes greater, then it must be
replaced and steps 5 through 9 repeated until it does not
exceed 6 PSIG.
exceed 6 PSIG.
NOTICE: Regardless, the cause for burnout must be deter-
mined and corrected before the new compressor is started.
mined and corrected before the new compressor is started.
S-120 REFRIGERANT PIPING
The piping of a refrigeration system is very important in
relation to system capacity, proper oil return to compressor,
pumping rate of compressor and cooling performance of the
evaporator.
relation to system capacity, proper oil return to compressor,
pumping rate of compressor and cooling performance of the
evaporator.
POE oils maintain a consistent viscosity over a large tem-
perature range which aids in the oil return to the compressor;
however, there will be some installations which require oil
return traps. These installations should be avoided whenever
possible, as adding oil traps to the refrigerant lines also
increases the opportunity for debris and moisture to be
introduced into the system. Avoid long running traps in
horizontal suction line.
perature range which aids in the oil return to the compressor;
however, there will be some installations which require oil
return traps. These installations should be avoided whenever
possible, as adding oil traps to the refrigerant lines also
increases the opportunity for debris and moisture to be
introduced into the system. Avoid long running traps in
horizontal suction line.
LONG LINE SET APPLICATION R-410A
This long line set application guideline applies to all AHRI
listed R-410A air conditioner and heat pump split system
matches of nominal capacity 18,000 to 60,000 Btuh. This
guideline will cover installation requirements and additional
accessories needed for split system installations where the
line set exceeds 80 feet in actual length.
listed R-410A air conditioner and heat pump split system
matches of nominal capacity 18,000 to 60,000 Btuh. This
guideline will cover installation requirements and additional
accessories needed for split system installations where the
line set exceeds 80 feet in actual length.
Accessories for lines greater than 80 feet:
1. Crankcase Heater- a long line set application can
critically increase the charge level needed for a system.
As a result, the system is very prone to refrigerant
migration during its off-cycle and a crankcase heater will
help minimize this risk. A crankcase heater is required for
any long line application (50 watt minimum).
As a result, the system is very prone to refrigerant
migration during its off-cycle and a crankcase heater will
help minimize this risk. A crankcase heater is required for
any long line application (50 watt minimum).
2. For all line set applications over 80 feet a TXV is recom-
mended. The subcooling should be 6º ± 2º.
3. Hard Start Assist- increased charge level in long line
applications can require extra work from the compressor
at start-up. A hard start assist device may be required to
overcome this.
at start-up. A hard start assist device may be required to
overcome this.
4. Liquid Line Solenoid - a long line set application can
critically increase the charge level needed for a system.
As a result, the system is very prone to refrigerant
migration during its off-cycle and a liquid line solenoid will
help minimize this. A liquid line solenoid is recom-
mended for any long line application on straight cooling
units.
As a result, the system is very prone to refrigerant
migration during its off-cycle and a liquid line solenoid will
help minimize this. A liquid line solenoid is recom-
mended for any long line application on straight cooling
units.
Tube Sizing:
1. In long line applications, the “equivalent line length” is the
sum of the straight length portions of the suction line plus
losses (in equivalent length) from 45 and 90 degree
bends. Select the proper suction tube size based on
equivalent length of the suction line (see Tables 4 &
5) and recalculated system capacity.
losses (in equivalent length) from 45 and 90 degree
bends. Select the proper suction tube size based on
equivalent length of the suction line (see Tables 4 &
5) and recalculated system capacity.
Equivalent length =
Length
horizontal
+ Length
vertical
+ Losses from bends (see Tables 4 & 5)
Example using ¾” elbow:
150 feet of straight tubing + (four short radius elbows
x 1.7) + (2 long radius elbows x 1.5) = 150 + 3.4 +3 =
156.4 equivalent feet.
x 1.7) + (2 long radius elbows x 1.5) = 150 + 3.4 +3 =
156.4 equivalent feet.
2. For any residential split system installed with a long
line set, 3/8" liquid line size must be used. Limiting
the liquid line size to 3/8" is critical since an increased
refrigerant charge level from having a larger liquid line
could possibly shorten a compressor’s life-span.
the liquid line size to 3/8" is critical since an increased
refrigerant charge level from having a larger liquid line
could possibly shorten a compressor’s life-span.
3. Single Stage Condensing Unit: The maximum length
of tubing must not exceed 150 feet.
• 80 feet is the maximum recommended vertical difference
between the condenser and evaporator when the evapo-
rator is above the condenser. Equivalent length is not to
exceed 150 feet.
rator is above the condenser. Equivalent length is not to
exceed 150 feet.
• The vertical difference between the condenser and evapo-
rator when the evaporator is below the condenser can
approach 150 feet, as long as the equivalent length does
not exceed 150 feet.
approach 150 feet, as long as the equivalent length does
not exceed 150 feet.
• The distance between the condenser and evaporator in a
completely horizontal installation in which the indoor and
outdoor unit do not differ more than 10 feet in vertical
distance from each other can approach 150 feet, as long
as the equivalent length does not exceed 150 feet.
outdoor unit do not differ more than 10 feet in vertical
distance from each other can approach 150 feet, as long
as the equivalent length does not exceed 150 feet.