Emerson 3000/ITR Manuel D’Utilisation
Component Operation and Maintenance
41
7.4.2 Discharge Pressure
Discharge Pressure can be increased or decreased by load conditions or condenser efficiency. The high
pressure switch will shut the compressor down at its cut-out setting. Refer to Table 7, below.
7.4.3 Superheat
Superheat can be adjusted by the Thermostatic Expansion Value (TEV). To determine superheat:
1. Measure the temperature of the suction line at the point the TEV bulb is clamped.
2. Obtain the gauge pressure at the compressor suction valve.
3. Add the estimated pressure drop between bulb location and suction valve.
4. Convert the sum of the two pressures to the equivalent temperature.
5. Subtract this temperature from the actual suction line temperature. The difference is superheat.
1. Measure the temperature of the suction line at the point the TEV bulb is clamped.
2. Obtain the gauge pressure at the compressor suction valve.
3. Add the estimated pressure drop between bulb location and suction valve.
4. Convert the sum of the two pressures to the equivalent temperature.
5. Subtract this temperature from the actual suction line temperature. The difference is superheat.
7.4.4 Thermostatic Expansion Valve
Operation
The thermostatic expansion valve performs one function. It keeps the evaporator supplied with
enough refrigerant to satisfy load conditions. It does not effect compressor operation.
Proper valve operation can be determined by measuring superheat. If too little refrigerant is being fed
Proper valve operation can be determined by measuring superheat. If too little refrigerant is being fed
to the evaporator, the superheat will be high; if too much refrigerant is being supplied, the superheat
will be low. The correct superheat setting is between 10 and 15°F (5.6 and 8.3°C).
Adjustment
To adjust the superheat setting:
1. Remove the valve cap at the bottom of the valve.
2. Turn the adjusting stem counterclockwise to lower the superheat.
3. Turn the adjusting stem clockwise to increase the superheat.
1. Remove the valve cap at the bottom of the valve.
2. Turn the adjusting stem counterclockwise to lower the superheat.
3. Turn the adjusting stem clockwise to increase the superheat.
Table 7
Discharge pressures
System Design
Discharge Pressure
PSIG (kPa)
Air Cooled
260 (1795)
Water/Glycol Cooled
65-75
°
F (18-24
°
C) fluid
210 (1450)
85
°
F (29
°
C) fluid
225 (1550)
115°F (46°C) fluid
295 (2035)
Maximum
330 (2275)
High Pressure Cut-Out
360 (2482)
NOTE
Make no more than one turn of the stem at a time. As long as 30 minutes may be required
Make no more than one turn of the stem at a time. As long as 30 minutes may be required
for the new balance to take place.