Liebert 8 Tons, 50 & 60Hz user manual Refrigeration System, Suction Pressure, Discharge Pressure

System Operation, Testing, and Maintenance

6.2.4Electric Reheat

Reheat element sheets and fins are manufactured with stainless steel. Regular inspections are neces- sary to assure proper cleanliness of the reheating element. Should inspection reveal corrosion parti- cles on the reheating element or adjoining surfaces (including ducts and plenums), appropriate cleaning should be performed. Periodic replacement of the reheating element may be necessary to meet specific application requirements.

6.2.5Refrigeration System

Each month the components of the refrigeration system should be inspected for proper function and signs of wear. Since in most cases evidence of malfunction is present prior to component failure, peri- odic inspections can be a major factor in the prevention of most system failures. Refrigerant lines must be properly supported and not allowed to vibrate against ceilings, floors, or the unit frame. Inspect all refrigerant lines every six months for signs of wear and proper support. Inspect the capil- lary and equalizer lines from the expansion valve.

Suction Pressure

Suction pressure will vary with load conditions. Suction pressure normally ranges from 58 psi to 75 psi (405 kPa to 517 kPa). When the 3-ton circuit is operating alone, the upper range of suction pres- sure may approach 100 psig. This is a function of the unit design and is acceptable for scroll compres- sors.

Discharge Pressure

The discharge pressure will vary greatly with load and ambient conditions (Table 16). The high-pres- sure switch will shut the compressor down at its cut-out setting.

Table 16 Typical discharge pressures

Thermostatic Expansion Valve

The thermostatic expansion valve keeps the evaporator supplied with enough refrigerant to satisfy load conditions. Proper valve operation can be determined by measuring superheat level. If too little refrigerant is being fed to the evaporator, then the superheat will be high. Conversely, if too much refrigerant is being supplied, then the superheat will be low. The correct superheat setting is between 10 and 15°F (5.6 and 8.3°C). Only the 5-ton valve is adjustable.

Air-Cooled Condensing Units

Restricted airflow through the condenser coil will reduce the operating efficiency of the unit. Addi- tionally, it can result in high compressor head pressure and loss of cooling. Using compressed air or commercial coil cleaner, clean the condenser coil of all debris that will inhibit airflow. In winter, do not permit snow to accumulate around the side or underneath the condenser. At the same time check for bent or damaged coil fins and repair as necessary. Check all refrigerant lines and capillaries for vibration and support as necessary. Carefully inspect all refrigerant lines for signs of oil leaks.

Coaxial Condensers (Water/Glycol-Cooled Condensing Units)

Each water or glycol-cooled condensing unit has a coaxial condenser consisting of an exterior steel tube and an interior copper tube. If the water supply is clean, coaxial condensers do not normally require maintenance or replacement. Should your system begin to operate at high head pressure with reduced capacity, and all other causes have been eliminated, the condenser may be obstructed or fouled and should be replaced.

52