Carrier 30HK040-060 START-UP and Operation, Operating Limitations, To ADD OIL, To Remove OIL

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Check Oil Charge Ð The compressor(s) is factory- charged with oil. If oil is visible in the compressor sight glass(es), check the unit for operating readiness as described in Initial Check section (page 25), then start the unit. Ob- serve oil level and add oil, if required, to bring the oil level in the compressor crankcase(s) to between 1¤8 and 3¤8 of the sight glass(es) during steady operation.

TO ADD OIL

1.Close the suction shutoff valve and pump the compressor crankcase down to between zero and 2 psig (zero to 13.8 kPa) (the low-pressure switch must be jumpered). Wait a few minutes and repeat as needed until the pres- sure remains between zero and 2 psig (zero to 13.8 kPa).

2.Close the discharge shutoff valve.

3.Remove the oil-®ll plug above the compressor sight glass, add oil through the plug hole, and replace the plug.

4.After opening the suction and discharge service valves, remove low-pressure switch jumper, run the compressor for about 20 minutes, and check the oil level.

Use only Carrier-approved compressor oil:

Petroleum Specialties, Inc. . . . . . . . . . . . . . . . .Cryol 150* Texaco, Inc. . . . . . . . . . . . . . . . . . . . . . . . . .Capella WF-32 Witco Chemical Co. . . . . . . . . . . . . . . . . . . . . .Suniso 3GS *Factory charge.

Do not reuse drained oil, and do not use any oil that has been exposed to the atmosphere.

TO REMOVE OIL

The crankcase will be under slight pressure. Be careful not to lose the entire oil charge. Gloves and eye pro- tection must be worn.

Pump down the compressor to between zero and 2 psig (zero to 13.8 kPa). Loosen the oil drain valve located in the compressor base to allow the oil to seep out past plug threads. Be careful not to remove plug; the entire oil charge may be lost. Small amounts of oil can be removed through oil pump discharge connection.

START-UP AND OPERATION

Operation Checks Ð Start-up should be performed only under supervision of an experienced refrigeration techni- cian. Refer to Start-Up Checklist on pages CL-1 to CL-4. Remove and save the checklist for future reference.

1.Crankcase heater must be energized for at least 24 hours before the chiller is started.

2.Open all system valves that may have been closed during or after charging.

3.Check air-handling equipment, chilled water (¯uid) and condenser pumps, and any other equipment connected to the chiller.

4.Start the unit by moving the ON-OFF switch to the ON position.

5.Check all controls for proper operation. Follow Start-Up Checklist procedures in these instructions.

6.Adjust the water regulating valve (where used) to obtain the most economical head pressure (based on the relative cost of water and electricity). Head pressure is normally 200 to 230 psig (1379 to 1586 kPa) for 30HK,HL units, and 195 to 226 psig (1344 to 1558 kPa) for 30HW units when using R-22 refrigerant.

7.Check the cooler leaving chilled water temperature to see that it remains well above 32 F (0° C), or the brine freez- ing point if the unit is a medium temperature brine unit.

8.Recheck compressor oil level (see Check Oil Charge sec- tion on this page). Add or remove oil to achieve the level required during steady operation.

Operating Limitations

Do not operate with cooler leaving chiller water (¯uid) temperature (LCWT) below 40 F (4.5 C) for the stan- dard units, or below 15 F (−9.4 C) for units factory built for medium temperature brine.

HIGH COOLER LEAVING CHILLED WATER (FLUID) TEMPERATURES (LCWT) Ð During start-up with cooler LCWT above approximately 60 F (16 C), the unit expansion valve will limit suction pressure to approximately 90 psig (620 kPa) to avoid overloading the compressor.

LOW COOLER LCWT Ð For standard units, the LCWT must be no lower than 40 F (4.5 C). If the unit is the factory- installed optional medium temperature brine unit, the cooler LCWT can go down to 15 F (−9.4 C).

MAIN POWER SUPPLY Ð Minimum and maximum ac- ceptable supply voltages are listed in Tables 4A and 4B.

Unbalanced 3-Phase Supply Voltage Ð Never operate a mo- tor where a phase imbalance between phases is greater than 2%. To determine percent voltage imbalance, see Unbal- anced 3-Phase Supply Voltage section on page 19.

Check Refrigerant Feed Components

THERMOSTATIC EXPANSION VALVE (TXV) Ð The TXV controls the ¯ow of liquid refrigerant to the cooler by main- taining constant superheat of vapor leaving the cooler. There is one valve per refrigerant circuit. The valve(s) is activated by a temperature-sensing bulb(s) strapped to the suction line(s).

The valve(s) is factory-set to maintain between 8° and 10° F (4.4° and 5.6° C) of superheat leaving the cooler. Check the superheat during operation after conditions have stabi- lized. If necessary, adjust the superheat to prevent refriger- ant ¯oodback to the compressor.

FILTER DRIER Ð The function of the ®lter drier is to main- tain a clean, dry system. The moisture indicator (described below) indicates any need to change the ®lter drier. The ®l- ter drier is a sealed-type drier. When the drier needs to be changed, the entire ®lter drier must be replaced.

NOTE: The 30HK, HL units have 2 ®lter driers; one per circuit.

MOISTURE-LIQUID INDICATOR Ð The indicator is lo- cated immediately ahead of the TXV to provide an indica- tion of the refrigerant moisture content. It also provides a sight glass for refrigerant liquid. Clear ¯ow of liquid refrig- erant (at full unit loading) indicates sufficient charge in the system. Bubbles in the sight glass (at full unit loading) in- dicate an undercharged system or the presence of noncon- densables. Moisture in the system, measured in parts per million (ppm), changes the color of the indicator as follows:

Blue (safe) Ð Moisture is below 45 ppm Light Violet (caution) Ð 45 to 180 ppm Pink (wet) Ð above 180 ppm

The unit must be in operation at least 12 hours before the moisture indicator gives an accurate reading, and must be in contact with liquid refrigerant. At the ®rst sign of moisture in the system, change the corresponding ®lter drier.

NOTE: The 30HK, HL units have 2 indicators; one per circuit.

LIQUID LINE SERVICE VALVE Ð This valve provides a refrigerant charging port and, in combination with the com- pressor discharge service valve(s), allows the refrigerant to be pumped into the high side of the system.

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Contents Contents Installation, Start-Up Service InstructionsGeneral Safety Considerations30HW Units InstallationRig and Place Unit Place the UnitSAE TOP ViewLeft Side View UnitTOP View Front View Right Side View 30HL050,060 CondenserlessRear View Left Side View 30HWB 30HWB018-040 Fluid Cooled30HWC,S Left Side View Front View30HWA,B 30HWC,S Weight Distribution AT Each Mounting HOLE, 60 HZ UnitsWeight Distribution AT Each Mounting HOLE, 50 HZ Units Location of Mounting HolesCooler HWBHWC,S CompressorRefrigerant Ð kg Ð Physical Data 30HL, HWA Condenserless Units Ð English Ð Physical Data 30HL, HWA Condenserless Units Ð SICondenser Connections Factory-Installed Unit Wheels Typical Piping with Fluid-Cooled 30HWB Unit Shown Page Cooler Description Installed Coupling Fastening Grooved Pipe EndsCooler Pressure Drop Ð 30HK, HL Units Minimum Cooler and Condenser Flow Rates Minimum Loop VolumeUnit Size Cooler Condenser Minimum Cooler Loop VOLUME² Cooler Pressure Drop Ð 30HW UnitsCondenser Pressure Drop Ð Page LRA MTA Ð Electrical Data Ð 30HK, HWB, HWC, HWS Fluid-Cooled UnitsUnit Size ICFÐ Electrical Data Ð 30HL and HWA Condenserless Units GCS Field Accessory WiringCWP DLSTOR COMEquip GNDHPS PRIHGS SECNeut PRE-START-UPInitial Check Electric Shock HazardDeadband Setting Check Refrigerant ChargeTypical Deadband Requirements To ADD OIL START-UP and OperationOperating Limitations Check Refrigerant Feed ComponentsCrankcase Heater Pressure Relief Valve SettingsCompressor and Unit Protective Devices Check Unit SafetiesFactory Settings, Low-Pressure Switch Fixed Factory Settings, High-Pressure Switch FixedUnit Operation Capacity Control and Operating Sequence ÐFREEZE-UP Protection Capacity Control Steps Ð 30HK, HL Standard Units Transfer Switch Compressor Unit Control No Position StepsSteps Cylinders ServiceCapacity Control Steps Ð 30HW Standard Units Unit Capacity Control OperatingThermistor Thermistor REPLACEMENT, 30HK, HL UnitsTemperature Resistance Ohms Ð Sensor Temperature F vs ResistanceÐ Sensor Temperature C vs Resistance Components for Part Number Plugging Servicing Cooler 30HK,HL onlyTightening Cooler Head Bolts Plugs and TubesTroubleshooting Chilled Fluid PROOF-OF-FLOW Switches OpenHead Bolt Tightening Sequence Symptoms Cause Remedy TroubleshootingCompressor Call for Free Catalog Service TrainingSTART-UP Checklist for Chiller Systems Remove and use for job le Preliminary InformationPreliminary Equipment Check YES or no Voltage Imbalance LOCATE, REPAIR, and Report ANY R-22 LeaksUnits Rated MIN. Pressure Drop = Unit Start-UpFluid Entering Cooler Fluid Leaving CoolerBook Catalog No Form 30H-10SI Pg CL-4 11-98

30HK040-060, 060, 30HL050, 30HW018-040 specifications

The Carrier 30HW018-040, 30HL050, 060, and 30HK040-060 series represents a range of advanced rooftop units designed to meet the diverse heating and cooling needs of commercial buildings. Renowned for their efficiency and performance, these units incorporate cutting-edge technologies to improve operational effectiveness and reduce energy consumption.

One of the standout features of the Carrier 30HW series is its high-efficiency scroll compressors, which are engineered to provide exceptional cooling capacity while minimizing energy usage. These compressors operate quietly and ensure smooth performance across varying loads. Additionally, the units utilize advanced microprocessor controls that enhance system efficiency by enabling precise temperature regulation and optimizing energy consumption based on real-time weather conditions.

Another important aspect of the 30HL series is its ability to provide reliable heating and cooling capabilities even in extreme weather conditions. With robust heat exchangers and a range of variable-speed fans, these units can efficiently circulate air while maintaining optimal indoor comfort levels. Variable-speed technology not only enhances comfort but also improves energy savings, as the system can adjust its output based on occupancy and external temperature fluctuations.

The 30HK series, specifically designed for high-performance applications, features enhanced filtration systems which improve indoor air quality. These systems are capable of accommodating various filter types, ensuring that airborne contaminants are effectively captured. This makes the 30HK a suitable choice for environments where air quality is a priority, such as schools, hospitals, and commercial offices.

Moreover, all units in the 30HW, 30HL, and 30HK series are designed with ease of maintenance in mind. Removable panels and easy access points allow for quick servicing and reduces downtime. The compact design also ensures that installation is straightforward, making them a preferred choice for many contractors.

In summary, Carrier's 30HW018-040, 30HL050, 060, and 30HK040-060 series are integral solutions in the HVAC market, combining energy efficiency, advanced controls, and superior air quality features. These rooftop units are tailored for commercial applications, providing reliable heating and cooling solutions while prioritizing comfort and sustainability. Through continuous innovation, Carrier remains at the forefront of HVAC technology, ensuring that their products meet the evolving demands of the industry.
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