Carrier 50RHE006-060 Unit Start-Up Cooling Mode, Unit Start-Up Heating Mode, Cooling Heating

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Scroll Compressor Rotation — It is important to be certain compressor is rotating in the proper direction. To determine whether or not compressor is rotating in the proper direction:

1.Connect service gages to suction and discharge pressure fittings.

2.Energize the compressor.

3.The suction pressure should drop and the discharge pressure should rise, as is normal on any start-up.

If the suction pressure does not drop and the discharge pressure does not rise to normal levels:

1.Turn off power to the unit. Install disconnect tag.

2.Reverse any two of the unit power leads.

3.Reapply power to the unit and verify pressures are correct.

The suction and discharge pressure levels should now move to their normal start-up levels.

When the compressor is rotating in the wrong direction, the unit makes more noise and does not provide cooling.

After a few minutes of reverse operation, the scroll com- pressor internal overload protection will open, thus activating the unit lockout. This requires a manual reset. To reset, turn the thermostat on and then off.

NOTE: There is a 5-minute time delay before the compressor will start.

Unit Start-Up Cooling Mode

1.Adjust the unit thermostat to the warmest position. Slowly reduce the thermostat position until the compres- sor activates.

2.Check for cool air delivery at unit grille a few minutes after the unit has begun to operate.

3.Verify that the compressor is on and that the water flow rate is correct by measuring pressure drop through the heat exchanger using P/T plugs. See Table 8. Check the elevation and cleanliness of the condensate lines; any dripping could be a sign of a blocked line. Be sure the condensate trap includes a water seal.

4.Check the temperature of both supply and discharge wa- ter. Compare to Table 9. If temperature is within range, proceed. If temperature is outside the range, check the cooling refrigerant pressures in Table 9.

5.Check air temperature drop across the coil when com- pressor is operating. Air temperature drop should be between 8.3 and 13.9.

Table 8 — Water Temperature Change

Through Heat Exchanger

 

COOLING

HEATING

WATER FLOW RATE (l/s)

RISE (C)

DROP (C)

 

Min

Max

Min

Max

For Closed Loop: Ground

 

 

 

 

Source or Cooling/Boiler

5

6.7

2.2

4.4

Systems at 0.054 l/s per kW

 

 

 

 

For Open Loop: Ground

11.1

14.4

5.6

9.4

Water Systems 0.027 l/s per kW

 

 

 

 

Unit Start-Up Heating Mode

NOTE: Operate the unit in heating cycle after checking the cooling cycle. Allow five minutes between tests for the pres- sure or reversing valve to equalize.

1.Turn thermostat to lowest setting and set thermostat switch to HEAT position.

2.Slowly turn the thermostat to a higher temperature until the compressor activates.

3.Check for warm air delivery at the unit grille within a few minutes after the unit has begun to operate.

4.Check the temperature of both supply and discharge water. Compare to Table 9. If temperature is within range, proceed. If temperature is outside the range, check the heating refrigerant pressures in Table 9.

5.Once the unit has begun to run, check for warm air deliv- ery at the unit grille.

6.Check air temperature rise across the coil when compres- sor is operating. Air temperature rise should be between 11.1 and 16.7 C after 15 minutes at load.

7.Check for vibration, noise and water leaks.

Flow Regulation — Flow regulation can be accom- plished by two methods. Most water control valves have a flow adjustment built into the valve. By measuring the pressure drop through the unit heat exchanger, the flow rate can be deter- mined. See Table 10. Adjust the water control valve until the flow of .027 to .054 L/s per kW cooling is achieved. Since the pressure constantly varies, two pressure gages may be needed in some applications.

An alternative method is to install a flow control device. These devices are typically an orifice of plastic material designed to allow a specified flow rate that are mounted on the outlet of the water control valve. Occasionally these valves produce a velocity noise that can be reduced by applying some back pressure. To accomplish this, slightly close the leaving isolation valve of the well water setup.

To avoid possible injury or death due to electrical shock, open the power supply disconnect switch and secure it in an open position before flushing system.

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Contents Safety Considerations ContentsGeneral InstallationUnit 50RHE Physical Data Aquazone 50RHE006-060 UnitsRight Return Left ReturnTypical Installation 50RHE Units Conversion Left Return, Side Discharge to Back Discharge 042,048 Dimensions mm50RHE Units 030,036Typical Ground-Water Piping Installation Water Quality Guidelines Electrical WiringCondition Acceptable Level FP1 PSCCAP RVSComp Sensor, Air Coil Freeze Protection Loss of Charge Pressure Switch Motorized ValveBMC Blower Motor Capacitor Performance Monitor Blower RelayTypical Aquazone Deluxe D Control Wiring 3-Phase Unit RLA LRA FUSE/HACR FLA 50RHE VOLTS-PHASE Voltage Compressor FAN Total MIN MAXElectrical Data Unit CircuitUnit Speed 50RHE Blower Performance50RHE AirflowPRE-START-UP Low Voltage Wiring See FigField Selectable Inputs Control Jumper Settings SeeSTART-UP Control Accessory Relay ConfigurationsOperating Limits Cooling Heating Unit Start-Up Cooling ModeUnit Start-Up Heating Mode Water Temperature Change Through Heat Exchanger50RHE Coaxial Water Pressure Drop Typical Unit Operating Pressures and TemperaturesUnits with Aquazone Complete C Control Approximate Fluid Volume L Per 30 m of PipeAntifreeze Percentages by Volume OperationControl LED Code Fault Descriptions Control Current LED Status Alarm Relay OperationsSystem Test ESD ServiceAlarm Relay Description Status LED Test LEDGravity Flow Method Refrigerant Charging TroubleshootingAir Coil Fan Motor Removal Fault Heating Cooling Possible Cause Solution TroubleshootingUnit Does Not Operate Page Page Copyright 2004 Carrier Corporation II. START-UP 50RHE R-407C Unit START-UP ChecklistCooling Cycle Analysis Heating Cycle Analysis

50RHE006-060 specifications

The Carrier 50RHE006-060 is a robust commercial rooftop unit designed for efficient heating and cooling in various applications. This model is part of Carrier’s renowned line of HVAC systems, known for their reliability and performance. With a nominal cooling capacity of 5 tons and heating capacity of 6 tons, this unit is suitable for medium-sized commercial spaces such as retail stores, offices, and schools.

One of the standout features of the Carrier 50RHE006-060 is its advanced scroll compressor technology. This type of compressor is recognized for its efficiency and durability, offering quiet operation while minimizing energy consumption. The inclusion of a variable-speed blower motor enhances comfort by providing consistent airflow while also reducing energy costs by adjusting the speed according to the demand.

Another key characteristic is its integrated microprocessor control system, which allows for precise temperature management. This feature not only provides optimal comfort but also ensures energy savings. The system’s controls can be easily integrated with existing building management systems, allowing for seamless operation and monitoring.

The Carrier 50RHE006-060 boasts enhanced insulation properties, which help reduce noise during operation and improve energy efficiency. Its robust design can withstand various weather conditions, making it a reliable choice for rooftop installation. Moreover, it is designed with accessibility in mind, featuring service doors that allow for easy maintenance, reducing downtime and operational costs.

In terms of efficiency, the unit is designed to meet or exceed EPA energy efficiency standards. It utilizes environmentally friendly refrigerants, adhering to regulations aimed at reducing greenhouse gas emissions. Additionally, the design includes a high-efficiency heat exchanger, which maximizes heat transfer and improves overall performance.

The Carrier 50RHE006-060 is also equipped with a dual-stage heat function, allowing it to provide optimal heating for varying weather conditions, ensuring comfort during the colder months. Furthermore, the unit’s design incorporates features such as hot gas bypass for improved dehumidification, making it adaptable to different climates and enhancing indoor air quality.

In summary, the Carrier 50RHE006-060 stands out with its efficient compressor technology, smart control systems, robust construction, and environmentally conscious design. These features make it a top choice for commercial spaces seeking an effective, reliable, and energy-efficient heating and cooling solution.