Greenheck Fan APEX-200 warranty Frost Control Application/Operation, Testing refer to Figure

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Installation

Frost Control Application/Operation

Extremely cold outdoor air temperatures can cause moisture condensation and frosting on the energy recovery wheel. Frost control is an optional feature that will prevent/control wheel frosting. Three options are available:

1)

Timed Exhaust frost control

 

Indoor RH @ 70°F Frost Threshold Temp

2)

Electric preheat frost control

20%

-10°F

3)

Modulating wheel frost control

30%

-5°F

 

 

 

 

 

 

40%

0°F

All of these options are provided with a thermostat (with

probe) mounted in the supply air inlet compartment (see TABLE 2: Frost threshold temperatures FIGURE 15) and a pressure sensor to monitor pressure drop

across the wheel. The typical temperature setting corresponds to the indoor air relative humidity as shown in Table 2 and represents when frost can occur. An increase in pressure drop would indicate that frost is occurring. Both the pressure sensor AND the outdoor air temperature sensor must trigger in order to initiate frost control. The two sensors together insure that frost control is only initiated during a real frost condition. The following explains the three options in more detail.

Timed exhaust frost control includes a timer in addition to the thermostat and pressure sensor. When timed exhaust frost control is initiated, the timer will turn the supply blower on and off to allow the warm exhaust air to defrost the energy recovery wheel. Default factory settings are 5 minutes off and 30 minutes on. Use the following test procedure for troubleshooting.

Testing (refer to FIGURE 14)

Jumper the pressure switch. Set the Timer Scale for T1 and T2 to 1 minute. Set the Timer Settings for T1 and T2 to 1.0. Set the dip switch to the down position.

Turn the temperature sensor up as high as possible. The supply blower should cycle on for one minute, then turn off for one minute.

After testing, set the Timer Scale as follows: T1 = 10 minutes, T2 = 1 hour

Set the Timer Settings as follows: T1 = 0.5, T2 = 0.5. The timer is now set for 5 minutes off and 30 minutes on. Remember to remove the jumper.

A1

B1

15

0.8

0.6

Dip

1.0

0.4

Switch

0

0.2

 

T2

1 MIN T2

Timer

Scale

1 MIN T1

0.80.6

1.0 0.4

0 0.2

T1

16 18 A2

FIGURE 14

Electric preheat frost control includes an electric heater (outdoor air inlet) and an air pressure switch (outdoor air outlet) in addition to the thermostat and pressure sensor on wheel. When electric preheat frost control is initiated, the electric pre-heater will turn on and warm the air entering the energy wheel to avoid frosting. Use the following test procedure for troubleshooting.

Testing

Turn the thermostat as high as it will go and jumper the wheel pressure sensor. The heater should turn on.

If it doesn’t, either put the supply side doors on or temporarily jumper the air pressure switch to avoid nuisance tripping of the pressure switch. Remember to remove the jumpers.

Modulating wheel frost control includes a variable frequency drive in addition to the thermostat and pressure sensor. When modulating wheel frost control is initiated, the variable frequency drive will reduce the speed of the wheel. Reducing the speed of the energy wheel reduces its effectiveness, which keeps the exhaust air condition from reaching saturation, thus, eliminating condensation and frosting. If the outdoor air temperature is greater than the frost threshold temperature OR the pressure differential is less than the set point, the wheel will run at full speed. If the outdoor air temperature is less than the frost threshold temperature AND the pressure differential is greater than the set point, the wheel will run at minimum speed until the pressure differential falls below the set point. The temperature and pressure differential set points are set at the factory, but are field- adjustable. The variable frequency drive will be fully programmed at the factory.

10®

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Contents INSTALLATION, OPERATION, & Maintenance Manual Table of Contents StorageBasic Unit Operation InstallationLifting Recommended Roof Openings Unit Weights dry weightsRoof Curb Mounting Weatherhoods Rail MountingDampers Electrical Connections Typical Control Center ComponentsService Clearances / Access Locations Dimensional Data / Access Door DescriptionsWater Coils Coil Application RecommendationsDirect Expansion DX Coils Drain Pan Traps See page 13 for VFD on energy recovery wheelVariable Frequency Drive for Fans E7 Series by Yaskawa Testing Testing refer to FigureFrost Control Application/Operation Modulating the Wheel Optional Accessories Remote Control Panel Pre-Start Check List Unit Start-UpSpecial Tools Required Exhaust Fans Forward Curved Type Supply Fan Plenum TypeFan Performance Modifications Direction of Fan Wheel Rotation Belt Drive InstallationFan Belt Drives Fan RPMEnergy Recovery Wheel VibrationLubrication Routine MaintenanceFan Belts Wheel & Fasteners MotorsBearings Internal Filter Maintenance External Filter MaintenanceDoor Seal Maintenance Coil Maintenance Winterizing CoilsAccessing Energy Recovery Wheel Cleaning Energy Recovery Wheel Segments Parts List Model ApexSummer Operation Sequence of OperationBasic Unit Winter OperationTroubleshooting Airflow Test and Balance ReportTroubleshooting Symptom Possible Cause Corrective ActionGreenheck

APEX-200 specifications

The Greenheck Fan APEX-200 is a cutting-edge ventilation solution designed to meet the demands of modern commercial and industrial applications. Engineered with the latest technologies and featuring advanced design characteristics, the APEX-200 stands out for its efficiency, durability, and performance.

One of the prominent features of the APEX-200 is its energy-efficient operation. The unit is equipped with high-efficiency motors that not only reduce energy consumption but also provide optimal airflow, making it an ideal choice for organizations looking to lower their operational costs while maintaining superior performance. The APEX-200’s ability to operate at low sound levels adds to its appeal, allowing it to be installed in noise-sensitive environments without disturbing occupants.

The APEX-200 incorporates Greenheck's patented Aerodynamic Technology, which enhances airflow and minimizes turbulence. This technology ensures that the fan operates smoothly and efficiently, contributing to the overall effectiveness of the ventilation system. The innovative design of the fan blade and housing also plays a crucial role in maximizing performance while minimizing energy loss.

Durability is a key characteristic of the APEX-200. Constructed from high-quality materials, this fan is designed to withstand the rigors of demanding environments. The unit is also built to resist corrosion, ensuring longevity and reducing maintenance needs. This durability makes the APEX-200 suitable for a variety of applications, including manufacturing facilities, warehouses, and commercial kitchens.

Another significant aspect of the APEX-200 is its versatility. The fan is available in various sizes and configurations, allowing it to be tailored to specific project requirements. This flexibility makes it suitable for different airflow and pressure needs, ensuring optimal performance in diverse settings.

The APEX-200 also features advanced controls and monitoring capabilities. These systems can be integrated with building management systems to provide real-time data and insights into operational performance. Such features enhance user convenience and help facility managers optimize energy usage.

In conclusion, the Greenheck Fan APEX-200 is a sophisticated, reliable, and efficient solution for modern ventilation requirements. Its advanced technologies, high-efficiency operation, and durable construction make it an excellent choice for a wide range of applications, ensuring that it not only meets but exceeds the expectations of users in various industries.
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