The Reihl Coil™ Models and Specifications

Yearly Operating Cost for Conventional Walk-in Freezers & Coolers

100%

Reihl Coils™ Save on average

50%


Reihl Coils™ use less energy to operate and save, on average, 50% of your yearly operating costs when compared to other systems on the market. Less electricity is consumed to maintain a Reihl Coil’s™ cabinet temperature, resulting in a reduction of the overall cost of operation. You can expect to lower operating energy costs and potentially cut your energy usage by up to 50 to 75%. For both new and replacement applications and depending on your climate and location, the ROI for a Reihl Coil™ can be between six months and two years.


Reihl Coil™ Coolers

Reihl Coil™ RC18 Specifications

ModelDefrostVoltage (Coil Control)MotorFansFPICFMBTUHTXVDimensions
RC18Air115/60/1ECM166087K-9K1 Ton31" L x 14" H x 21" W

 

Reihl Coil™ RC30 Specifications

ModelDefrostVoltage (Coil Control)MotorFansFPICFMBTUHTXVDimensions
RC30Air115/60/1ECM2699011K-18K1.5 Ton43" L x 14" H x 21" W

 

Reihl Coil™ RC36 Specifications

ModelDefrostVoltage (Coil Control)MotorFansFPICFMBTUHTXVDimensions
RC36Air115/60/1ECM261,64019K-25K2 Ton49" L x 14" H x 21" W

.. more information




Reihl Coil™ Freezers

Reihl Coil™ RC18 Freezer Specifications

ModelDefrostVoltage (Coil Control)MotorFansFPICFMBTUHTXVDimensions
RC18 FreezerGas115/60/1ECM148208K1 Ton31" L x 14"H x 21" W

Reihl Coil™ RC30F Specifications

ModelDefrostVoltage (Coil Control)MotorFansFPICFMBTUHTXVDimensions
RC30 FreezerGas115/60/1ECM241,64012K1.5 Ton43" L x 14" H x 21" W

Reihl Coil™ RC36 Freezer Specifications

ModelDefrostVoltage (Coil Control)MotorFansFPICFMBTUHTXVDimensions
RC36 FreezerGas115/60/1ECM241,64015K2 Ton49" L x 14" H x 21" W

.. more information



Digital Thermostat and Fan Control


To maintain optimal temperature and evaporator fan control, Reihl Coils™ come standard with a Dixell integrated digital thermostat.

Conventional Walk-in Freezers & Cooler Fan Running Time

100%

Reihl Coil Walk-in Freezer & Cooler Fan Running Time

50%


Reihl Coil Design

Lowering your company’s operating energy costs with Reihl Coils™.

Increased efficiency allows for a reduction in the number of fan motors and less compressor run time, to achieve the same cooling effect. Consequently, less electricity is consumed to maintain cabinet temperature, resulting in a reduction in the overall cost of operation.

Thermodynamics
The Reihl Coil uses a PCM (Phase Change Material) which allows heat to be absorbed more rapidly than a conventional evaporator coil. The PCM absorbs heat that would cause the refrigerant to vaporize in a standard system. The Reihl Coil also changed the conventional fin design by increasing the surface area to improve the heat transfer process.

Suction Pressure
By using the PCM, The Reihl Coil is able to lower the suction pressure. A lower suction pressure decreases the load on the compressor which reduces its electrical consumption. SLUDGING?

Heat Multiplier
The addition of the PCM within The Reihl Coil accomplishes two important things:

  • Reduction in the compressors total run time.
  • Radiant cooling that maintains the cabinet and product temperature while the evaporator fans are off.

Coil Design
With The Reihl Coil design, air travels at a higher velocity through the coil, aiding in keeping the coil clear. This cannot be done with a conventional evaporator for many reasons:

  • A conventional evaporator is only cooling when the compressor is running, whereas The Reihl Coil has reserved cooling during the compressors off cycle.
  • The evaporator design used by the competition is smaller. Less heat can be absorbed in the competitor’s design due to the reduced surface area in the evaporator fins.
  • All evaporator fan motors generate heat. The efficiency of The Reihl Coil requires fewer ECM motors compared with the competition. Fewer ECM motors means decreased heat generated during the compressor run cycle.

The Reihl Coil’s patented coil assembly has demonstrated energy savings of approximately 59% over the competitor’s system of equal volume and controls.