How can we help you?

Contact Us

Request a Quote

Request Service, Parts or Support

image
Click to enlarge
Back to the product list

JEF SERIES

Regenerative Circulation Desiccant Air Dryer

The hot inlet air generated from the air compressor is immediately disconnected, heated to the heater and used for the regeneration of the sorbent, resulting in a substantial reduction in heater capacity versus blower type products, and reduced electricity energy.
It is an energy-serving product without purge air loss due to its structure being recycled using heat and circulating within a closed circuit.

Contact UsRequest a QuoteRequest Service, Parts or Support

img_product_jemaco3_5_features1.jpg

  • Heat from compressed air reduces heater capacity drastically.
  • High-efficiency energy saving dryer
  • Closed system without purge air used during regeneration

img_product_jemaco3_5_features2.jpg

  • Customizable to meet your customers ‘ needs
  • With the latest Jemaco New Controller (J-CON S), 7 ” Full control Touch Screen, Dryer Fully Automated Control
  • Energy trading system (optional)
  •  Regeneration
    The hot, compressed air drawn from the compressor is disconnected from the inlet or outlet of the aftercooler for dehumidification purposes of 70 % and the remaining 30 % for regeneration (heating and cooling). The compressed air produced by the compressor is reused for dehumidification, so all compressed air flow is used.
  •  Heating
    The hot air, isolated from the aftercooler, is heated through the heater before it enters the regenerating vessel to heat and regenerate the absorber. The moist air then cools in the regeneration cooler and passes through the water separator. It is then moved into the vessel on the other side under regeneration.
  •  Cooling (Regeneration)
    When the heated container is started to cool, the cooled air from the outlet of the aftercooler enters the vessel and cools the sorbent.
    This allows the discharged air to cool once again at the regeneration cooler and pass through the water separator into the vessel being de-humidified.
  •  Vessel Change
    After cooling, the vessel is ready for standby, wait for the set time to elapse (or until the optimal transition point is determined in Dew Point Meter & Demand Control), and then switch back to dehumidification.

Product Features

img_product_jemaco3_5_features1.jpg

  • Heat from compressed air reduces heater capacity drastically.
  • High-efficiency energy saving dryer
  • Closed system without purge air used during regeneration

img_product_jemaco3_5_features2.jpg

  • Customizable to meet your customers ‘ needs
  • With the latest Jemaco New Controller (J-CON S), 7 ” Full control Touch Screen, Dryer Fully Automated Control
  • Energy trading system (optional)

Operating Fundamental

  •  Regeneration
    The hot, compressed air drawn from the compressor is disconnected from the inlet or outlet of the aftercooler for dehumidification purposes of 70 % and the remaining 30 % for regeneration (heating and cooling). The compressed air produced by the compressor is reused for dehumidification, so all compressed air flow is used.
  •  Heating
    The hot air, isolated from the aftercooler, is heated through the heater before it enters the regenerating vessel to heat and regenerate the absorber. The moist air then cools in the regeneration cooler and passes through the water separator. It is then moved into the vessel on the other side under regeneration.
  •  Cooling (Regeneration)
    When the heated container is started to cool, the cooled air from the outlet of the aftercooler enters the vessel and cools the sorbent.
    This allows the discharged air to cool once again at the regeneration cooler and pass through the water separator into the vessel being de-humidified.
  •  Vessel Change
    After cooling, the vessel is ready for standby, wait for the set time to elapse (or until the optimal transition point is determined in Dew Point Meter & Demand Control), and then switch back to dehumidification.

Downloads