HANNOVER MESSE 2020, 20 - 24 April





Exhibitor details
Exhibitor details

Product description

The cold-regenerated DRYPOINT® AC adsorption dryers ensure a continuous supply of high-quality air. They are equipped with an efficient compressor synchronisation controller as standard, saving energy. If the compressor is not running, the dryer is also shut down, preventing unnecessary air purging.
The containers of the DRYPOINT® AC are filled with activated alumina desiccant. The innovative shuttle valve with an internal purge air line allows for an adequate air flow even in the event of a power failure, making the system fail-safe. Sturdy galvanised press fittings, easy transport by means of a lift truck and access to all system components show that the unit has been designed with practicability in mind. The regeneration air flow is determined by the operating pressure and cannot be adjusted. The regeneration air is released through top quality silencers to the ambient air.
The dryer is shipped with a fully mounted CLEARPOINT® prefilter to remove solid and liquid contaminants. The CLEARPOINT® afterfilter ensures that the downstream compressed air system cannot become contaminated with desiccant abrasion residue. The condensate is drained off through a BEKOMAT®. By combining these tried and tested compressed air processing devices into a single unit, BEKO TECHNOLOGIES demonstrates once more its technological expertise that has made the company a leading compressed air technology supplier. Like all BEKO TECHNOLOGIES products, the DRYPOINT® AC is easy to operate.

Apart from the standard models, the dryer can be customised for pressure dew points of as low as -70° C. For such units, the air is dried by molecular sieves. The DRYPOINT® AC can be upgraded with a pressure dew point control system that includes METPOINT® sensor technology from BEKO TECHNOLOGIES, reducing energy consumption even further.

Product website

More products from BEKO TECHNOLOGIES

Show more

Stored items


Server communication error: Item could not be saved.