Our ranges

DC Series compact desiccant dryers easily fit inside cramped areas or containers and deliver exceptional reliability and efficiency. Able to dry air to a pressure dew point of −40 °C within a ten-minute cycle and during this process the dryer switches between the two desiccant chambers only once every five minutes. This is an important feature for low-wear operation which also conserves compressed air.

The powerful desiccant dryers of the HPC KAESER DC Series, including both compact and large models, impress thanks to extremely low service and operation costs whilst easily overcoming the most challenging operational conditions. In particular, their minimal regeneration air requirements and the ECO-CONTROL energy-saving controller ensure rapid amortisation of investment costs.

The compact heat-regenerating desiccant dryers of the DW Series deliver reliable drying performance down to a pressure dew point of −40°C whilst also featuring generous fill levels of innocuous aluminium oxide desiccant. Desiccant regeneration is performed with externally heated blower air using the highly efficient reverse flow process. This boosts operational reliability whilst cutting operating costs.

Medium flow compressed air treatment systems with an option for oil vapour removal, providing ISO 8573-1 Class 0 air at flow rates up to 300 m³/hr @ 7 bar(g). Suitable for all industrial compressed air applications. 

Easily adapted to Breathing Air, Food and Beverage Applications.

 Large flow low energy modular compressed air dryers providing pressure dew points of -70°C and -40°C (-20°C option) with flow rates up to 2040 m³/hr @ 7 bar(g), even greater flow rates can be achieved by multi-banking the dryers. 

Vacuum Regenerative Desiccant Dryer with a low purge rate.

 Low energy large flow industrial compressed air dryers providing flow rates up to 7300m³/h @ 7 bar(g) with a dew point of -40°C (-20°C and -70°C options).  

Providing energy savings of up to 25% compared to conventional systems, WVM series compressed air dryers can be equipped with heat exchangers that allow steam or other available process heat sources to be used for heat regeneration. This alternative regeneration process can be employed in addition to or instead of the standard electrical heaters, resulting in even higher energy savings.