Distribution of dried air from the Central HPA® Air Dryer

Dehumidification of air with the Heat Pump Adsorption (HPA®) Air Dryer


The air drying process is an expensive business; this applies not only to condensation and adsorption dryers, but also to the HPA® Air Dryer of energetic interest (combined condensation and adsorption drying). It is not economical to place an air dryer at every drying installation. Continuous drying does not take place at all installations, and dried air is not required constantly.

Cannabis-drying.com has developed a principle at which a central HPA® Air Dryer (1) brings the dried air to where it is needed (1A). Various drying installations (4, 5), Cabinet dryers (static (6) and rotary (7), conditioning cells (2), drying tables (3) or packing machines (8,9) are connected to a central air duct (1A). Thanks to the advanced ABC process the dried air is discharged automatically to where it is needed at that moment.

During the drying process of trims, a lot of moisture can be discharged using heated up outside air. Unfortunately the conditions of the outside air are not always suitable to reach the desired equilibrium moisture content at the end. To be able to dry the trims quickly and successfully to a very dry product, dried air is needed in the last phase of the process.

Example of drying/conditioning cell:

A. Supply of dried air

B. Aspiration of outside air

C. Discharge of moist air

D. Return of dry air from the cell (recycling)

This principle can be achieved for each type of dryer

On the right an example of a central air channel for 4 drying sections. At the front the valve sections for inside air, and at the back the distribution channel for dried air.


By mixing the dried air with outside or inside air, the desired Absolute moisture content (AH) can be reached precisely.

Furthermore, the existing drying installations can be supplied with dried air, using a distribution channel. The dried air mixes with the outside air inside the aspiration channel to achieve the desired lower moisture content.


The decreasing fan capacity will enable the process air to become drier, and leads to a cannabis drying process with a low moisture content.

On the right an example of the ABC control for separated units; per unit and per phase, the desired AH, air quantity and the desired T° are set. This enables the process to pre dry per unit with a lot of air and a higher temperature at the start, after which in the last phase the remaining moisture is discharged at a low temperature, with extra dry air and a small air quantity.