As the larger air volume (process air) passes trough the slowly rotating rotor, the water vapour is adsorbed by the rotor material. This reduces the humidity of the air which will then leave the dehumidifier as dry air.
Common Characteristics
As the larger air volume (process air) passes trough the slowly rotating rotor, the water vapour is adsorbed by the rotor material. This reduces the humidity of the air which will then leave the dehumidifier as dry air. This dry air is then introduced into the space to be dehumidified or to any manufacturing process where low humidity is required.
POWER STATIONS AND BUILDINGS: Being able to supply dry air inside industrial facilities and buildings is an important capability. Power plant boilers, piping, steam condensers, tubines and bridges are examples of dry air corrosion protection methods. Buildings that have suffered flooding or moisture damage can often be made fully functional again after drying out with dry air.
*MILITARY EQUIPMENT: Dehumidifying of amunition storage, and preserving mothballed vehicles were some of the first applications in the military field. Since then the number of applications has multiplied several times over covering everything from submarines to fighter aircraft. Small arms, tanks, vehicles, radio- and radar installations, underground rock cavern storage can all benefit from dehumidification techniques.
ELECTRONICS: For manufacture of certain electronic equipment extremely clean, but also dry air is needed. For example we have supplied desiccant dehumidifiers and temperature control for products temporarily stored at 2 % RH 15 C, between different stages in a production process.