2-Fluid Humidification System (for Air Conditioning Units) "HandAKI"
No maintenance required! Energy-saving air conditioning and humidification system using dry fog.
"HandAKI" is an energy-saving two-fluid humidification system that sprays dry fog. Utilizing a mist (dry fog) that does not wet objects, it is an industrial air conditioning humidification system that creates an optimal humidity environment for buildings, factories, and clean rooms. By installing it inside air conditioning units, outside air handling units, or ducts, it is possible to achieve the desired humidity without wetting (with a saturation efficiency of over 90%). Compared to steam humidification, the running costs are about one-fifth. 【Features】 - 100% efficiency is possible - No maintenance required - The humidification unit can be used semi-permanently - Saturation efficiency of over 90% - High humidity can be easily achieved For more details, please contact us or download the catalog.
basic information
【Overview】 - Achieves over 30% energy savings compared to steam humidification - Cooling load reduced by over 10% due to the cooling effect of dry fog - Maximizes the characteristics of dry fog to achieve 100% humidification effect - Three types of humidification methods: inside air conditioning units, outside air handling units, and ducts - Atomization principle → The shear action of compressed air ejected from the nozzle causes the misted liquid droplets to collide with one another → Repeated mutual shearing simultaneously generates ultrasonic waves of 33,000 to 40,000 Hertz → Further atomizes and homogenizes the droplets ● For more details, please contact us or download the catalog.
Price information
Please contact us.
Delivery Time
Applications/Examples of results
【Applications】 ○ Clean rooms in semiconductor and LCD manufacturing factories ○ Bio clean rooms such as animal breeding rooms ○ High humidity requirement industries such as fermentation rooms and painting booths, etc. ● For more details, please contact us or download the catalog.
