Adsorption rotary dehumidifiers are recognized as the preferred alternative to CFC's compression refrigeration dehumidification in the 20th century due to their significant energy saving and environmental protection advantages. The rotary dehumidifier can quickly, easily, and effectively reduce air humidity, effectively solving dehumidification fields that cannot be achieved by other refrigeration methods such as normal temperature and low humidity, low temperature and low humidity. In particular, after combined use and treatment, the air dew point can reach - 70 ° C or less. It can also utilize low-grade thermal energy such as part-time heat, waste heat, solar energy, and natural gas as renewable energy, without environmental pollution, and with low energy consumption.
It is widely used in industries with humidity requirements such as food, medicine, electronics, electrical appliances, chemical industry, national defense, printing, etc. In areas with high temperature and humidity, adsorption rotary dehumidifiers will exert their unique advantages and can bring enormous economic benefits to enterprises.
The molecular sieve wheel is implanted into the glass fiber matrix using a special synthetic zeolite as a moisture absorbent, because zeolite has very small pores and strong heat resistance. This wheel is suitable for low dew point conditions, or for processing air containing volatile organic compounds such as ethylene glycol, acetaldehyde, etc; Regenerated air up to 220 ° C can be used for the runner, and almost no polymerization reaction occurs in all runners; This runner is made of a special synthetic zeolite that crystallizes into glass fibers through a special chemical reaction. According to airflow conditions, a single runner can reach - 80 ° C D.P
The core component of the rotary dehumidifier is a honeycomb shaped rotary wheel composed of a special ceramic fiber carrier and active silica gel; The two sides of the runner are divided into two areas by special sealing devices: the processing area and the regeneration area.
When wet air requiring dehumidification passes through the processing area of the runner, the water vapor of the wet air is absorbed by the active silica gel of the runner, and the dry air is sent to the space requiring treatment by the processing fan; The continuously slowly rotating wheel carries saturated water vapor into the regeneration zone; The reverse blowing of high-temperature air into the regeneration zone causes the adsorbed water in the runner to be desorbed and discharged by the fan outside, thereby restoring the moisture absorption ability of the runner and completing the regeneration process.