dryer：

New generation adsorption typedryerBy combining the advantages of pressure swing adsorption and temperature swing adsorption, it can adsorb (work) at room temperature and high vapor partial pressure; At higher temperatures and lower vapor partial pressures, the water adsorbed by the adsorbent during the adsorption process is completely removed through the combined action of high-quality regeneration (heating with dry air) through thermal diffusion and low partial pressure mechanisms.
Adsorbed moist air enters the A drying tank through valve A1 from the lower piping system, flows through the adsorbent bed from bottom to top, and the dried air is discharged from the upper piping system.
Regenerate/blow cool a small amount of dry air (about 7%), which is then depressurized through the regeneration gas regulating valve of the upper piping system and enters the heater for heating. This hot air (called regeneration gas) enters drying tank B. Analyze and regenerate the adsorbent in tank B, restore its drying ability, and release the regenerated gas into the atmosphere through the lower pipeline B2 valve and ******.
After the regeneration of the pressure equalizing adsorbent is completed, the B2 valve is closed, and the B drying tank gradually increases the pressure to the online working pressure, ready to switch.
Switching the pipeline system, valve B1 is opened, valve A1 is closed, valve A2 is opened. The switching between drying tanks A and B is completed, tank B enters adsorption, and tank A is depressurized for regeneration. The work sequence, working time, and heating temperature are automatically controlled by the controller.
The cylinder design with stable and consistent exhaust pressure and reasonable dew point ensures the contact time between compressed air and desiccant, meeting the dew point requirements of the finished gas.
30% of the desiccant residue is used to compensate for the natural aging of the desiccant and ensure that it maintains optimal performance throughout its expected lifespan.
Large diffuser ensures uniform airflow through the desiccant layer, eliminating channeling phenomenon.
Regeneration gas loss is less than 12%
Excellent barrel design preserves 95% of the adsorption heat, which is used to increase the regeneration gas temperature and enhance the desorption capacity of the equipment, making regeneration more thorough.
The reverse convection scheme is used for drying and regeneration, and the best effect is achieved when the wet air flow is too dry for the adsorbent

System parameters: