Principle

By utilizing the principle of vacuum absorption and heated regeneration, compressed air alternately flows through two absorption cylinders. When one cylinder is in a high-pressure (working pressure) state, it absorbs moisture; the other cylinder, via the regeneration gas pipeline, introduces dry and heated low-pressure gas, desorbing the dried moisture.

Use of PSA Regeneration principle, the compressed air flows through the turn two adsorption cartridges, that is, when a cylinder in the high pressure(pressure) state, the adsorption of water, and the other from another cylinder gas pipeline will be heating and drying of the low-pressure gas-after all, dry water desorption.

Features

Work cycles can be set at any required interval. The air flow can be precisely controlled, ensuring a reliable control system with strong anti-interference capabilities and a long service life. The use of SSR solid-state relays allows for precise temperature control. The gas consumption is low, and the heating efficiency is high, achieving maximum energy savings. Optional dew point monitoring control systems, multiple safety protection devices, and multi-cycle micro-heating devices can be added to enhance desorption and regeneration, resulting in excellent performance.

Available upon request arbitrary work cycle. Renewable flow can be precisely controlled Reliable control system. Anti-interference capability, long life, a solid-state relay SSR, precise temperature control can be realized. Consumption of small, high-efficiency heating, the biggest reduce power consumption. Dewpoint available upon request to increase the  and control system. Multiple security devices and multi-cycle enhanced desorption renewable heating device, yielded a good result.