Air Dryers

Refrigerated Air Dryers are equipment used to remove moisture and moisture from compressed air, typically used in industrial and commercial applications. Its working principle is based on refrigeration technology, and the following is an overview of its working principle:

Compressed air enters the refrigerator: The hot, humid, and high-pressure air just generated from the compressor enters the refrigerator first. A refrigerator is the core component of a refrigeration air dryer, similar to a condenser in a refrigerator.

Refrigerator cooling: In the refrigerator, compressed air is cooled, causing its temperature to decrease to a level close to the ambient temperature. This process will cause water vapor in the air to begin to condense into liquid water.

Moisture separation: In a refrigerator, condensed water is separated, similar to water droplets condensed in the cooling plate of a refrigerator. These water droplets are collected and discharged from the system to obtain dry air.

Dry air outflow: After refrigeration and moisture separation, the dry air flows out of the refrigerator and enters the compressed air system, which can be used for various industrial and commercial applications.

This type of equipment is widely used in many fields, including manufacturing, pharmaceuticals, food processing, and industrial production, to ensure that gas and air quality meets requirements.

Combined Air Dryer is a device used to remove moisture from the air, typically used in industrial and commercial applications, especially in gas and air compression systems. Its working principle is usually based on two main stages: refrigeration and drying.

Refrigeration stage: In the refrigeration stage, the air is cooled to a lower temperature. This is usually achieved by using a coolant (such as refrigerant). When cold air passes through the cooling process, the water vapor inside will condense into liquid water, just like dew formed on a damp surface. This step reduces the temperature and humidity in the air.

Drying stage: In the drying stage, the cooled air passes through an adsorbent bed or filter. This adsorbent bed typically contains an adsorbent, such as silica gel or molecular sieve, which has the ability to adsorb water molecules. When cold air passes through the adsorbent bed, the adsorbent will adsorb and retain the remaining water molecules, thereby drying the air. Meanwhile, adsorbed water molecules may be released and discharged for recycling.

Through the alternating work of these two stages, Combined Low Air Dryer can efficiently remove moisture from the air, ensuring the supply of dry compressed air to meet the requirements of various industrial and commercial applications. This type of equipment is widely used in many fields to prevent corrosion of pipelines, equipment, and processes by moisture, as well as to ensure the quality of gas and compressed air.

The blast regeneration adsorption dryer is a classic product of the thermal regeneration dryer, and its main feature is the high efficiency of effective gas supply. The regeneration part of the blast regeneration adsorption dryer has an additional blower to absorb ambient air compared to the micro heat regeneration dryer. The adsorption principle process is basically the same as that of micro thermal regeneration. In the air blast regeneration adsorption drying, the dynamic adsorption capacity of the adsorbent is relatively large, and the continuous operation of adsorption regeneration is complete, with high gas output quality.

The application scenarios of Blast Regeneration Air Dryer include industrial manufacturing, food and beverage processing, pharmaceuticals, electronic manufacturing, oil and natural gas, laboratory research, aircraft maintenance and aviation, drying system backup, cooling gas supply, and the power industry, used to remove moisture from compressed air, ensuring equipment stability and product quality.

Adsorption dryers are widely used in industrial and mining enterprises. Based on the principle of pressure swing adsorption, adsorption dryers use microporous particles of desiccant to adsorb moisture and water vapor in compressed air that is relatively saturated with humidity. The partial dry gas regeneration method is used to reduce the adsorption performance of the adsorbent, and two adsorption towers alternate for adsorption and regeneration drying.

Absorption Air Dryers are widely used in manufacturing, pharmaceuticals, electronic manufacturing, food and beverage processing, laboratory research, medical facilities, aviation, oil and natural gas, electricity, and other fields to remove moisture from compressed air, ensuring equipment stability, product quality, and experimental accuracy. They are crucial tools to prevent the adverse effects of moisture on equipment and processes, while maintaining high standards and safety requirements in various industries.

The TGD series mobile pipeline dedicated compressed air dryer integrates high-efficiency air coolers, high-efficiency oil-water separators, high-efficiency oil removers, and compressed air dryers, adopting an overall pry block structure; Equipped with advanced programmable controllers, online dew point meters, intelligent flow meters and other detection and control components; And it adopts a containerized structure, which is convenient for transportation and field work, with high purification efficiency, easy operation, and high degree of automation. It is widely used for blowing and drying oil, natural gas, and industrial chemical pipelines.

Pipeline Container Air Dryers are widely used in scenarios that require the movement, temporary supply, or rapid deployment of dry compressed air, including industrial construction sites, manufacturing production lines, mining sites, temporary engineering projects, emergency maintenance, outdoor activities, disaster recovery, field research, and remote deployment, to ensure the safe operation of equipment, product quality, and smooth progress of engineering projects.

The compression heat regeneration dryer utilizes centrifuges and oil-free compressors to discharge compressed air with high heat (≥ 110 ℃) and high unsaturation gas properties. The compression heat dryer effectively uses the original compressed air heat to heat and regenerate the adsorbent, saving the electricity consumption of the heater in external heating regeneration and eliminating the gas consumption in the regeneration stage, The optimal balance effect of adsorption drying is achieved through the energy conversion of the internal structure of the equipment. Stable dew point of gas output quality and simple operation. It is the best choice for compressed air drying equipment.

Compression Heat Air Dryers are widely used in various industrial and commercial scenarios, mainly for removing moisture from compressed air, ensuring air quality and maintaining equipment reliability. Their application scenarios include manufacturing, food processing, medical facilities, electronic manufacturing, aviation, oil and gas, laboratory research, and various emergency and special environments to meet the needs of dry air, prevent corrosion, improve product quality, and maintain the stability of the production process.