The
Refrigerated Air Dryer is the core equipment in the compressed air purification system, and uses advanced refrigeration technology to achieve efficient dehumidification. The AC-10 air dryer has a processing capacity of 1.5 cubic meters per minute. It reduces the compressed air temperature to 3-10℃ pressure dew point through physical cooling, condenses water vapor into liquid water, and then separates and discharges it, and finally outputs dry and clean compressed air. Its unique zero-energy refrigeration technology not only ensures a stable dehumidification effect, but also performs outstandingly in energy saving. Compared with traditional adsorption dryers, it can reduce 12-15% of compressed air loss. At the same time, the equipment has lower power consumption, providing the best energy-saving solution for continuous production scenarios.
This equipment has significant advantages in reliability and maintenance convenience. Due to the use of pure physical dehydration principle, there is no need for adsorbent regeneration process, which avoids the trouble of regular replacement of consumables such as molecular sieves for adsorption dryers. The simple mechanical structure design makes the valve parts wear very little. With the automatic drainage device, only the filter needs to be cleaned daily to maintain stable operation, which greatly reduces the maintenance cost and usage threshold. This "high reliability, low maintenance" feature makes it particularly suitable for industrial environments that require 24-hour continuous operation, effectively ensuring the stable operation of the production line. Suitable for noise-sensitive environments. Its energy-saving and low-maintenance characteristics make it the preferred solution for industrial compressed air drying, especially for continuous production scenarios.
In terms of system integration, the refrigerated dryer and the air compressor form an efficient compressed air processing chain. The typical workflow is: the high-temperature and high-humidity air output by the air compressor is first buffered and stabilized by the air storage tank, and then enters the dryer for deep dehumidification, and finally the dry air that meets the requirements is delivered to the gas-using equipment. Through precise pipeline connection and parameter matching, the system can achieve a dynamic balance between flow and pressure to ensure overall operating efficiency. This collaborative working mechanism not only meets the requirements of the production process for air quality, but also optimizes energy utilization. It is an ideal choice for modern industrial gas source treatment.
High Pressure Air Dryer High efficiency and energy saving:
1. Adopting the pure physical cooling dehydration principle, no adsorbent regeneration process is required.
2. No compressed air is consumed, which can reduce the compressed air loss by 12-15% compared with adsorption dryers (such as dehumidifiers)
3. The power supply demand of the equipment itself is lower than that of adsorption dryers.
1. The structure is relatively simple, the valve parts have little wear and tear, and the long-term operation stability is high.
2. There is no need to regularly replenish or replace absorbents (such as molecular sieves, activated alumina), which significantly reduces maintenance costs and material consumption.
3. Condensate is discharged through an automatic drainer, and daily maintenance mainly requires daily cleaning of the filter.
Strong applicability:
Especially suitable for industrial scenarios with continuous operation.
System linkage: the core of the compressed air drying process
The coordinated work of the refrigerated dryer and the air compressor is the key link in obtaining dry compressed air. The typical compressed air processing process is:
Air compressor → air storage tank → refrigerated dryer → gas-using equipment
The high-temperature and high-humidity compressed air output by the air compressor first enters the air storage tank for buffering and pressure stabilization. Subsequently, the air enters the air inlet of the refrigerated dryer for deep dehumidification. The dried clean compressed air is finally supplied to the gas-using equipment.
The two needs to achieve efficient and stable linkage operation through reasonable pipeline connection, control timing coordination and parameter matching (such as flow and pressure).