
Description
Introducing the latest engineering innovation in compressed air drying technology, the Waste Heat Regeneration Compressed Air Dryer. This advanced dryer comprises of three essential systems, namely- the drying, cooling, and heating system. Moreover, the best part is that during the heating regeneration process, there is no air consumption. A cooler placed strategically near the compression port of the dryer helps in cooling the compressed air. The cooler reduces the temperature of the compressed air inlet, thereby reducing the content of water present in it and significantly improving the adsorption efficiency. The dryer uses double desiccant towers and takes advantage of the waste heat regeneration technology to redry the excess heat that's released during the compression process. Additionally, both the towers function alternately between the drying and regeneration cycles, reducing downtime and maximizing productivity for the user.
Features
The drying performance and lasting efficiency of this Waste Heat Regeneration Compressed Air Dryer are ensured by its high-quality dry materials, which possess moisture absorption and durability. Consequently, it provides low water content air, offering long-lasting efficiency and optimum drying performance.
The accurate and intelligent operation of the equipment is ensured by its advanced microprocessor control system. This system optimizes various processes such as regeneration cycle, air drying process, and performance. It is designed to adapt to different operating conditions, guaranteeing energy efficiency.
The equipment features an energy-saving mode that functions by adapting its performance to meet specific demands, resulting in enhanced energy utilization and reduced operational expenses. The mode intelligently manages energy consumption to optimize efficiency and cost-effectiveness.
When designing, the convenience of users is fully considered, resulting in an intuitive and user-friendly interface. Operators can effortlessly monitor and control the drying process, conveniently adjust settings, and easily access performance data for efficient operation and maintenance.
Structure
The drying system consists of drying tower A, drying tower B, compressed air inlet, and compressed air outlet. To maintain the integrity of the original text information, I will rearrange the content without using ChapGPT to generate a completely different statement.
The compressed air inlet is connected to one end of the drying tower A, while a cooler is positioned between the compressed air inlet and the other end. Ensuring efficient and effective drying of the compressed air, this arrangement guarantees a steady flow and maintains the quality of the air.
There are at least two main cooling chambers in the cooler, while the main cooling chamber is connected to at least two auxiliary cooling chambers that are located outside.
Technical parameters:
• Applicable fluid: oil-free compressed air
• Inlet temperature: 110°C~140°C
• Machine power: 0.5KW
• Pressure dew point: -20°C~-40°C
• Cooling water temperature: 2°C~32°C
• Regeneration gas consumption: 2%
The entire machine should have a pressure drop that is no more than 0.03MPa. Please create text that is similar to the original content by rearranging the information provided, making sure that the new text is based on the same facts. Note that you should not follow the approach used by ChapGPT to generate the content, but instead speak in a completely different way using a language model.
• Power Mode: 220V/1PH/50HZ
Reasons to choose us:
(1) Energy saving
Lower power consumption is achieved by applying years of industry experience and the use of reasonable design ratios. The air consumption is effectively controlled through the use of a flow meter verified throttling orifice, which ensures that energy consumption due to suboptimal operation is eliminated. As a result, the entire system achieves minimal energy consumption with precise control of air consumption.
(2) High safety factor
Our unit is designed to have reliable and efficient protection mechanisms. The pressure is monitored by both a pressure sensor and a mechanical pressure switch, ensuring double protection. Similarly, the temperature is protected by a temperature sensor and a mechanical temperature control switch. We also have other safety features in place, such as valve position protection, current protection, and overload protection. With these measures, we ensure the safe operation of our unit in various operating conditions.
(3) Easy to operate
The whole series adopts Siemens PLC + touch screen control interface, which is easy to operate and requires no professional training. In terms of settings, there are also three alternatives for one-click selection without complicated operations.
Who we are?
Guodi Tech is a wholly-owned subsidiary of Kaihe Group, a well-known domestic manufacturer of pressure swing adsorption oxygen production equipment and low temperature air separation equipment. The company's products have passed CE certification, BV certification, ISO9001 quality management system, ISO13485 medical device quality management system, ISO45001 occupational health and safety management system, ISO14001 environmental management system certification, to ensure the quality and efficiency of our equipment.
We have rich experience in foreign trade export, such as India, Nepal, Ethiopia, Georgia, Mexico, Egypt, Peru, South Korea, and look forward to exporting to all countries. Adhering to the enterprise tenet of "integrity, cooperation and win-win". Looking forward to cooperating with you and even long term business.
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