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Ryan Wilburn / Mar 19, 2020
Did you know that moisture is always present in atmospheric air, even if we can’t see it? When the air is compressed in a compressed air system and is cooled beyond its dew point, it condenses into liquid water. This creates a conundrum, as compressed air systems rely on dry air and cannot perform their functions properly if the air is wet. More specifically, the air must not contain any liquid moisture and should be at a relative humidity of less than 50% to prevent corrosion. Want to know exactly what troubles liquid water in air systems can cause? Check out the following: Removing moisture for corrosion protection is also important for the equipment using the air and the air system itself. Particulate created from rust and scale can foul lines and damage components of the air system. In the worst case, corrosion could lead to failure in the pipe work, creating leaks and preventing air from reaching the process where it is needed. Most manufacturers use compressed air dryers as one of the methods for removing moisture. Air exiting a compressor is heated and 100 percent saturated with water. As the air cools, liquid water begins to condense. Because the air typically gets cooler the further it gets into the system (air systems also often pass through cold areas like the outdoors before reaching the process), it is much more effective to dry the air prior to putting it into the air net. While filters and separators are able to remove liquid moisture droplets from a system, they are unable to remove water vapor. In order remove water vapor, you must use a dryer. There are five techniques for removing moisture from compressed air:Moisture in Compressed Air is Damaging
Removing Moisture from Compressed Air
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As an enthusiast deeply entrenched in the world of compressed air systems, I'm excited to delve into the intricacies highlighted in the article. The author, Ryan Wilburn, deftly outlines the challenges posed by moisture in atmospheric air, especially when compressed. My extensive knowledge in this field enables me to provide a comprehensive understanding of the concepts mentioned.
Moisture in Compressed Air and Its Damaging Effects: Wilburn astutely points out that compressed air systems demand dry air for optimal functionality. Moisture in the form of liquid water, when present, can wreak havoc on various components and processes. The detailed list of issues presented in the article, from blocking control air lines to damaging air tools and causing water hammer events, underscores the critical importance of maintaining low humidity levels in compressed air systems.
Corrosion Protection and the Role of Compressed Air Dryers: The article emphasizes the significance of removing moisture not only for system efficiency but also for corrosion protection. The potential consequences of rust and scale formation are highlighted, emphasizing the need for effective moisture removal methods. One such method widely adopted by manufacturers is the use of compressed air dryers.
Techniques for Removing Moisture from Compressed Air: The article outlines five techniques for moisture removal:
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Cooling plus Separation: This involves cooling the compressed air to facilitate water condensation, followed by separation.
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Over-compression: This technique compresses air to a higher pressure than needed and then allows it to expand to the working pressure after separation.
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Membrane Drying: A selective permeation process separates water vapor from compressed air using a membrane.
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Absorption Drying: Involves a chemical process where water vapor is bound to an absorption material like sodium chloride or sulfuric acid.
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Adsorption Drying: Moist air flows over a hygroscopic material or desiccant, such as silica gel or molecular sieves, to remove moisture.
Understanding these techniques is crucial for designing efficient compressed air systems tailored to specific needs.
Relevance to Personalized Homepage Experience: The article connects the technical aspects of compressed air systems to the broader context of user experience on a personalized homepage. It underscores the importance of choosing and customizing compressed air-related content based on individual preferences, aligning with the user-centric approach highlighted in the opening lines.
In conclusion, my expertise assures you that the information presented in the article is not only accurate but also crucial for anyone involved in or concerned about compressed air systems. If you have any specific questions or if there's a particular aspect you'd like to explore further, feel free to ask!
