In lots of different industrial settings, dry compressed air is essential. In these instances, compressed air dryers are used to make sure the end-product is moisture-free. In this article we’ll discuss the working principle and different types of compressed air dryers.
Lots of working environments are particularly water sensitive. Moisture can contaminate the end product and equipment. In particularly cold environments water particles can also lead to frozen pipes, corrosion and other important issues, like malfunctioning of controls or impairment of tools. This can make you lose time, money, and production quality.
Compressed air dryers are filtering systems that rid your compressed air of moisture created during the compression process. It makes sure that your compressed air is high-quality and free of harmful moisture that could damage your equipment or have a negative effect during use.
Compressed air filters, on the other hand, filter the air from other impurities like dust and gases.
How your compressed air dryer works depends on the type of air dryer you have. Each uses a different technique to the same result: providing clean and dry compressed air for you to work with.
Essentially, compressed air dryers suppress the dew point of air by removing any remaining water particles. The air that gets compressed can contain moisture that might be harmful to your systems and processes. Especially in pharmaceutical and food industries it’s paramount to have clean, dry compressed air.
Compressed air dryers exist in different types, sizes and applications. Essentially, there are four different types, depending on the mechanism they use to remove moisture from the compressed air. Find out how each type works and which one you need.
Refrigerating air dryers work by cooling the air to low temperatures and condensing the bulk of the water vapour. In other words: it uses temperature differences to remove the water particles.
Refrigerated air dryers or refrigerant dryers cool down the air to approximately 3°C or 35°F. At this temperature, known as the dew point, the moisture in the air condenses after which it is drained.
The cooled air is reheated to room temperature upon exiting the dryer and before being used.
The are 2 main subtypes of refrigerant dryers:
Refrigerated air dryers are the most common type of compressed air dryer. They are perfect for most manufacturing and service applications, provided you just need dry air without any perceptible moisture.
However: water vapour might still remain in the compressed air, so this specific type of compressed air dryer is not to be used in applications that are water-sensitive. It can remove a lot of the particles, but not necessarily all of them.
A few benefits of refrigerant air dryers
In need of a compressed air dryer system capable of lower dew points? Then a desiccant air dryer is a better fit for you.
A desiccant air dryer is a subtype of the adsorption air dryer system. They use a porous hygroscopic medium like activated alumina and silica gel to extract moisture from the air and dry it. They have a dew point of around -40°C or -40°F.
As stated in this succinct guide to air dryers, desiccant air dryers are better suited for second stage drying as the hygroscopic medium would otherwise get saturated too quickly. That means they are usually the second step after a primary dryer like a refrigerated dryer.
There are 2 main types of desiccant air dryer:
The first canister contains a hygroscopic medium through which the air passes. When the medium becomes saturated, the air flows to the second canister for the same treatment.
The first canister then heats up a small amount of air to purge the first medium from moisture and expels it into the atmosphere, resetting the medium.
The regeneration of the medium uses 1 of 2 working principles:
The regenerative nature and low dew point of desiccant dryers, make it perfect to compress air at or below the freezing point.
Some advantages of a desiccant air dryer
The second type of adsorption dryer systems is the deliquescent air dryer. Like desiccant dryers, they pass the air through a hygroscopic medium to dry it.
Contrary to desiccant air dryers, deliquescent air dryers use soluble salt tablets instead of a medium that needs regeneration. The resulting brine needs to be drained and the tablets replaced every so often.
Deliquescent air dryers’ dew point fluctuates depending on the temperature of the atmospheric air coming in.
Deliquescent air dryers are perfect for remote or hazardous environments like landfills, asphalt factories, wood working factories and similar, often industrial, environments.
Benefits of deliquescent air dryers
Because of the added maintenance costs and minimal range of use, Mark decided not to provide deliquescent air dryers.
For a consistent dew point, refrigerant dryers and desiccant dryers will better serve you.
Download your copy of our guide to adsorption air dryers.
The final type of air dryer for your compressor, is the membrane air dryer. As the name indicates, it runs incoming air over a hygroscopic membrane to rid it of moisture.
The air builds up on the membrane until it migrates through to the other side, which is low pressure. A dry gas is then run through, carrying the moisture away for expulsion.
Like deliquescent air dryers, membrane air dryers’ dew point depends on the temperature of incoming air, although a proper setup will result in incredibly low dew points. They are often a second or even third stage dryer.
Membrane air dryers are a popular choice for medical use thanks to the low dew point in a controlled environment resulting in small amounts of high-quality air. If you need an air dryer for a laboratory, dentist’s office or hospital, this is your best bet.
Reasons to go for a membrane air dryer
When looking for an industrial air dryer, there are many different models to choose from and it’s easy to get lost. If you follow these tips, you’re on your way to the perfect air compressor and treatment for your business:
In many applications, having dry compressed air is essential. It is paramount to make use of the right air drying system for your air compressor. In this article we’ll discuss how to find out which air drying system is ideal for your application, and how to set it up.