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Why Compressors Need an Air Filter - Suburban Manufacturing

25 Aug.,2025

 

Why Compressors Need an Air Filter - Suburban Manufacturing

Air compressors play an important role in several different industries and applications. When your air compressor is being used for a vital component in a process, it is imperative it's up to standards so your final product is exactly how you expect it to be. Maybe your air compressor hasn't been giving you the results you are wanting out of it. Although alarming, it doesn't mean you need to throw it away - but your air compressor probably requires some extra help to get the job done. There's a chance all your compressed air needs is a downstream compressed air filter. Let's talk about why.

With competitive price and timely delivery, NAILI sincerely hope to be your supplier and partner.

In this article, we'll discuss the important role an air filter plays on a compressor:

  1. What does an air compressor do?
  2. Do you need an air filter?
  3. Which air filters you need
  4. The rule of 20
  5. Getting started on you air filter journey

What does an Air Compressor Do?

When an air compressor is running, it goes through a few different processes. First, it pulls the ambient air containing dust, particulate, oils, or water vapors in the system. Then, it compresses it down into a smaller area to store energy eventually used to carry out the function of its downstream application. Air compressors also create heat which not only raises the temperature of the air, but the increased air temperature also allows the compressed air to hold more water and oil in vapor form which will eventually cool as the air goes downstream.

All of these compressed particulates, oils, and vapors (water and oil) in the air can harm the downstream applications and equipment utilizing the compressed air. Which is why best practices suggest removing them completely at the point-of-use.

*At this time, Tsunami does not manufacture air compressors

Do you need an air Filter?

The short answer: yes.

It is extremely important to have an air filter to pull out unnecessary particulates because they can hinder the results of your critical application. This can lead to increased costs, labor, and unhappy customers - no matter the industry.

When taking a look at air filters, it can appear overwhelming at first. Let's quickly walk you through what each filter does when installed at your application or equipment.

Which air filters do I need?

The two main air filters required for compressed air applications are water separators and oil coalescing filters. We are going to cover the filter basics to understand the contaminants each filter removes, the particulate size being removed, the filter efficiency, and what the filters are made out of.

Wondering what makes Tsunami's Water Separator different? Download the guide here!

The Rule of 20

To understand why a compressed air filter is needed, the rule of 20 explains it all.

The rule of 20 states:

For every 20 oF that air cools, 50% of the water vapor condenses from a gas to a liquid.

If you're thinking "what does that even mean?," we are here to break it down for you. Basically, when water first enters the air compressor, it's a gas - but after the compression process, the stored compressed air holds the maximum amount of water vapor it can hold and condenses and releases the remainder as a liquid in the tank.

As the water vapor entrained air travels downstream and throughout the piping system, the air cools which condenses water vapor into a liquid, thereby harming downstream applications or tools.

That's why proper filtration near your compressor (mainline filter) and near your application or equipment (point-of-use) is essential to keeping your compressed air system clean and your tools running smoothly.

*Pro tip:

No compressor should be manually drained. You can attach an electronic drain to your compressor tank or in a drop point, set the time for actuation, and the interval for how long you want it open.

The company is the world’s best inline compressed air filter supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.

Getting started on your Inline air filter journey

Having a main line compressed air filter installed to your compressor provides a first line defense for quality air to your pneumatic applications and tools downstream. Installing point-of-use filters directly in front of your application ensures consistent and reliable results you can replicate time and time again. We recommend this air compressor solution so you can discover the benefits of enhanced system performance, reduced operational costs, and avoid unnecessary downtime.

The right inline air compressor filter solution - Atlas Copco Australia

Particulates: Particulates in compressed air are small pieces of material like dust, dirt, and/or pollen, as well as loose metal pieces. Depending on the sensitivity of your application and or process, contact with particles can be damaging to the end product. They can also cause delays in production and quality control issues, as well as unsatisfied customers.

Aerosols: Aerosols consist of small droplets of liquid found within a compressed air system, especially in oil-injected machines. Aerosols are created from lubricant. Therefore, oil used in the compressor can be harmful to both products and people if not treated properly.

Vapors: In a compressed air system, vapors consist of lubricants as well as any other liquid that has converted to a gas. Such vapors require a special carbon activated filter in order to be removed from the system.

Now that we have a better understanding of the contaminants above, let us take a look at what types of filtration methods are used.

There are three main mechanisms utilized in dry particulate filters to remove solid particles from compressed air. These three forces contribute to the overall efficiency of the filter.

Inertial Impaction: Inertial impaction is a process where particles that are too heavy to flow with the compressed air stream get trapped in the fiber media of compressed air. The larger the particles are, the easier it will be to separate them.

Interception: Smaller particles can follow the air stream. However, if the diameter of a particle is larger than the gap of the filter media, it will get caught by the filter media. This makes it easier to eliminate larger particles than smaller ones.

Diffusion: Diffusion happens when small particles move erratically throughout the surface, instead of following the compressed air stream. This irregular movement path is caused by the particles colliding with other gas particles, an occurrence called Brownian movement. Since the particles have a free-range of motion, it is more likely that they become intercepted and removed by the filter media. Through diffusion, separation of smaller particles is easier than separating larger ones. 

Two types of filters are used to remove aerosols and vapor. Coalescing filters are utilized to remove liquids as well as some particulates, while vapor filters use adsorption to remove vapors from compressed air.

Coalescing: Coalescing filters are used to remove aerosols and particulates, but are not effective in the removal of vapors. The coalescing process consists of bringing small droplets of liquid together in order to form large droplets. As the droplets increase in size, they fall from the filter into a moisture trap, resulting in a cleaner and dryer compressed air stream.

Adsorption: Adsorption is a chemical process used to remove gaseous lubricants or vapors. This process involves vapors bonding with the surface of the media (adsorbent). Activated charcoal filters are commonly used since they attract oil vapor.

As the oil vapor covers the surface of the activated charcoal over time, it is essential to change the filter before it becomes saturated. If not, this would lead to a breakthrough of the oil into the air system.

It is also necessary to use a dust filter after the activated charcoal filter. This is because small charcoal particles could break out and enter the air stream.

To assess the potential damage oil can cause to your compressed air system, it's important to understand your equipment and basic industry requirements. If your industry has strict health codes and or your equipment is sensitive to oil / vapor exposure, it is crucial to use proper filtration.

Let’s take a closer look at lubricants and understand the effects they can have on your end product. Similar to particulates,lubricants can enter your compressed air system from ambient air as well as from the compressor itself. Facility operations, like a motor exhaust, release hydrocarbons like oil aerosols into the ambient air, which can compromise air quality and cause equipment failure.

Oil injected air compressors will also release lubricants into the compressed air system, resulting in increased operational and maintenance costs. Industries such as electronics and semiconductor are especially exposed to lubricant contamination, which can result in product loss, missed deadlines and unsatisfied customers.

Contact us to discuss your requirements of hydraulic driven air compressors. Our experienced sales team can help you identify the options that best suit your needs.

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