How to Choose an Inline Filter for Your Compressed Air System?

Picking out an inline filter is not an art, but it could be confusing if we do not ask the right questions or understand the process that requires filtration. Before we move any further, let’s take a step back and get a general idea of filtration and why it plays an important role within the compressed air system.

 

Why do you need a filter?

choosing a filter to dry the compressed air
When you have a taste for coffee, it is simple to go to your nearest coffee bar or use a popular ‘cup’ machine, but we want more. The example I’d like to use consists of using the drip coffeemaker and roasted beans. One of the most important items in making a good cup of coffee in such machine is to use a proper filter in order to avoid a cup full of grainy particles and any other remaining pieces of the coffee bean. As insignificant as it might seem, the paper filter plays a vital role in making coffee that you can enjoy.

 

Although, a different entity than a coffeemaker, your compressed air system needs a filter as well. As we have learned in past articles, compressed air is full of particles, aerosols and oil vapors (in oil injected pistons and screws) that contaminate the compressed air and can cause potential harm to its end users (equipment that uses compressed air). Incorporating the correct inline filter can help you eliminate the unwanted particulates as well as aerosols and vapors. The amount of filters and types needed will be dependent on the quality of air your application and or process requires. Let’s take a look at the different types of filters and the questions that will help you choose the correct filter.

How clean does my air need to be?

In order to understand how clean your air needs to be, you have to identify and assess the application and process that utilizes the compressed air. Not all applications and processes that use compressed air require the same level of filtration, which is why having this information is the first step in choosing the correct filter. Compressed air utilized for pneumatic purposes can oftentimes be supported by a standard dry particulate filter that provides filtration down to 1 or 0.01 micron, however, if your process requires an OSHA-approval and elimination of oil vapors, then a charcoal activated filter will have to be utilized. Let us get a better understanding of what contaminants are and how they affect compressed air system. Contaminants within a compressed air system can originate from ambient air that is utilized, as well as the system (compressor) itself. There are three main contaminants that are found in compressed air: particulates, aerosols and vapors.

 

Particulates: Particulates in compressed air system are small pieces of solid material such as dust, dirt and or pollen from the ambient air, as well as loose metal particles that can be caused by pipe corrosion. Depending on the sensitivity of your application and or process, contact with particles can be damaging to the end product, therefore causing delays in production and quality control issues, not to mention potentially unsatisfied customers.

 

Aerosols: Aerosols consist of small droplets of liquid that can be found within compressed air system, especially in those using oil-injected compressors. Aerosols are created from the lubricant, in this case, the oil used in the compressor and can be harmful to both products and people if not treated properly.
Vapors: In the 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 in eliminating each type of contaminant.
Removing dry particulates
There are three main mechanisms that are utilized in dry particulate filters to remove solid particles of all sizes out of compressed air.
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. The larger the particles are, the easier it will be to separate them.

 

Interception: Smaller particles can follow the airstream, but if the diameter of the particle is larger than the gap of the filtermedia, it will get caught by the filter media, making 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 and can move around freely, it is much easier to and more likely that they get intercepted by the filter media and removed from the compressed air stream. Through diffusion, separation of smaller particles is easier than separating larger ones.
These three forces contribute to the overall efficiency of the filter.

 

Removing aerosols and vapors

There are two types of filters used to remove aerosols and vapor. The 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 is used to remove gaseous lubricants or vapors. The process consists of vapors bonding with the surface of the media (adsorbent), which commonly uses activated charcoal in the filters due to its high surface area and attraction to the oil vapor. As the oil vapor covers the surface of the activated charcoal over time, it is essential to change it before it is fully 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, since small charcoal particals could break out and enter the airstream.
Can my process be damaged by lubricants like oil?

 

In order to assess the potential damage that oil can cause within your compressed air system, you have to understand the basic requirements for your industry or equipment that uses the compressed air. If your industry has strict health codes and or your equipment is sensitive to oil or 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 releases 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.

 

Poor filtration is oftentimes leads to pipe corrosion, increased pressure drops and can cause equipment damage, resulting in costly downtime and unexpected repair costs. Corrosion can also cause excess debris in your piping system, which in turn results in your compressor working harder, leading to higher energy consumption and excess ware on compressor parts. Proper filtration is key in achieving desired results when strict codes or purity classes are enforced.
The only way to protect your product fully from unwanted oil in your compressed air system is to utilize oil-free compressors, as this type of technology will eliminate the risk of contamination, resulting i clean, high quality compressed air.

 

Be sure to check out our online shop, where we have a range of Inline Filters to suit your needs:

 

Do you have an idea for our #expertcorner? Let us know!

Who we are and how Ash Air can help your business!

Ash Air has been around in New Zealand since 1979, and we’ve grown into a nationwide company with international support and a reputation for quality and reliability.We look after all things compressed air for your business!

  • Reciprocating, Screw, air compressors
  • Vacuum pumps
  • Nitrogen
  • An extensive line of air treatment components

Ash Air's range of Chicago Pneumatic, Alup, Pneumatech, and Quincy compressors are used extensively around the world in industries ranging from oil and gas to food, automotive and farming, and we bring you these world class compressors here in the land of the long white cloud.Our technicians are compressed air equipment experts and are dedicated to addressing customer needs. Supported by a 13 locations nationwide, Ash Air offers one of the widest selections of compressed air equipment and parts available today in New Zealand.

Reliability and Efficiency

With Ash Air compressors, you can count on reliability and high performance for even the most demanding applications. We focus our efforts on the following:

  • Increasing uptime
  • Reducing unexpected repairs
  • Reducing energy consumption
  • Improving the cleanliness of compressed air


Talk to the team today:  CONTACT US CONTACT US

Read more from our #expertcorner


Just like any other equipment, a compressed air installation also requires the necessary maintenance work during its entire lifespan. Even though maintenance costs are only about 5 to 10% of a machine's annual operating costs, failure to budget for maintenance can have potentially disastrous consequences.


The air dyer is one of the most ignored cooler in the system. A dirty condenser will cause water in the lines, or worse it will cause complete dryer failure.


Using nitrogen is not about fully replacing CO2, but it can reduce their consumption of CO2 by close to 70%. Using nitrogen is about sustainability. Creating your own nitrogen is easy and will reduce the use of a greenhouse gas, which is better for the environment. It will also save you money as early as month one adding that savings to your bottom line.


A question that is occasionally asked by our customers to Ash Air is 'what is the cost of compressed air?'  This article looks at the product costs involved with compressed air, as well as minimising the energy cost of compressors and cost allocation. When looking at these factors, we need to realise what causes dropped efficiency of your compressor, leading to increased costs of compressed air.


You may have great fall protection measures in place to keep employees safe when working at height, but what about their co-workers below? Dropped tools and other falling objects are a major hazard – and one that isn’t always fully addressed. 


Providing a safe working environment for operators is essential, especially when using pneumatic tools and compressed air. If there is a failure in the air network and the hose is not adequately clamped, the resulting whiplash could be devastating. Failure to follow best practice can result in injuries, associated production downtime and decreased productivity.


A common questions asked is why do I need an air dryer for my compressor? Typically, air compressors produce water, and although the water can be drained, there can still be aerosol and vapour droplets that are present. This is because water cannoet be compressed. Water can damage your compressor by corroding the valves, pipes and machinery controls, which will cost you time and money to resolve. In the long run, the cost of a new compressor is a small price to pay compared to the loss of production that could potentially arise due to water damage in your compressor.






Air compressors can fail for an assortment of different reasons: Normal wear and tear, lifespan and age of the unit, poor maintenance, power surge, install issues are just a few the come to mind. Check out this blog to find out our top 7 tips to ensure your compressor is looked after! 


That cold, rainy, and in some places icey New Zealand winter is upon us, and with the following air compressor tips, your air system will be prepared with the preferred temperatures, despite the weather outside. Regardless of whether or not it actually snows or freezes up where you live, most winterisation service recommendations are also basic, solid maintenance procedures that will help extend the life and operational efficiencies of air compressors regardless of whether you live in Queenstown or Northland.


If you're wondering what an air compressor actually is, you've come to the right place. Simply, air compressors convert power in to air that is pressurised which is then used to power air tools such as spray guns. Air compressors are used in a wide range of applications, so naturally if you want one that will be designed for spray painting your vehicle, you want a compressor specifically made for spray guns! This way your compressor will be able to provide the right amount of power to perform the job.


Compressed air plays a fundamental role in industrial activities. Depending on the type of application, the energy cost of producing compressed air can be very high. Below are some tips to save on you compressor bill.


Air Compressors are essential tools in a variety of industrial settings. No matter what industry you are in having a reliable air compressor can be a crucial part of getting the job done efficiently. However, like an investment, air compressors require upkeep and maintenance, and eventually will need to be upgraded. But how do you know when it’s time to upgrade your air compressor? Here are some things you need to consider.


When it comes to laser cutting and other industrial processes, the choice of assist gas is crucial in achieving optimal results. Nitrogen and oxygen are commonly utilized as assist gases, each with its own unique properties and applications. Understanding the characteristics of both gases, will help you to make an informed decision to ensure precision, efficiency, and cost-effectiveness in your operations.


Mobile air compressors are portable, towable compressors particularly useful for applications that suit the construction and roading industry! You'll often see a mobile compressor being used for sandblasting, irrigation blow-outs, and for quarrying tools such as pneumatic block cutters and rock drills.  


Did you know that Chicago Pneumatic helped man land on the moon? Notice in this photo of the Apollo 11 landing what appear to be "soccer balls" on top of the capsule. They were inflated through a compressor specially developed by Chicago Pneumatic for NASA.


Your company purchased an air dryer for your compressor, now where should you install it? One of the most common things we see in the industry are air dryers being stored on top of the compressors. Seems like a wasted space not being used on top of the compressor, right? Wrong.


When using air compressors, there are many variables that are integral to the quality and effectiveness of your compressed air. When dryer air is necessary, being able to constantly and accurately monitor dew points can be a critical factor to your operation.


Compressed air plays an integral role in breweries both large and small around the world. From start to finish, all details in the brewing process are managed in fine detail and having the right air compressor is no exception.


We Kiwi's love our Coffee! Coffee, like all other food & beverage products, must go through a preservation process to keep the beans fresh during storage and packaging before they reach the consumer. Coffee that is not properly stored after it is roasted will lose a large amount of carbon dioxide, which lessens its' flavor and speeds up the staling process. One of the most common ways to preserve the freshness of coffee is the use of nitrogen gas. Learn more here:


Air compressors are helpful for an enormous range of applications such as air filling, packaging, tools, HVAC control, and more! One possible drawback is the amount of electricity they use; air compressors can be a huge drain on energy if used ​inefficiency... 


We get it, buying an air compressor is a big financial decision. And now we are suggesting that you need two air compressors, not just one. Ask yourself one question- Can your business still run if your air compressor goes down?


It’s no secret – air compressors are excellent sources of energy. Not only do they power essential manufacturing elements and applications, but the heat generated as a result of the compressed air processes can be used as a byproduct that offsets other energy costs. However, there’s another form of energy that is also a consequence of the air compression process – sound.


The emergency stop, "e-stop", is for true emergency situations only. When hitting the e-stop, all power is halted from the machine and the unload process isn't achieved. The emergency stop button is intended to help with possibly hazardous situations that are developing. Common conditions of having to use the e-stop is the misuse of the equipment in ways that weren’t intended, predictable failures not addressed or failing to consider all the foreseeable uses of the compressor.


We've put together a list of tips for working safely with air compressors in your environment! We recommend that you always read owners manual before running your compressor. The number one cause for repairs and personal injury is improper use. You've got to remember to use eye protection and hearing protection when operating your air compressor and try to avoid using air compressors in a wet area. 


Air Compressor Installation Tips Installing Your Reliable Air Compressor

So, you've just bought an efficient and reliable ALUP air compressor? Welcome to the world of compressed air. As your partners in compressed air, we will continue to assist you along your journey. We have provided air compressor installation tips to ensure you get the most out of your air compressor. 


Air dryers remove any condensation from the air compressed by your air compressor. Questions about them? Find answers to the most frequently asked questions here.


Selective soldering with nitrogen is an essential process in the production of printed circuit boards (PCBs). It is used for bonding components to PCBs that could otherwise be damaged if exposed to a lot of heat. Another area of application are mixed-technology circuit boards with layout constraints.