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Oil and germ-free compressed air - causes, problems and solutions

Introduction

Better product quality through oil-free compressed air

In many production facilities, compressed air comes directly or indirectly into contact with production lines, products or packaging materials. Contamination through residual oil content, micro-organisms and germs then has significant consequences for product quality, consumer safety and market reputation.

Stiftung Warentest reports mineral oils in chocolate, Foodwatch denounces the dangers of food packaging. We are all familiar with reports like these about contamination and deficits in the quality of the final product. And we are familiar with the consequences, too: uncertainty among customers and retail traders, a stir in the press, non-objective discussions and last but not least damage to reputations.

The use of compressed air in areas where human health can potentially be harmed by compressed air makes special requirements on the cleanness of the compressed air. For this reason, it is particularly important.

Causes

How does compressed air become oil-contaminated?

There are many ways for contamination factors such as particles, oils, germs and humidity to enter the compressed air. They are often already present in the ambient air and get into the compressed air system through the compressor intake air. The reason for the contamination can be a major road or construction site nearby, for example. The risk of humidity occurring in the compressed air system increases with air humidity in the ambient air.

The contamination presents a double risk: on the one hand, it can impair the function of the compressed air plant and lead to premature wear of plant components, on the other it presents a real risk to the quality of the final product and thus the consumer.

Possible sources of contamination

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Environment

Additional hazards exist depending on the direct surroundings and individual circumstances: in addition to dust and humidity, oil and micro-organisms can also get into the compressed air system via the ambient air.

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Compressor

Not only oil-lubricated but also oil-free compressors (via intake air!) can be a source of residual oil vapours in the compressed air network.

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Valves

Valves and fittings. Numerous components in the compressed air system are lubricated with greases or silicones to improve their function. These can easily get into the compressed air.

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Pipework

Once contaminated, there is a constant risk: over the years, deposits can build up in existing pipelines and influence the compressed air flowing through them.

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Problems

What challenges face the various industries when it comes to oil entry?

Faulty product quality, machine damage, scrap, rework and recall campaigns for industrial goods that are caused by oil breakthrough are less well known to the general public than the problems mentioned above. However, they cause substantial financial damage, particularly in the following branches and applications:

Pharmaceuticals
pharmaseutic application of compressed air

Pharmaceuticals and laboratory technology

Very stringent hygiene standards are specified for manufacturing medicinal products. It is therefore very important that production takes place in an environment that is free of germs, particles, bacteria and contaminating oils. In addition to utilisation in hospitals, compressed air is increasingly being used in laboratories. In order to exclude the danger of bacterial growth in these highly sensitive environments, compressed air must be absolutely germ-free and dry.

Use Case: Compressed air in the pharmaceutical industry

Food
cookies

Food industry and packaging industry

This contamination has to be removed or reduced here, too. This is executed in order to protect consumers and to ensure a safe and cost-efficient production process. The condition of the final product must remain unchanged during packing and filling of the products. Beverages and food in particular must be treated very gently, and no contamination may subsequently occur (directly or indirectly).

Direct contact: The compressed air comes directly into contact with the product or packaging material or gets into the respiratory system or onto inner or outer spots not protected by skin (e.g. following an injury).

Indirect contact: The compressed air is discharged to the ambient air during an application. The expanded compressed air only reaches an object over a corresponding distance and having been diluted by normal ambient air.

The primary potential risks are:

  • Contamination of the product by contaminated water (condensate)

  • Contamination of the product by liquid oil (compressor oil)

  • Contamination of the product by oil vapour or general gaseous hydrocarbons and thus undesirable essences

  • Contamination of the product by undesirable metallic or non-metallic solid particles from the compressed air system, e.g. rust, corrosion particles, abrasion, sealing material or other loosened deposits

  • Contamination of the product by undesirable micro-organisms

Use Case Chocolate Production

Use Case Vegan Products

Manufacturing
pinsel

Paint work

Particles, oil-aerosol and vapour, materials containing silicone as well as condensate are the main causes of faults in the paint shop. The use of compressed air in painting technology makes requirements on the cleanness of the compressed air which even go beyond the classes defined in ISO 8573-1.

Paints and varnishes react extremely sensitively to certain contamination in the compressed air. This results in coating wetting problems in the form of craters and bubbles, linked to corresponding rework and thus additional expense. The compressed air must be paint compatible i.e. free of substances which interfere with coating wetting (these include graphite, waxes, metal soaps, paraffins, talcum, teflon and plastic abrasion).

Paint-compatible compressed air is required when the compressed air comes directly or indirectly into contact with still wet paints or varnishes or surfaces to be painted. Whereas indirect contact can be avoided by cabins, direct contact is unavoidable wherever painting nozzles are used.

For this reason, paint-compatible compressed air must always be

  • dry,

  • free of liquid contamination, oil and aerosols,

  • free of vapour phases which may condense,

  • free of dust and other solid particles down to tiniest residual amounts.

Like greases or oils, the silicones dreaded in painting technology can be present in different phases (solid, liquid, gaseous) in compressed air. Contamination containing silicone can be removed using appropriate filters. However, gaseous and thus volatile silicone compounds can only be removed from the compressed air by means of catalytic oxidation. For this reason, the use of at least one catalytic converter is essential for the production of paint-compatible compressed air.

Chemical
molekül

Wherever there is direct contact during the processing of raw materials (powders and granules), the compressed air must be absolutely dry and oil-free. This is the only way contamination and the formation of agglomeration can be excluded. In order to guarantee process reliability, both permanent monitoring and complete documentation of the compressed air quality are indispensable.

Use Cases

Electronics
platine

Chip manufacturing processes must take place under clean room conditions i.e. the quality of the compressed air must be adapted to these requirements.  Another field of application for compressed air is the application of solder paste on the circuit board as well as cleaning of circuit boards, electronic printed circuit boards and wafers. The compressed air utilised here must be free of particles, oil and moisture.

Uses Cases

Processing
pulver

Powder Coating

Powder coating, also known as powder painting, is a coating process that is suitable for metallic and non-metallic objects. On the one hand, powder coating enhances the value of the treated object. On the other hand it serves to protect the object. There are two processes - the electrostatic powder coating (EPS); and the whirl sintering method. Compressed air is used e.g. to convey the powder, for fluidization or as dosing air and is a decisive factor for the final quality of the product. This is because oily compressed air can lead to open spots (craters) in the paint coating or to bubbles or craters in the fluid reservoir.

Solutions

Producing oil-free compressed air

Generally speaking, there are several ways of producing oil-free compressed air. The special requirements must be given careful consideration during planning. This starts with the question of whether oil-free compressed air has to be available centrally or whether treatment can be decentral, since only part of the flow is subject to particularly high requirements.

Technical solutions for oil-free compressed air

Oilfree compressors
tabelle

This is the direct way of avoiding additional contamination of compressed air by oil through the compressor. Compressed air is produced by oil-free piston or screw compressors without the compressed air coming into contact with liquid or vaporous oils because the compressor chamber is not lubricated and pairs of screws run without touching each other. Compressed air produced in this way is often described as being “technically oil-free”. This is only possible thanks to perfect sealing and maximum precision. This involves high investment costs and limited operating pressure.

Does an oil-free compressor offer complete safety?
It is true that use of an oil-free compressor leads to no additional oil getting into the compressed air system. Since contamination (such as exhaust gases from vehicle combustion engines or heating systems, oil aerosols and micro-organisms) is already contained in the intake air, however, and is present in concentrated form downstream of the compressor, the compressed air always has to be treated. The oil content is often ≥ 0.01 mg per cubic metre (Class 2 or an even poorer rating).

Oilfree decision guide
icon

If you are not sure which technology is the right one for your application, please use our decision finder for oil-free compressed air. This will give you an initial approach as to which solution you should rely on.

To the decision guide this way!  

 

Katalysis

Treatment through catalysis

The catalytic converter produces environmentally friendly compressed air that is free from oil, germs, and bacteria. It is more reliable and low-maintenance compared to traditional filtering. It can be retrofitted to existing compressors and achieves a residual oil content of only 0.001 milligrams per cubic meter, exceeding industry standards. The condensate is also oil-free and can be disposed of without treatment. For continuous operation, a bypass or redundant system is necessary. Our catalytic converter provides a reliable and efficient solution for industries requiring oil- and germ-free compressed air, especially for sensitive applications like food and pharmaceuticals.

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Adsorption

Treatment through adsorption

Oil-free compressed air still contains hydrocarbons and odorous substances, compromising quality. Smaller volumes can be treated with microfilters or activated carbon filters, while larger volumes require activated carbon adsorbers. Unlike filters, adsorbers remove oil droplets and hydrocarbon vapors. Activated carbon physically binds oil molecules without chemical reactions. The quality of activated carbon is crucial for effective performance, preventing pollutant accumulation. Once saturated, activated carbon needs replacement after approximately 8000 to 10,000 hours. Regular filter maintenance ensures compliance with compressed air quality standards. Adsorbers should be preceded by filters and dryers to prevent contamination, and an oil-free dust filter is recommended downstream. Activated carbon adsorbers protect against oil ingress with low pressure differentials and extended filter life.

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Use cases

Oil-free solutions in the various industries

Each industry has its own specific applications and therefore individual requirements for the quality of its compressed air. There are specific purity classes for compressed air quality and industry-specific standards, laws or guidelines.

Here you can find out in detail what challenges are typical for the individual industries and how companies have implemented oil-free compressed air efficiently and safely in their production.

getränke

Compressed air treatment in the beverage industry

Every hour, 150 cubic meters of purest mineral water are produced by the 14 wells of RheinfelsQuellen in Duisburg-Walsum. Enough to fill 883 bathtubs every 60 minutes – or more than 207,000 bottles. To add sparkle to the water, there is only one solution: oil-free compressed air fed to state-of-the art bottling plants and peripheral systems. The company uses an innovative catalytic process for the total oxidation of hydrocarbons in the compressed air system.

lavazza

Oil-free compressed air at LAVAZZA

Control air is needed in the hybrid version of the ALSTOM shunting locomotive built in Stendal in order to supply the brake system with purificated compressed air. For this application, DRYPOINT M membrane dryers and CLEARPOINT filters are used.

filter

Safe oil-free pharmaceutical production

For the production of medicaments, the strictest hygienic standards apply to the production conditions. This of course also applies to the required compressed air. It must be absolutely free from oil in order not to contaminate the sensitive products. In its factory in Singen, Germany, drug manufacturer Nycomed relies on a comprehensive system solution provided by BEKO to treat the process air in a reliably oil-free manner.

ölfrei

Surface cleaning at HELLA KGaA Hueck & Co.

Blowing of high-performance electronics via pulsating rotary jets, and tracing of plastic housings with cleaning plasma jets: At the German automotive supplier Hella, compressed air takes over the central tasks in the surface cleaning of safety-relevant components. The most important requirement in this respect: the reliable, complete absence of oil.