Work correctly with pressure without feeling the pressure – how to make energy savings when using compressed air

Discover how the efficient use of compressed air can save you money

Did you know that German industrial companies need around 16 terawatt-hours of power each year to generate compressed air? This figure, as calculated by the German Energy Agency dena, is enormous but it comes as no surprise when you consider that compressed air is indispensable for 90 percent of industrial processes. Whether it’s blowing components clear, drying, cooling, suctioning, cleaning, sealing, ionising or transporting – compressed air is one of our most important resources. However, it’s also a major factor affecting energy costs. That’s why it’s worthwhile taking a closer look at your consumption of compressed air to see where you can save energy.

The biggest compressed-air losses occur on the way to the application itself

Did you know that up to 50% of the compressed air generated is wasted by using compressed-air systems that are not, or only poorly, optimised? Although pressure loss is a well-known issue, a study conducted by the European Commission revealed that only 9% of respondents investigate the causes of excessive compressed-air consumption. 75% indicated they lacked the necessary expertise to do so. Our mission is to change this, as the reasons behind an unnecessary loss of compressed air are relatively simple to find.
This article focuses on how to optimise your compressed-air components, provides information on how to identify leakages and helps you when choosing which tool is best for you. After all, we must remember that the unnecessary costs do not occur where the air is supplied, but on the way to the application itself.

A drop in pressure significantly reduces efficiency

Pneumatic tools are designed for a certain working pressure, usually 6.3 bar. This is assumed to be dynamic pressure which is set when the valves are open. It is always slightly lower than the static operating pressure that is read off on the pressure gauge with a closed valve. If the pressure drops, the compressor output is significantly reduced. As such, it often seems obvious to start looking for the problem on the compressor. However, what you should do instead is check the compressed-air components first, particularly the connection points.

How much compressed air are you using?

Do you need to rethink your consumption of compressed air? This is true for eight in every nine companies. Take the time to take stock and see where your company is at. Now is the perfect time to do it, as any unnecessary wastage of compressed air will be felt all the more acutely in the current energy crisis. The following table provides an example of how rising energy prices can have an additional impact on your costs.

In order to calculate your actual compressed-air costs, we recommend obtaining expert advice from professionals or specialist companies. We would then be pleased to advise you on which compressed-air components or tools would be the right ones for you.

How to prevent high follow-on costs

It’s not just an unnecessary loss of compressed air that you have to bear in mind – incorrectly sized compressors or compressors that run for too long also cause costs to skyrocket.
If you’ve noticed that your work time per unit produced increases when using compressed air, it’s time to take action. If you fail to do so, the costs of all stages involving the generation of pressure will also increase, potentially amounting to several tens, of not hundreds, of thousands of euros each year. This is exacerbated by higher maintenance costs and the costs of purchasing new tools as a result of the increased stress placed on the tool and compressor.

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The key to making savings using a drilling machine by way of example

If we look at a drilling machine by way of example we can see what impact an insufficient dynamic pressure at the tapping point has on the overall costs. If the compressed air were to fall by just 0.5 bar, the drilling time alone will increase by some 60%! This would cause increased costs of more than 240 euros a month. Unfortunately, this example is commonly found in most companies.

Your step-by-step guide to reducing pressure losses

  • Step 1: Identify the main cause of leakages

    Check your compressed-air system regularly for leakages. Start with any connected accessories. We show you the steps you can take.


    70 to 80 percent of leakages can be traced back to sub-optimal use of couplings. Generally speaking every coupling is a potential source of pressure loss, so it’s important to carefully consider how many couplings to use and when to use them. Of course, sometimes you just can’t do without them. Whether or not you need a coupling depends on things like how often you want to change the tool. If the couplings are exposed to strong vibrations (as is the case with impact wrenches and chisel hammers), we recommend using a short hose (0.3 to 0.7 metres) before the main hose.

    Make sure to replace old couplings, as old, self-bleeding quick-change couplings made of brass are particular problem spots when it comes to compressed air. This is because they have a ball located in the air flow. Modern quick-change couplings drastically reduce losses (to around 0.2 bar), meaning they pay for themselves very quickly. Practical experience has shown that switching to modern, perfectly adjusted couplings enables you to save up to 240 working minutes a day (source: Our video clearly explains how the choice of coupling affects the flow of compressed air, using the HOLEX industrial quick-change coupling by way of example.

    Are you using the latest couplings? The GARANT safety shut-off is a high-performance coupling with extremely high flow rate capacity.

    Hose length and diameter

    Pressure losses arising in a connection hose are much higher than in a pipe of the same length, which is why they should be kept as short as possible. It’s also crucial to ensure the correct hose diameter, as transitions from one diameter to another will cause particularly high pressure losses. For example, the ideal hose diameter for a screwdriver is between 6 and 13 mm, and it should be between 3 and 5 metres long. If possible, avoid the use of coiled hoses as they generate higher frictional resistance compared with straight hoses. This makes them less efficient when it comes to the flow of compressed air.


    The connection thread on the tool for the hose couplings varies from 1/8 to 1/2 inch. In order to avoid leakages, it is also essential to select the right nipple for each pneumatic tool.

    Reducing the use of oil lubrication

    Oilers cause pressure losses. Avoid the use of oil lubrication if possible. Turbine-driven tools or tools equipped with oil-free vane motors do not require oil lubrication. If oilers are required, they should be kept 3 to 5 metres away from the tool.

    Oil atomiser from Riegler for ensuring a reliable supply to oil-lubricated pneumatic tools. Available in 1/4, 3/8 and 1/2 inch.

  • Step 2: Measuring and adjusting the dynamic pressure

    After optimising the surrounding components, the tool working pressure will probably still be too high. You can reduce it using the rotary knob on the service unit. Flowmeters can be connected to all compressed-air systems.

    If the pressure drops below 2 bar, air consumption will increase by 25 percent. It will be in the ideal range at 6.3 bar.

  • Step 3: Make sure to select a high-quality tool

    The last link in the compressed-air chain is the pneumatic tool itself. Don’t take any chances here – look for a top-quality, durable tool. After all, a chain is only ever as strong as its weakest link. Choosing the correct tools is always worth it and will bring lasting benefits. Our network of technical advisers and application technicians would be glad to help you choose the right tool for you and the appropriate compressed-air components. It is important to choose the right dimensions and settings and service them well, otherwise your productivity will drop drastically.

    Tip: Using consistent components, i.e. compressed-air components from one system, will give you the best-possible tool set-up.

    The high-quality GARANT compressed-air blow gun stands out with its easy-to-use interchangeable nozzles.

  • Step 4: Invest in a service unit

    Compressed-air service units consist of a compressed-air filter, a pressure regulator and a lubricator or oiler. These so-called FRL units (Filter, Regulator, Lubricator) ensure that the pneumatic tool receives clean, optimally lubricated air at the optimal pressure. They also filter out moisture and dust particles. Installation tip: The device should be positioned directly at the tapping point on the pipe in order to prepare the compressed air for the connected tools. This will considerably increase both the service life and efficiency of your pneumatic tools.

    Your ideal solution when it comes to optimising the compressed-air supply: The RIEGLER service unit is individually adjustable and available with and without an oil atomiser.

  • Step 5: Ensure safety at work

    If you use the wrong working pressure, compressed air can also pose a safety risk. This, in turn, complicates your workflows or necessitates the use of additional safety measures. Take noise emissions as one example: A working pressure of around 8 bar is already sufficient to damage your hearing due to the higher noise emissions on the tool. This can be avoided by optimising your compressed-air supply. Hoses can also pose a safety risk because if they are not properly rolled up, they can become difficult to handle and even pose a risk of accidents to employees. To counteract this, use a hose reel with a hose guide and controlled retraction system, as this will make the hose much easier to handle and increase safety.

    The hose in the GARANT safety hose reel comes in the signal colour orange to make it more visible and reduce the risk of accidents.

In a nutshell: Work correctly with pressure without feeling the pressure.

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