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How to optimise your compressed air piping system?

29 October 2021
SENFLUID®, Compressed Air, Piping System and Workshop Equipments, Pneumatic Tubes and Hoses
Compressed air piping system in aluminium

In the industrial sector, compressed air plays a crucial role in a wide range of applications, from manufacturing to assembly to powering machinery. However, effectively managing compressed air requires careful attention to detail to ensure optimal performance and efficient energy use. Indeed, poorly designed or maintained compressed air networks can lead to significant energy losses, costly downtime, and decreased productivity. That's why it's essential for businesses to understand the importance of optimizing their compressed air network to maximize operational efficiency and reduce costs. In this regard, this introduction will explore the key aspects of optimizing compressed air networks and the benefits it can bring to industrial enterprises.

To ensure the proper functioning of a compressed air network, it is crucial to consider and control various parasitic phenomena that can disrupt its effectiveness. Among these phenomena are:

  1. Vibrations: Vibrations can be generated by compressors, pneumatic equipment, or even by the passage of compressed air through pipelines. They can cause damage to the network components and compromise its structural integrity.
  2. Expansion/contraction: Temperature variations can cause the expansion or contraction of the materials constituting the compressed air network. If these variations are not taken into account, they can cause mechanical stress on the pipes and fittings, leading to leaks or ruptures.
  3. Condensates: Moisture contained in compressed air condenses when it cools as it passes through pipelines. This accumulation of condensates can lead to corrosion of the network components and reduce the quality of the compressed air, which can affect the performance of the equipment powered by this network.
  4. Pressure losses: Pressure losses occur when compressed air encounters obstacles or changes direction in the network, resulting in a decrease in its pressure and flow rate. These pressure losses can reduce the system's efficiency and require overcompensation from compressors, leading to increased energy consumption.

In order to optimise the performance of your compressed air piping system and to work in the best conditions, it is essential to follow the following 6 basic rules:

1- SET UP the main network in a "closed loop" configuration in order to limit pressure losses.
Indeed, the closed-loop configuration allows pressure losses to be reduced by half compared to an antenna configuration.
SENfluid : compressed air piping system in aluminium
2- CHOOSE the diameter of the tubes judiciously according to the desired use. For this, refer to the table « choice of the pipe diameter ».

Choosing the right tube diameter for your application will save energy, which in the medium to long term can be very beneficial. We also emphasize the importance of choosing aluminum tubes. We invite you to refer to our article addressing this topic: Why choose SENGA aluminium tubes for your compressed piping system?

 Aluminium pipes for compressed air system SENGA
3-  CONNECT the compressor to the piping system via a flexible hose, to avoid vibrations.
Vibrations can have a negative effect on your air system, especially in the attachment of the tubes. For better safety, it is strongly recommended to connect the compressor with a suitable hose.
Compressed air system flexible hose SENGA
4- PROVIDE for the absorption of expansion or contraction of the system by using flexible hoses. As a result of temperature variations the air system can expand or contract. Therefore, it is imperative that the network is free at the ends to absorb these movements. We recommend the use of hoses in the corners. The following formula can be used to calculate the linear displacement of the tubes:

ΔL = ΔT x L x a

ΔL [mm] :linear expansion or contraction 

ΔT [°C] : temperature variation between the use temperature and the network installation temperature 

L [m] : total length of the network 

a = 0,024 [mm/(m°C)] : coefficient of thermal expansion of aluminium

Expansion and contraction in compressed air piping systems
5-  INCLINE the main network slightly (1% slope) to allow water to flow towards the drain point. SENGA's range of piping system includes water separating T-fittings to prevent water from entering the downpipes of your compressed air system. Indeed, condensates form in compressed air lines primarily due to the process of air compression. When air is compressed, its temperature increases, leading to an increase in its capacity to retain moisture. However, when the air cools down after compression, this excess moisture condenses and forms water droplets, which settle in the pipelines. This phenomenon is similar to what happens when water vapor condenses on the cold walls of a glass or bottle. Condensates can also form due to varying ambient temperatures encountered by compressed air lines, as well as the ambient humidity present in the air drawn in during the compression process.
Water separating fitting for compressed air piping systems
6-  ARRANGE the fixing clips approximately every 2 m. Your installation must be securely fixed. The very light weight of SENGA pipes and fittings provides an additional guarantee of safety when fixing your piping system.
Fixing for aluminium pipe in compressed air piping systems

Conclusion

In conclusion, many parasitic phenomena can threaten the operation of your compressed air network: vibrations, thermal expansion or contraction, condensate formation, energy losses, etc. Optimizing your compressed air network appears essential to ensure its effectiveness, reliability, and durability. By adhering to the six rules outlined, you can maximize the performance of your system, reduce energy losses, and prevent the risks of failure. By constructing the network in a closed loop, carefully selecting tube diameters, accommodating thermal variations, and ensuring secure fastening, you can significantly improve the productivity of your installation while reducing operating and maintenance costs. Opting for quality solutions like those offered by SENGA enables you to achieve these objectives while ensuring the safety and performance of your compressed air system.

Discover our wide range of pipes and fittings for your compressed air piping system

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