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Installing Compressed Air Piping Properly

14 April 2023

Many industrial buildings like manufacturing plants and factories take advantage of equipment pieces and tools that can carry out processes needed to produce a wide array of parts. These things may require a lot of power. Hence, they are often connected to electricity.

But electrical power can pose a safety hazard to these properties, especially if some pieces of the machine overload. Without any deterring agent, they might cause damage to other elements in industrial buildings. They may likewise inflict injuries on people nearby. And so, as an alternative to electrical power, property owners turn to compressed air as their power source.

An Overview of Compressed Air

Compressed air is comprised of nitrogen, oxygen, and other elements that can possess a specific amount of kinetic energy. Generally, if the mean kinetic energy of the air molecules is large, it means that the air temperature will be high. Alternatively, the air temperature will be low if the kinetic energy of the same molecules is small. Now, to ensure that the air molecules can release the needed energy of equipment pieces and others, they should undergo compression.

Compressing the air molecules, after all, allow them to move rapidly. As they move quickly, their temperature increases. Doing the compression inside a smaller space can then bring the molecules closer together, storing and transmitting energy whenever necessary.

As opposed to other power sources, compressed air is more flexible and versatile. It is also safer, minimising the chances of damaging the properties or injuring people.

Installing Compressed Air PipingĀ 

The effectiveness of compressed air storage and application can be determined by the condition of its piping. Compressed air piping is crucial to industries as it allows the transfer of the right amount of compressed air to various equipment pieces. With the right piping, it can easily make the transfer energy efficient. It can also reduce downtime, minimise maintenance costs, and increase the productivity of the industrial operation.

If you will be adding and installing compressed air piping in your industrial plant, you must consider the following elements.

  • Materials: One key element you should consider when adding and installing compressed air piping is the materials that will be used. Many materials can be used to generate pipes and other components. These materials include steel, aluminium, and PVC. Aluminium is a great material as it does not corrode and degrade. It is also lightweight. Steel is also durable as it does not rust and cannot be damaged easily by elements. PVC, alternatively, can resist corrosion and other damaging elements without costing too much money.
  • Dimensions: The dimensions of your compressed air piping should fit the primary applications of your property as altering the diameter or width of the pipes can be difficult. Failure to choose the right dimensions may likewise deter the pipes from keeping up with the demand for compressed air.
  • Layout: Layout is another element you should consider since compressed air piping installation can consume too many resources. Choosing your layout may depend on the size and shape of your place. A straight piping layout or linear layout can be useful for long and narrow factories. A looping piping layout or ring-main layout, alternatively, works well with a factory or industrial plant with a square shape.

If you need help with the selection and installation of compressed air piping, you can contact us at Redrock Contracting.

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