How Much Compressed Air Can YOU Save?

I had the pleasure of speaking with a service technician with a pneumatics company recently…he was finishing up a large project for a customer that involved modifying some machinery to reduce compressed air consumption. After the performance of the newly modified machinery was verified, the customer wanted to know how they could be sure they were indeed saving the amount of air that the project engineer estimated that they would save. That’s when he called to ask about EXAIR Digital Flowmeters.

EXAIR Digital Flowmeters are available for iron pipe up to 6", and copper pipe up to 4".

EXAIR Digital Flowmeters are available for iron pipe up to 6″, and copper pipe up to 4″.

If you follow the famous (to EXAIR blog readers, anyway) Six Steps To Optimizing Your Compressed Air System, you know that this is Step #1. So, was it too late to apply a measurement device? Of course not…in this case, the machinery’s original published compressed air consumption rates were used to compare the new actual usage according to the Digital Flowmeter, and it was simple arithmetic from there.  They installed a Model 9095 Digital Flowmeter for 2″ Iron Pipe on the header supplying the machinery, and were not only impressed with the results of the upgrade, but also enjoy the at-a-glance verification of air flow.

Naturally, if you ask for our assistance in the planning stages of a compressed air optimization project, we’ll encourage you to follow the Six Steps in order. Depending on the nature of the problem(s) and the size & complexity of your system, there may be more or less attention paid to certain steps than others.

For instance, a system that was originally equipped with Receiver Tanks at predetermined locations might allow us to skip right over Step #5. If engineered or automated controls, like our EFC Electronic Flow Control & Pressure Regulators are already incorporated, we can check off Steps #4 and #6.

Receiver Tanks are an ideal solution for intermittent demands for high volumes of compressed air.

Receiver Tanks are an ideal solution for intermittent demands for high volumes of compressed air.

The EFC Electronic Flow Control uses a photoelectric sensor to turn air flow on & off, as needed.

The EFC Electronic Flow Control uses a photoelectric sensor to turn air flow on & off, as needed.

Use an EXAIR Pressure Regulator to limit your air supply pressure to the value necessary to accomplish the task.

Use an EXAIR Pressure Regulator to limit your air supply pressure to the value necessary to accomplish the task.

Regardless of “where” you start with your optimization project, “when” you start should be right now. Leaks and inefficiencies won’t fix themselves. Give us a call, and let’s get started.

Russ Bowman
Application Engineer
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