If you’re reading the EXAIR Blog, you’re probably well aware that compressed air is the most expensive utility in an industrial environment. The average cost to generate 1000 Standard Cubic Feet of compressed air is $0.25. If you’re familiar with how much air you use on a daily basis, you’ll understand just how quickly that adds up.
To make matters worse, many compressed air systems waste significant amounts of compressed air just through leaks. According to the Compressed Air Challenge, a typical plant that has not been well maintained will likely have a leak rate of approximately 20%!! Good luck explaining to your finance department that you’re carelessly wasting 20% of the most expensive utility.
The six steps to optimizing your compressed air system is something we cover a fair amount on this blog. And there is a real reason for that. Yes, we sell compressed air products. But we are also aware compressed air costs money to generate, so using this source responsibly is very important.
This is where the 6 steps come into play, but today we are just covering Step 3. Which is upgrading your blow off, cooling and drying operations using engineered compressed air products. (If you want to read about the other 5 steps, check them out here, Step #1, Step #2, Step #4, Step #5, Step #6)
I compare step three to replacing your house windows. We recently got some prices to replace our windows, but along with that comes the cost savings we expect to get as they are better designed now than in the 1990ies to retain your temperature inside. Thus reducing the cost to cool and heat your home.
Similar to my “upgrade” to new windows, upgrading blow offs, cooling and drying operations using engineered compressed air products is Step 3 in EXAIR’s Six Steps To Optimizing Your Compressed Air System. We’ve assigned an order to these steps in accordance with basic good engineering practice & protocol, but it’s not necessary to follow them in any particular order. In fact, all six steps really don’t apply to every single compressed air system.
Step 3 does apply to most systems, though. I spent a fair amount of time in all sorts of industrial facilities in my previous roles, and almost all the time, regardless of the industry or the size of the facility, the maintenance and production part of the facility used air guns. However, I don’t recall ever seeing an engineered nozzle on one before I came to EXAIR. Since then, I’ve worked with a bunch of users to dramatically reduce compressed air consumption by replacing their cheap and inefficient air guns with EXAIR Safety Air Guns, or by retrofitting EXAIR Super Air Nozzles onto their existing air guns. We actually carry adapters to fit our Super Air Nozzles to a number of readily commercially available air guns for that very purpose.
In addition to air guns & nozzles, our Air Knives have a long history of replacing drilled pipes & pipe manifolds with inefficient nozzles used to make a curtain of air flow. The following chart details the savings you can get from the use of a 24″ Super Air Knife instead of similar devices for a 24″ wide air curtain:
Our Case Study Library documents many real-world situations where customers worked with us to gather & publish “before/after” documentation, proving the benefits of Step 3. I encourage you to check those out, and if you think you might have an opportunity to do a Case Study with us, we offer discounts or credit for that…give me a call.
Jordan Shouse
Application Engineer
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