Tag: air jet drying

The ROI of Engineered Air: Why Your Compressed Air Setup Is Costing You More Than It Should

Published on by Tyler DanielLeave a comment

The electrical costs associated with generating compressed air make it the most expensive utility in any industrial facility. In order to help offset these costs, it’s imperative that the system is operating as efficiently as possible. Taking a holistic look at your system, from the distribution piping down to the individual nozzle, reveals several opportunities to reduce your energy footprint without sacrificing performance.

The first and most impactful step is to identify and fix leaks within the distribution piping. According to the Compressed Air Challenge, up to 30% of all compressed air generated is lost through leaks, which can account for nearly 10% of your overall energy costs. These leaks do more than just waste money; they cause a drop in system pressure that forces equipment to cycle on and off more frequently. This leads to rejected products, increased maintenance, and unscheduled downtime. You can perform a professional audit using an EXAIR Model 9207 Ultrasonic Leak Detector to pinpoint these losses or hire an energy audit service to lead the process.

Pressure Regulators “dial in” performance to get the job done without using more air than necessary.

While fixing leaks addresses the distribution side, you must also look at how that air is managed at the point of use. Regulating the supply pressure for individual devices is a massive opportunity for savings. Most shop air runs at a default 80-90 PSIG or higher, but many general blowoff applications can be accomplished with the same level of efficiency at 50 or 60 PSIG. By installing pressure regulators at each device, you reduce consumption immediately. For every 2 PSIG you reduce at the compressor, you save approximately 1% in energy costs.

Drilled and soldered copper pipe.

The hardware you choose for these applications is equally critical. Inefficient, homemade solutions like crimped copper tubes are often thought to be cheap, but the cost to supply them with air far outweighs the price of an engineered solution. An engineered nozzle, such as EXAIR’s line of Super Air Nozzles, utilizes the Coanda effect to entrain free ambient air into the stream. This maximizes force while keeping compressed air usage to an absolute minimum.

Finally, the overall health and operation of the system rely on consistent maintenance and simple human intervention. Inadequate compressor maintenance leads to lower efficiency and higher heat, so a regular preventative schedule for heat exchangers, lubricants, and filters is non-negotiable. Beyond mechanical upkeep, the simplest method to save is to shut off the air when it isn’t in use. Whether operators are on lunch or a shift has ended, simply turning a valve to stop the supply of air is a no-brainer that prevents leaks from wasting power during downtime. Each of these steps, while minute on their own, works together to significantly reduce your overall air consumption and energy costs.

Tyler Daniel, CCASS

Assistant Application Engineering Manager

E-mail: TylerDaniel@EXAIR.com

Supporting The Next Generation of Engineers

Published on by Brian FarnoLeave a comment

A while back, I was lucky enough to spearhead a donation from EXAIR to The University of Cincinnati’s 1819 Innovation Hub Makerspace. For the past several years, we have been sponsoring the UC Combat Robotics club, which uses the Makerspace to build its bots and learn more about the applications of its course of study. This facility is open to all students who attend the university. The course of study does not matter; the desire to learn appropriate usage of equipment and a determination to create are all that is needed.

The space puts every student through training for safety and manufacturing processes, if needed, and then the students can operate on their own. The staff in the space are often students themselves, or they are people with years of industry experience to share with the students utilizing the space. This 12,000 square-foot makerspace and fab lab is home to a variety of equipment that can all be seen on their equipment listing here. You can go in and learn how to use anything from a sewing machine or soldering iron, all the way up to a 4-axis CNC machine. If you just have an idea and desire to learn, the staff will even train you on how to make the idea come to life and do it all safely in a semi-controlled environment.

When we saw the need for safe, efficient use of compressed air in this space, EXAIR stepped in to help. We outfitted every air drop in the facility and every machine with an EXAIR VariBlast Precision Safety Air Gun w/ Chip Shield and Nano Super Air Nozzle. This will help keep all the operators safe by eliminating the risk of exceeding 30 psig dead-end pressure and also reducing the operating noise level to below the OSHA standard of 85 dBA, all the way down to 75 dBA. By keeping the entire facility uniform, they are also able to make purchasing new units easier when they are needed.

We also helped them assemble their new EXAIR Chip Trapper System to help recycle the coolant from their CNC machines and help them extend the life of their cutting fluid by being able to remove all the debris from their sumps, reducing the surface area on which bacteria can grow.

On top of both of these, we helped them to see how easy a Cold Gun is to mount onto the side of virtually any machine in their shop, even the industrial sewing machine, and showed them just how beneficial it can be. There was actually a group of students using one of the stationary belt sanders, and we were able to connect the Cold Gun to the closest air drop, use the magnet to hold it onto the housing of the sander, and position the single-point cold outlet to the contact point to keep the sandpaper and material cooler to prevent loading up of the sandpaper.

These were just a couple of the products we were able to share with them in order to help outfit their space with safe and efficient compressed air products. I’ve condensed the entire event down into a 50-second clip if you would like to watch. I feel like we need some classic Benny Hill music in the background.

I think the best part of this experience for me was the discussion that evolved as we unpacked all the items. We had already had lots of chatter back and forth around what their system is capable of and also what they plan to do with the EXAIR products. Then, as we are unpacking and discussing the capabilities, more applications started to come up. I have a feeling this is just part of what happens in this space. Ideas are born, then brought into fruition, all within these walls.

Special thanks to Benjamin Jones and his team for letting us be part of training the future leaders in the industry.

Brian Farno, MBA – CCASS Application Engineer

BrianFarno@EXAIR.com
@EXAIR_BF

Efficiency: Air Tools That Pay for Themselves

Published on by Jordan T ShouseLeave a comment

In manufacturing, compressed air is often called the “fourth utility.” Like electricity, water, and gas, it’s essential for keeping production running. But unlike the others, compressed air is frequently misapplied, or wasted, making it one of the most expensive utilities in a plant.

The good news is that the right tools can dramatically improve compressed air efficiency. In many cases, they pay for themselves quickly through energy savings, reduced downtime, and improved productivity. That’s where EXAIR engineered compressed air products come in.

Let’s look at a few examples of air-powered tools that deliver measurable ROI.

Air Amplifiers: Move More Air with Less Energy

Moving large volumes of air is a common requirement in industrial environments—whether for ventilation, drying, cooling, or removing fumes. Traditional compressed air nozzles can consume a lot of air while producing relatively small airflow.

Model 120024 4″ Super Air Amplifiers are commonly used to exhaust welding smoke and fumes.

Air Amplifiers use the Coandă effect to entrain large volumes of surrounding air, dramatically increasing airflow while minimizing compressed air consumption. In many cases, they can increase airflow up to 25 times the supplied compressed air.

This means you can:

  • Move more air with less compressed air input
  • Reduce overall compressor load
  • Lower energy costs

For applications like ventilating enclosures, exhausting smoke or fumes, and cooling parts, air amplifiers can often replace inefficient open pipe blow offs or multiple air jets.

Super Air Knives: Efficient Blowoff for Drying and Cleaning

Blow off is one of the most common—and most wasteful—uses of compressed air. Many facilities still rely on drilled pipe or open copper tubing, which wastes enormous amounts of compressed air while generating excessive noise.

Super Air Knives create a laminar sheet of high-velocity air across the entire length of the knife. This provides powerful and uniform blow off while using significantly less compressed air than traditional methods.

Benefits include:

  • Reduced compressed air consumption
  • Uniform drying and cleaning
  • Low noise operation
  • No moving parts and minimal maintenance

Applications range from removing water after washing processes to blowing debris off conveyors, sheets, or molded parts.

Efficiency in compressed air usage isn’t just about saving energy—it’s about improving productivity, reliability, and process performance. When you replace inefficient air practices with engineered solutions, you often gain benefits across the entire operation.

If you’re looking to reduce compressed air waste or improve a blow off, cooling, or static problem, the right air tool may be a small investment with a big return.

And in many cases, it’s an investment that pays for itself.

Jordan Shouse, CCASS

Application Engineer / Sales Operations Engineer

Send me an email

Stop Starving Your Tools: How to Beat Pressure Drop in Compressed Air Systems

Published on by Al WooffittLeave a comment

If you’ve ever noticed your pneumatic tools losing their “punch” or your machines throwing low-pressure faults, you’re likely dealing with the silent thief of industrial efficiency: pressure drop.

Pressure drop is the reduction in air pressure from the compressor discharge to the actual point of use. It’s not just a performance issue; it’s an expensive energy drain. Most facilities try to fix it by cranking up the compressor pressure, which is like trying to fix a leaky garden hose by turning the spigot up—it just wastes more energy and stresses the system.

Here is how to tackle it and how EXAIR products help you win the fight.

1. Size Matters (The Piping Dilemma)

The most common cause of pressure drop is undersized piping. Think of your compressed air system like a highway; if you try to cram 1,000 cars into one lane, traffic slows down.

  • The Fix: Always size your main headers and distribution lines for the maximum potential flow, not just your current average. Using a “loop” system instead of a single “dead-end” header allows air to flow in two directions to reach a high-demand tool, effectively doubling the capacity of the pipe.

2. Smooth Out the “Plumbing”

Every elbow, tee, and valve creates friction. Standard plumbing fittings often have sharp turns that create turbulence, slowing down the air.

  • The Fix: Minimize the use of 90-degree elbows where possible (use long-radius sweeps instead) and ensure you aren’t using restrictive, undersized quick-connect couplings at the tool.

3. Eliminate the “Spiky” Demand

Large, intermittent air consumers can cause the pressure in the entire line to “sag.”

  • The Fix: Use a receiver tank (surge tank) near the point of high demand. This acts as a local battery, providing the necessary volume instantly without pulling from the main header and causing a system-wide drop.

How EXAIR Combats Pressure Drop

EXAIR is built on the philosophy of “doing more with less.” Our products are engineered specifically to maximize force while minimizing air consumption, which is the most effective way to reduce pressure drop at the end of the line.

Engineered Super Air Nozzles

EXAIR Nozzles

Standard “open pipe” blowoffs are air hogs. They create massive localized pressure drops because they dump huge volumes of air inefficiently. EXAIR Super Air Nozzles use a small amount of compressed air to entrain large volumes of surrounding “free” room air.

  • The Result: You get high-velocity discharge with significantly lower compressed air demand, keeping the pressure stable for the rest of your tools.

Digital Flowmeters

You can’t fix what you can’t measure. EXAIR Digital Flowmeters allow you to see exactly where the air is going in real-time. By monitoring different zones of your plant, you can pinpoint exactly which branch or machine is causing the pressure drop, making it easy to identify leaks or bottlenecks.

Precise Pressure Regulators

Using more pressure than a process requires (artificial demand) is a leading cause of system-wide drops. EXAIR Pressure Regulators ensure that each application gets exactly the PSI it needs and nothing more. By lowering the pressure at the point of use to the minimum required, you preserve the “headroom” in your main lines.

The Bottom Line, combating pressure drop is about velocity and volume. By optimizing your piping layout and switching to high-efficiency end-use products like our intelligent, point-of-use compressed air products, you stop starving your tools and start saving on your electric bill.

If you’re ready to stop turning up the compressor, and start fixing the flow, give us a call!

Al Wooffitt
Application Engineer

Send me an Email
Find us on the Web
Like us on Facebook
Twitter: @EXAIR_AW

Banner image: Money-Burn-Gunjan-Pixaby