Category: Air Knife

Step 3: Upgrade Your Blow off, Cooling, and Drying Operations

Published on by Al WooffittLeave a comment

In the world of manufacturing, compressed air is often called the “fourth utility.” Itโ€™s essential, but it’s also expensive to produce. If youโ€™re following theย Six Steps to Optimize Your Compressed Air System, Step 3 is where you stop the bleeding.

Step 3, dear reader, is the subject of today’s blog.

Upgrading your blow-off, cooling, and drying operations from “homegrown” solutions to engineered products is one of the fastest ways to slash energy costs and improve plant safety.

The Problem with “In-House” Solutions

Many plants rely on makeshift blow-off devices: crimped copper tubes, pipes with drilled holes, or basic air nozzles found at a hardware store. While they seem “free” or cheap, they are incredibly inefficient.

  • High Air Consumption:ย They lack the physics to move air efficiently, requiring massive volumes of compressed air to do the job.
  • Dangerous Noise Levels:ย Drilled pipes produce a high-pitched shear that often exceeds OSHA noise exposure limits.
  • Safety Hazards:ย If a pipe or open tube is dead-ended against skin, it can lead to serious injury or air embolism.

The Engineered Solution: EXAIR Technology

This is whereย EXAIRย engineered compressed air products change the game. Unlike a standard pipe, EXAIR products use theย Coanda effectย to “entrain” the surrounding room air. For every part of compressed air used, an EXAIR nozzle or air knife pulls in 30 to 40 parts of “free” ambient air.

EXAIR Intelligent Compressed Air Products such as (left to right) the Air Wipe, Super Air Knife, Super Air Nozzle, and Air Amplifier are engineered to entrain enormous amounts of air from the surrounding environment.

If you are drying a conveyor belt or cleaning wide sheets of material, a drilled pipe is a money pit. Anย EXAIR Super Air Knifeย provides a high-velocity, uniform sheet of air across the entire surface. Itโ€™s quiet (around 69 dBA for most applications) and reduces air consumption by up to 80% compared to open headers.

For targeted blow-off or part ejection,ย Super Air Nozzlesย replace open tubes and cheap nozzles. They provide a forceful, concentrated stream of air while meeting OSHA requirements for skin pressure and noise. You get more “push” for significantly less “psi.”

Step 3 isn’t just about blowing air; it’s about optimizing how air manages temperature and waste. Fromย Vortex Tubesย that provide spot cooling without refrigerants toย Air Amplifiersย for smoke and fume removal, these tools ensure you aren’t overworking your compressors for simple tasks.

The Bottom Line

Upgrading to EXAIR engineered products isn’t just a maintenance fix; itโ€™s a financial strategy. Most facilities see aย return on investment (ROI) in just weeksย through reduced energy bills.

By replacing inefficient, loud, and dangerous blow-off methods with engineered solutions, youโ€™re not just optimizing your compressed airโ€”youโ€™re creating a quieter, safer, and more profitable shop floor.

Al Wooffitt
Application Engineer

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How the Coanda Profile Drives Efficiency in EXAIR Products

Published on by Jordan T ShouseLeave a comment

In compressed air applications, efficiency often comes down to how effectively you use the air you already have. One of the most important aerodynamic principles that allows modern air-powered devices to operate efficiently is the Coanda Effect. This phenomenon is the foundation behind several EXAIR engineered products, enabling powerful airflow while minimizing compressed air consumption.

Understanding how the Coanda profile works can help engineers and plant managers optimize processes such as drying, cooling, cleaning, and conveying.

Compressed air flows through the inlet (1) to the Full Flow (left) or Standard (right) Air Knife, into the internal plenum. It then discharges through a thin gap (2), adhering to the Coanda profile (3) which directs it down the face of the Air Knife. The precision engineered & finished surfaces optimize entrainment of air (4) from the surrounding environment.

What Is the Coanda Effect?

The Coanda Effect describes the tendency of a fluid streamโ€”such as airโ€”to follow along a nearby curved surface instead of continuing in a straight line. As the air travels along this surface, it pulls surrounding air into the stream, creating a region of low pressure and dramatically increasing total airflow.

In simple terms:

  1. Compressed air exits a small opening.
  2. The air adheres to a curved surface (the Coanda profile).
  3. This creates a low-pressure area.
  4. Surrounding air is entrained, or pulled into the airflow.

The result is a much larger volume of moving air than the compressed air supply alone would create.

This principle was originally studied by aeronautical engineer Henri Coandฤƒ in the early 1900s while researching airflow over aircraft surfaces.

EXAIR Products That Use the Coanda Profile

EXAIR incorporates this aerodynamic design into several of its Intelligent Compressed Air Productsโ„ข.

1. Air Knives

EXAIR Air Knives use a Coanda profile to create a wide, high-velocity sheet of air across the entire length of the unit.

Examples include:

  • EXAIR Standard Air Knife
  • EXAIR Full-Flow Air Knife
  • EXAIR Super Air Knife

Inside these units, compressed air enters a plenum chamber and exits through a narrow slot. The air then follows the curved Coanda surface, turning approximately 90ยฐ and flowing down the face of the knife.

As the air moves along the profile, it entrains large volumes of surrounding airโ€”up to 30-40 parts ambient air for every 1 part of compressed air.

Common applications include:

  • Parts drying after washing
  • Conveyor cleaning
  • Web or sheet drying
  • Cooling components
  • Pre-paint blowoff

2. Air Amplifiers

Another product that relies heavily on the Coanda profile is the Air amplifier.

Super Air Amplifier Family

Example:

  • EXAIR Super Air Amplifier
  • EXAIR Adjustable Air Amplifier

Instead of producing a flat airflow like an air knife, air amplifiers generate a conical air stream. Compressed air flows across a circular Coanda profile that draws in large amounts of surrounding air.

This creates amplification ratios up to 25:1, meaning the airflow produced is far greater than the compressed air supplied.

Typical uses include:

  • Cooling hot parts
  • Ventilating smoke or fumes
  • Circulating air in enclosures
  • Removing heat from equipment

3. Air Wipes

EXAIR also applies the Coanda profile in a circular configuration for drying or cleaning cylindrical materials.

Super (left) and Standard (right) Air Wipes come in sizes from 1/2″ to 11″.

Example:

  • EXAIR Air Wipe
  • EXAIR Super Air Wipe

These devices create a 360-degree ring of air that surrounds rods, tubes, wires, or cables. As air follows the Coanda profile around the ring, it entrains surrounding air and produces a strong, uniform drying or blowoff action.

Applications include:

  • Drying wire or cable
  • Removing coolant from tubing
  • Cleaning rods or extrusions

The Coanda Effect might seem like a theoretical concept, but it has a very practical impact on industrial operations. By carefully designing curved surfaces that guide airflow and entrain surrounding air, EXAIR products turn a small supply of compressed air into a powerful and efficient airflow solution.

Whether drying parts, cooling electronics, or removing debris from a conveyor, the Coanda profile allows EXAIR products to deliver maximum performance with minimal energy use.

Jordan Shouse, CCASS

Application Engineer / Sales Operations Engineer

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Changing a Shim on a PVDF Super Air Knife

Published on by Al WooffittLeave a comment

Our Super Air Knives are one of our most popular products, and with good reason. They are quiet, efficient, and versatile. We offer them in a wide array of stock lengths, ranging from 3″ to 108″, and in several stock materials โ€” aluminum, stainless steel, both 303 and 316, as well as PVDF.

All Super Air Knives come with a 0.002″ shim installed that sets the gap thickness, which determines the force and flow they will produce. When combined with our shim sets, you can change or stack shims to put the Super Air Knife into a whole new performance band, adding to their versatility.

Changing shims in our aluminum and stainless steel Super Air Knives couldn’t be easier. Loosen the screws to remove the cap from the body, add or replace the shim, and tighten the cap screws to 7.5ft-lbs. For our PVDF Knives, we have to take a different approach. Due to the softer nature of the material, the PVDF Super Air Knife needs to be ‘tuned’ to achieve the desired airflow. In this video blog, I walk you through the steps involved in changing a PVDF Super Air Knife shim.

If you would like to talk to an Application Engineer to discuss your Air Knife application, give me a call!

Al Wooffitt
Application Engineer

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Buy 1, Get 40 Free

Published on by Al WooffittLeave a comment

Buy one, get one free is a phrase many of us are familiar with. Most of the time it is a good thing; we all like free stuff. What would you say to buy one, get 30 free? Or even 40 free? That’s not far off how our Air Knives perform. They entrain large volumes of ambient air, so for every 1 SCFM of compressed air you are paying for, you are getting 30โ€“40 SCFM of additional free ambient entrained air.

So how are our Air Knives able to do this? We explain this phenomenon in more detail in this blog here, but in summary, a Super Air Knife takes advantage of the Venturi Effect. Named after Giovanni Venturi, who found out that when you increase the speed of a fluid through an orifice, the surrounding fluid will move along with it. This creates a region of low pressure, and the faster the speed, the lower the pressure. With low pressure, the air around rushes in to fill that gap and join the airstream. The quantity of ambient air that gets โ€˜pulledโ€™ into the airstream is entrained air, or free air.

The engineered surface of the Super Air Knife is designed to minimize as much loss in air speed as possible, which maximizes the amount of free air that is being entrained. The ratio between free air and compressed air used is called the amplification ratio. Super Air Knives have an amplification ratio of 40:1, with our Standard Air Knives having an amplification ratio of 30:1. For comparison, a pipe with holes drilled will have an amplification ratio of between 2:1 and 5:1. As you can see, with a Super Air Knife you are getting a much better deal on your compressed air usage.

This additional free air adds more mass, which allows the Super Air Knife to do more work. You will get a harder hitting force than a comparable product while using less compressed air. This makes Super Air Knives especially good for cooling and drying applications, where moving large volumes of air is ideal.

EXAIR Intelligent Compressed Air Products such as (left to right) the Air Wipe, Super Air Knife, Super Air Nozzle, and Air Amplifier are engineered to entrain enormous amounts of air from the surrounding environment.

It’s not just our Air Knives that take advantage of the Venturi effect to produce large amplification ratios. Many of our products are designed with efficiency in mind, including our Air Amplifiers, Air Wipes, and Air Nozzles and Jets, to name a few. If you would like to discuss how an EXAIR engineered compressed air product can amplify your process, then give us a call!

Al Wooffitt
Application Engineer

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Twitter: @EXAIR_AW