Category: Air Knife

Thinner Shim In Super Air Knife Creates Fast ROI

Published on by Tyler DanielLeave a comment

EXAIR proves often that we’re able to work with you to create a customized solution that best serves your application. Recently I had the pleasure of working with a customer who wanted a better solution on their tissue paper converting machine. What they currently had was too loud, too inefficient, and they knew there was a better way.

The machine was an old rewinder used to convert webs of tissue paper ranging from 99-115” in width. Installed on the old machine was a 115” drilled pipe with 1/16” drilled holes spaced out every ½” along the length of the pipe. This was using a substantial amount of compressed air and was significantly louder than they would’ve liked. They purchased a new machine that had an EXAIR Super Air Knife already installed and working great, so they reached out to us for some help.

The customer conducted some time studies to determine exactly how much air this application required. The air blast ran for 500 seconds per hour, equating to 8.3min/hr of air usage. The operation runs 24/7, but with time spent doing changeovers the actual run time is closer to 20hrs.

20hrs x 8.2min = 166 min/day of air usage

166min x 365 = 60,590 min per year

A 1/16” unpolished, drilled hole will consume 2.58 SCFM at a pressure of 60 PSIG. With a total of 228 holes across the full pipe, this is quite a bit of compressed air.

2.58 SCFM x 228 = 588 SCFM of compressed air

588 x 60,590 min = 35,626,920 SCF

Considering the lightweight nature of the material, we recommended that the customer use our .001” shim to cut the flow from our stock Super Air Knives to their minimum. We recommended our Model 110054-.001 and Model 110060-.001. At 60 PSIG, a Super Air Knife with .001 shim installed will consume 1.15 SCFM/inch of knife length.

114 x 1.15 SCFM = 131 SCFM of compressed air

131 x 60,590 min = 7,937,290 SCF

Installing the Super Air Knives with .001” shim reduced their air consumption by 77% for a total air savings of 27,689,630 SCF each year. But, what does this mean in terms of money? To determine the cost of compressed air, we use the approximate value of $0.25/1000 SCF.

27,689,630 SCF x $0.25/1000 = $6,922.41

In just one year, on this one single machine, this customer was able to save almost $7k per year. These knives quickly pay for themselves, then begin to contribute to your bottom line. All of this in addition to lowering the sound level and providing a safer working environment for their operators. So how quickly did this customer end up seeing the payback on their two knives?

2025 list prices are:

Model 110054-.001 – $1,554.00

Model 110060-.001 – $1,667.00

Total investment: $3,221

Based on an operation of 166 min, the customer was saving $18.90 per day. To recoup the initial purchase costs, these would only need to be operated for 171 days. On the 171st day, they’ve already saved enough compressed air to account for their initial costs. Moving forward, that savings does not go away but continues to add to the bottom line.

If you have areas in your facility that are using air inefficiently, contact an EXAIR Application Engineer today.

Tyler Daniel, CCASS
Application Engineer
E-mail: TylerDaniel@EXAIR.com
X: @EXAIR_TD

Super Ion Air Knives Overview

Published on by Al WooffittLeave a comment

Static buildup is a common problem in many manufacturing environments that can present itself in a number of ways, including shocking operators; causing materials to stick, tear or jam; or affecting sensitive electrical equipment. If you have encountered static issues in your facility, or in your own home perhaps, you may have noticed that it tends to be more prevalent in colder and dryer environments. This is due to a reduction in moisture in the air. The water vapor found in air helps to dissipate electrical charges, so when there is less moisture, there will be a higher electrical charge. This is why we are currently running a promotion for all of our Static Elimination products, now through March 31st, 2025.

One such product line that is included in this promotion is our Gen4 Super Ion Air Knives. They are engineered to remove static electricity from plastics, webs, sheet stock and other product surfaces by bathing them in a laminar sheet of air that sweeps surfaces clean of static, particulate, dust and dirt. This causes production speeds, product quality, and surface cleanliness to dramatically improve.

When the Gen4 Super Ion Air Knife floods an area or surface with static eliminating ions – up to 20 feet away, the force can be adjusted from a “blast” to a “breeze”. The Gen4 Super Ion Air Knife is shock-less, and has no moving parts. It also requires only 3.7 SCFM of compressed air per foot of length at 5 PSIG. The sound level is also surprisingly quiet at 50 dBA for most applications.

Compressed air flows through an inlet (1) into the plenum chamber of the GEN 4 Super Ion Air Knife. The flow is directed to a precise, slotted orifice. The primary air flow exits, it creates a uniform sheet of air across the entire length that immediately pulls in surrounding room air (2). An electrically powered GEN 4 Ionizing Bar (3) fills the curtain of air with positive and negative charge. The airstream delivers these static eliminating ions to the product surface (4) where it instantly neutralizes static and cleans dust and other particulates.

If you would like to discuss your static elimination application, please don’t hesitate to give us a call.

Al Wooffitt
Application Engineer

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Easily Adjustable Force and Flow with EXAIR’s Super Air Knife Shim Sets

Published on by Tyler DanielLeave a comment

EXAIR’s industry-leading Super Air Knife dramatically reduces compressed air usage and noise when compared to other blowoff methods. The Super Air Knife is available in lengths ranging from 3”-108” and in Aluminum, 303 Stainless Steel, 316 Stainless Steel, and PVDF for corrosive applications. Even at high pressures of 80 psig, the Super Air Knife is able to maintain a sound level of just 69 dBA for most applications! Air is entrained from the ambient environment at a rate of 40:1, maximizing the force and flow from the Super Air Knife. In addition, these knives meet or exceed OSHA maximum dead-end pressure and noise requirements.

Adjustability of both the force and flow from the Super Air Knife is infinitely adjustable. Right out of the box from the factory the Super Air Knife comes stock with a .002” thick shim installed. This sets the gap between the body and cap of the knife and determines how much compressed air can flow through the precise, slotted orifice. An accessory that EXAIR has available for the Super Air Knife is the shim set. For the aluminum knives, a .001”, .003”, and .004” plastic shims come in the shim set. To reduce the flow and force, a .001” can be used. If more force is required, a thicker shim can be installed. For the stainless steel and PVDF knives, (3) .002” shims are included in the set. Stainless steel shims for the stainless knives and a PTFE shim for the PVDF. These, as well as the plastic shims, can be stacked on top of one another to create an even larger gap. One thing that is important to keep in mind however, the larger the air gap the greater the air consumption. Installing a .004” shim in a Super Air Knife will double the force, flow, and consumption of the knife when compared to the stock .002” shim.

Installing a new shim in your Super Air Knife is very simple to do. Check out this quick video from Neal Raker that walks you through the steps:

While different shims are available for you to make gross adjustments to the force and flow of your Super Air Knife, there is one additional method. By using a pressure regulator, you can fine-tune the input pressure that is supplied to the Super Air Knife. This will also greatly impact the force and flow. At 40 psig, the Super Air Knife will consume 1.7 scfm/inch and provide 1.1 oz/inch of force. At 80 psig, it will consume 2.9 scfm/inch and provide 2.5 oz/inch of force. EXAIR offers pressure regulators in a variety of different sizes to accommodate any of our Super Air Knives from 3” all the way up to 108”.

If you’re wasting air in your facility using cheap nozzles, drilled pipes, or any other inefficient solution, give us a call. An Application Engineer will gladly investigate your application and help to design a better, safer, and more cost-effective solution!

All of EXAIR’s Super Air Knives (stock lengths 3-108″) are available to ship same-day with an order placed by 2:00 ET.

Tyler Daniel

Application Engineer

E-mail: TylerDaniel@exair.com

X: @EXAIR_TD

Super Air Knife and Laminar Air Flow

Published on by Jordan T ShouseLeave a comment

What sets EXAIR’s Super Air Knife above the competition is the ability to maintain a consistent laminar flow across the full length of the knife, particularly when compared against blower-operated knives or even fans. A fan “slaps” the air, resulting in a turbulent airflow where the airflow particles are irregular and will interfere with each other. A laminar airflow, by contrast, will maintain smooth paths that will never interfere with one another.

Top: 108″ Super Air Knife is supported & aimed via an array of Model 9060 Universal Air Knife Mounting Systems. Bottom: mounting systems can be ‘overkill’ for some smaller applications, especially when the user is creative. Yes, those are door hinges. No, it wasn’t my idea, but I kind of wish it was.

The effectiveness of a laminar airflow vs turbulent airflow is particularly evident in the case of a cooling application. The chart below shows the time to cool computers to ambient temperatures for an automotive electronics manufacturer. They used a total of (32) 6” axial fans, (16) across the top and (16) across the bottom as the computers traveled along a conveyor. The computers needed to be cooled down before they could begin the testing process. By replacing the fans with just (3) Model 110012 Super Air Knives at a pressure of just 40 psig, the computers were cooled from 194 °F down to 81°F in just 90 seconds. The fans, even after 300 seconds, still couldn’t remove enough heat to allow the customer to test them.

Utilizing a laminar airflow is also critical when the airflow is being used to carry static-eliminating ions further to the surface. Static charges can be both positive or negative. In order to eliminate them, we need to deliver an ion of the opposite charge to neutralize it. Since opposite charges attract, having a product that produces a laminar airflow to carry the ions makes the static reduction dramatically more effective. As you can see from the graphic above showing a turbulent airflow pattern vs a laminar one, a turbulent airflow is going to cause these ions to come into contact with one another. This neutralizes them before they’re even delivered to the surface needing to be treated. With a product such as the Super Ion Air Knife, we’re using a laminar airflow pattern to deliver the positive and negative ions. Since the flow is laminar, the total quantity of ions that we’re able to deliver to the surface of the material remains greater. This allows the charge to be neutralized more quickly, rather than having to sit and “dwell” under the ionized airflow.

EXAIR Super Air Knives are the most efficient compressed air knife on the market, and for a limited time, you will receive a FREE Safety Air Gun when you purchase any EXAIR Super Air Knife! Learn more over on our site. (Until December 31, 2024)

Jordan Shouse
Application Engineer

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