In today’s video blog, I share a product update with you regarding our external filter bags and drum covers. The change has several significant benefits for performance. Take a minute to watch the video and find out more.
As always, if you have any questions, please contact us today.
Brian Farno, MBA – CCASS Application Engineer
BrianFarno@EXAIR.com
@EXAIR_BF
PET (polyethylene terephthalate) is one of the most common plastics that we see on a day-to-day basis. It’s what they make water and soda (or ‘soft drink’ or ‘pop’, depending on where you live) bottles out of, along with a lot of other products you find on the shelves and in the refrigerated cases of your local grocery store. A couple of times a week, we cook up a nice piece of fish from the seafood counter at our corner grocery: salmon if my wife stops in; whatever white fish is on sale if I do. Whichever becomes that night’s dinner, in any case, is packaged in a PET tray and sealed with plastic film.
I recently had the pleasure of talking with a caller whose company makes those trays. Turns out, they begin life as great big sheets, before they’re cut into smaller rectangles and formed in a mold press. Most anything that’s formed into a shape like that, with force and heat, needs to have some sort of lubricant – called a release agent – applied to the surface to make sure it exits the mold quickly and easily. In ANY molded product application, it’s advantageous to use as little as possible, for two reasons: specialty chemicals like these release agents can get expensive – especially the ones for food, beverage, or pharmaceutical use – and also because any remaining agent will get sealed up with whatever’s getting packaged.
Anyway, my caller’s molding machine came with spray nozzles that, no matter how low the flow was regulated, still sprayed too much. That meant the trays had no problem at all with falling right out of the mold, but the excess release agent was oftentimes causing HIS customer’s plastic film to not seal properly onto the finished food product, and he’d recently gotten an earful about it. He wished there was something he could use that didn’t spray much more than a light fog, because his supplier for the premium food grade release agent he used was always bragging that a light fog was all that was needed. In fact, the supplier actually recommended an EXAIR Model AF2010SS No-Drip Internal Mix, Flat Fan Atomizing Spray Nozzle.
With a flow rate as low as 1.2 gallons per hour, a one-second ‘spritz’ means 0.04 fluid ounces (that’s about a quarter of a teaspoon) gets spread out over the 16″ width of the mold. Which is just enough to let the freshly molded tray fall right out, with almost no residue left over.
Whether your liquid spraying application involves pricey fluids that you don’t want to waste, or if you just don’t want to have to deal with the mess of over spraying, EXAIR has a wide selection of Air Atomizing Spray Nozzles to choose from. If you’d like to find out more, give me a call.
Russ Bowman, CCASS
Application Engineer
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In the Navy, it was a universally accepted fact that NOTHING onboard the ship was “sailorproof.” Regardless of how it was designed, what it was made of, how many interlocks, mechanical stops, automatic shutoffs, etc., something had, any & all of those features could be overridden (by accident or on purpose) and cause a wide range of chaos, and/or damage, and/or injury. That’s why training and procedures are so important.
It’s the same in any civilian/corporate industry too – any device, tool, instrument, machinery, etc., can be inherently dangerous if it’s not used properly. And “used properly” for a LOT of those includes personal protective equipment, commonly known as PPE.
In the United States, the Occupational Safety & Health Administration (OSHA) publishes a couple of standards relevant to the safe use of compressed air:
Standard 1910.242(b) applies to the use of compressed air for cleaning. It states “Compressed air shall not be used for cleaning purposes except where reduced to less than 30 p.s.i. and then only with effective chip guarding and personal protective equipment.”
Standard 1910.95(a) isn’t exclusive to the use of compressed air, but since the discharge of a high pressure gas to atmospheric pressure can create quite a racket, noise levels associated with the use of compressed air often exceed exposure limits published in this standard.
In closing, my last dos & don’ts are: Do heed OSHA’s safety standards, so you don’t get a hefty fine for endangering yourself or the folks you work with. Frankly, if they catch you before anyone gets hurt, you got off light. If you’d like to find out more about how EXAIR Intelligent Compressed Air Products can improve safety with your compressed air usage, give me a call.
Russ Bowman, CCASS
Application Engineer
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The Venturi effect describes the phenomenon where a fluid, such as air or water, accelerates as it passes through a constricted section, resulting in a decrease in pressure. This occurs because the fluid is drawn into the narrower area, and the increase in velocity leads to a corresponding drop in pressure. The effect is named after Giovanni Battista Venturi, who first articulated this principle in 1797.
A perfect example of the Venturi Effect can be found in our Air Amplifiers. Compressed air enters through the air inlet and flows into an annular chamber, where it is accelerated through a small ring nozzle. This high-velocity primary airstream follows the Coanda effect, guiding it toward the outlet. As a result, a low-pressure zone forms at the center, drawing in a significant volume of surrounding air into the primary flow. The mixture of the primary airstream and the surrounding air is then expelled from the Air Amplifier at a high volume and velocity.
The Venturi Effect is represented in amplification ratios. A ratio represents the relationship between two quantities, indicating how many times one value is contained within another. In the case of the Super Air Knife, this ratio illustrates the volume of ambient air that is drawn in alongside the primary flow of compressed air. With an impressive amplification ratio of 40:1, the Super Air Knife incorporates 40 parts of ambient air for every single part of compressed air, making it one of the most efficient air-operated knives available. This addition of mass enhances the device’s ability to deliver a powerful force, enabling it to perform more effectively in various applications.
The Venturi effect is integral to various EXAIR products designed for cooling, drying, and cleaning, alongside our vacuum generators. If your facility has a process that could benefit from an Intelligent Compressed Air solution, please reach out to us. We would be pleased to discuss your specific application and develop a solution that not only lowers your compressed air expenses but also enhances worker safety.
Jason Kirby
Application Engineer
Email: jasonkirby@exair.com
Twitter: @EXAIR_jk
