Tag: compressed air

Intelligent Compressed Air: Rotary Scroll Compressors

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If you need compressed air, there are a number of ways to get it (see chart above) and they all have their pros & cons. In order to choose the right compressor (or compressors), there are also a number of factors which will influence that decision:

  • Specific requirements of the facility with regard to how much airflow, and at what supply pressure(s) is needed for the compressed air-operated equipment.
  • Location of the facility…and the air compressor. Environmental considerations will absolutely influence the selection of filtration, drying, and even the type of compressor.
  • Power cost – energy consumption is, by far, the largest portion of the total lifetime cost of any compressed air system.

With that in mind, the purpose of today’s blog is to lay out the case for rotary scroll compressors. These are positive displacement machines, meaning that they draw in a fixed volume of air and push it into a smaller volume, increasing the pressure. The earliest air compressors were positive displacement reciprocating piston types, where a piston moves back & forth in a cylinder, drawing in atmospheric pressure air on the ‘up’ stroke, and discharging it into the compressed air system on the ‘down’ stroke. These are simple machines – by adding cylinders, you can add air capacity, and by adding stages, you can generate high pressures.

The rotary scroll air compressor is a fairly recent development. While the first patent for one was issued in 1905, the machining technology required to make it work wasn’t available until the 1950’s, and it was the 1970’s before they started to enter mainstream use. Here’s how it works:

Two spirals, or scrolls, are intermeshed. The rotating (black) one orbits eccentrically with the fixed one, continually decreasing the volume for the gas to flow through (from the outer left & right sides) as it is pushed to the center, where it is fully compressed according to the compressor’s rating.

The main benefits of choosing a rotary scroll compressor are:

  • Quiet operation. They can be thought of as the polar opposite of reciprocating piston models in this regard. Instead of slamming solid pieces of metal back & forth in a confined space, the continuous motion of the rotating scroll never brings it into contact with the stationary scroll, so mechanical sound generation and vibration are all but eliminated.
  • Energy efficiency. Two main factors come in to play here:
    • Continuous compression – if the rotary scroll is in motion, it’s compressing air constantly, in proportion to its speed of rotation.
    • Low friction – because the scrolls don’t contact each other, they don’t lose energy due to friction between moving parts.
  • Pulsation free operation. This is another benefit of continuous compression, as opposed to the pulsating airflow from a reciprocating piston design. This means less wear & tear on pretty much everything immediately downstream of the compressor.
  • Fewer moving parts. The only moving part, really, is the rotating element. Compared to the pistons, rings, connecting rods, cylinders and valves of a reciprocating compressor, the reliability & durability of the rotary scroll compressors can’t be beat.
  • Oil free air. No metal to metal contact in the air end means no lubrication is required.

That said, they’re not without limitations and potential drawbacks:

  • Higher purchase price. The precision machinery needed to manufacture their high tolerance components aren’t cheap, and neither is their operation.
  • Limited capacity. Because of the centrifugal force the rotary element generates, it’s necessarily limited in mass and therefore, size. Rotary scroll compressors typically top out at about 100 SCFM worth of capacity.
  • Higher repair costs. Because of the tight tolerances and the fact that the air end has to be hermetically sealed, repairs of these compressors are high-tech operations…and the highly trained technicians with the specialized tools & equipment to perform such repairs don’t come cheap.

At EXAIR, we want to help you get the most out of your compressed air system. If you’d like to talk about that, give me a call.

Russ Bowman, CCASS

Application Engineer
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EXAIR Atomizing Spray Nozzles For Food Tray Mold Release Agent

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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.

When not-much-more-than-a-light-fog is called for, look no further than EXAIR Air Atomizing Spray Nozzles!

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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Let’s Build A Blowoff System!

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EXAIR makes a wide variety of Intelligent Compressed Air Products that can be used for blowoff applications. The first step is to consider what size, and shape, the airflow pattern needs to be. If it’s a smooth, flat surface, our Air Knives are ideal for that. If a more directed, focused stream of air is required, we have Air Nozzles, Air Jets, and Air Amplifiers. And if it’s for statically charged debris, we can put Ionizers on Air Knives (Super Ion Air Knives), Air Nozzles (Intellistat Ion Air Nozzles), Air Jets (Gen4 Ion Air Jets) and Air Amplifiers (Gen4 Ion Air Cannons.)

If you navigate the EXAIR website to our Blowoff Kits, you’ll see that we can provide a number of our quiet, safe, and efficient Air Nozzles with Magnetic Bases and/or Stay Set Hoses for a quick & easy Blowoff System. In addition to the half dozen or so systems that are specifically called out, you can also put together your own setup that best suits your application. Here’s how:

Example: Model 1100-9412 is two Super Air Nozzles on a Dual Outlet Magnetic Base with 12″ Stay Set Hoses.

If you’d like to discuss a blowoff application – regardless of size or shape – give me a call.

Russ Bowman, CCASS

Application Engineer
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Compressed Air Safety Dos and Don’ts

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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.”

  • Do wear eye protection, at a bare minimum, in regard to the personal protective equipment, no matter what. If the debris you’re blowing off is sharp or jagged, a full face shield & long sleeves are likely called for as well.
  • Don’t operate a blowoff device in a manner where the static pressure at the outlet of the nozzle will reach or exceed 30 p.s.i. If you’re using an engineered product like an EXAIR Super Air Nozzle, it’s perfectly fine to use a higher air supply pressure than that. They’re designed so that the outlet pressure won’t exceed 30 p.s.i. no matter what the supply pressure is.
EXAIR engineered Air Nozzles, like the Model 1100 Zinc Aluminum Super Air Nozzle shown here, discharge the compressed air flow through a series of holes, recessed between an array of fins. This means that there’s always a relief path for the airflow, so the outlet pressure cannot reach a dangerous level.

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.

  • Do protect your ears, same as you do your eyes. This one is near & dear to me, because my Dad lost a significant amount of his hearing in his early 40’s as a result of occupational noise exposure, and I saw first-hand what an impact that has on quality of life…for him, and frankly, for us too. There are a number of ways to do this, and the National Institute of Safety & Health (NIOSH) ranks them in order of effectiveness in their Hierarchy of Controls.
  • Don’t make earplugs, earmuffs, headphones, etc., the first and only line of defense. Don’t get me wrong; they work GREAT when the right ones are used properly…”right” and “properly” being the key words there.
  • So, DO make selection, training, and enforcement of their usage a high priority if the source of the noise cannot be:
    • Eliminated – this can be a toughie, because whatever’s making the noise is very likely there for a reason.
    • Substituted – this is a much more common, and still highly effective method, as engineered products like EXAIR manufactures can dramatically lower noise levels while maintaining the effectiveness of compressed air usage.
Examples of some sound levels we’re all familiar with, and how some EXAIR products compare favorably.

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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