Georges-Joseph Ranque and the Vortex Tube

Published on by Tyler DanielLeave a comment

Georges-Joseph Ranque was born on February 7th, 1898 in Ambérieu-en-Bugey, France. The son of a railroad engineer, Léon-Joseph Ranque, it was not much of a surprise that he developed a strong interest in physics. An attendee of the prestigious and highly selective post-secondary school, Lycée Saint-Louis, Georges continued to develop his knowledge in the world of physics. From there he was admitted to École Polytechnique where he continued his studies. For years, Georges was interested in the Pantone carburetor. While developing an industrial pump, he noticed the phenomenon now known as the Ranque effect. The Ranque effect is the known working principle for industrial Vortex Tubes. When a compressed gas is injected into the tube tangentially at high velocity, two streams are created: one hot and one cold.

This cold airflow is then utilized throughout a variety of industrial spot cooling and enclosure cooling processes due to its simplicity and reliability. All that’s needed is a supply of compressed air. In 1931, Georges filed for a patent on his vortex tube. His idea didn’t go too far from there, until the topic was later picked back up by another physicist by the name of Rudolf Hilsch. Rudolf made some improvements to the design he called the “Wirbelrohr”, or “whirl pipe” for those not fluent in German. You’ll commonly hear the term “Ranque-Hilsch tube” used synonymously with the term Vortex Tube for this reason.

So how exactly does this thing work? The truth is no one knows for certain, but there is one commonly accepted theory that explains the phenomenon:

Compressed air is supplied into the tube where it passes through a set of nozzles that are tangent to the internal counter bore. The design of the nozzles forces the air to spin in a vortex motion at speeds up to 1,000,000 RPM. The spinning air turns 90° where a valve at one end allows some of the warmed air to escape. What does not escape, heads back down the tube in the inner stream where it loses heat and exhausts through the other end as cold air.

Both streams rotate in the same direction and at the same angular velocity. Due to the principle of conservation of angular momentum, the rotational speed of the inner vortex should increase. The best way to illustrate this is in Olympic Figure Skating. As the skater is wider, the spinning motion is much slower. As she decreases her overall radius, the velocity picks up dramatically and she spins much quicker. In a Vortex Tube, the speed of the inner vortex remains the same as it has lost angular momentum. The energy that is lost in this process is given off in the form of heat that has exhausted from the hot side of the tube. This loss of heat allows the inner vortex to be cooled, where it can be ducted and applied for a variety of industrial applications.

This Vortex Tube theory is utilized in basic Vortex Tubes, along with a variety of other products that have additional features specific for your application. EXAIR’s line of Cabinet Coolers, Cold Guns, Adjustable Spot Coolers, Mini Coolers, and Vortex Tubes all operate off of this same principle.

If you’re fascinated by this product and want to give it a try, EXAIR offers an unconditional 30-day guarantee. We have them all in stock and ready to ship as well, same day with an order received by 2:00 ET. Feel free to get in contact with us if you’d like to discuss how a vortex-based product could help you in your processes.

Tyler Daniel

Application Engineer

E-mail: TylerDaniel@EXAIR.com

Twitter: @EXAIR_TD

The Importance Of Preventative Maintenance

Published on by Russ BowmanLeave a comment

The first new car I ever bought was a 1995 Ford Escort Wagon. It got GREAT gas mileage (which was important for my 25 mile one-way commute to the day job), and had ample room to haul my keyboards & amplifier rig (which was just as important to my side hustle as a potential rock star). Since it only had four miles on the odometer – and, it was the first purchase I ever financed over a period of YEARS, I decided to follow the owner’s manual’s maintenance schedule religiously. And it paid off: I got eleven years and just shy of 200,000 miles out of one of the least expensive cars ever made. It was actually still running like a top when I sold it to “upgrade” to a minivan, which suited my needs at the time for a vehicle that fitted the car seats for our little boys (who are now a U.S. Marine and a hippie college student, respectively). I actually followed the maintenance schedule for that minivan too, and got 14 years & almost 180,000 miles out of it, without a major breakdown.

Whether you call it “preventive”, “preventative”, “scheduled”, or “planned” maintenance, there’s an old adage that applies in any case:

“If you don’t plan maintenance, it’ll plan itself without regard to your schedule.”

While following the proverbial “owner’s manual’s maintenance schedule” doesn’t guarantee against catastrophic failures, it’s awfully good insurance against them. For your privately owned vehicles, I encourage you to follow the owner’s guide as best you can. For your compressed air system – from the compressor to the devices it provided compressed to (and everything in between) – there’s likely similar documentation to follow, and for good reason. Consider:

  • Air compressor maintenance. Failure to properly maintain a compressor can increase energy consumption by not keeping it operating as efficiently as possible. For example, just like not periodically replacing your car engine’s air filter will impact your gas mileage, failure to do the same for your compressor’s intake air filter will impact its production of compressed air.
  • Air leaks are costly. Not only do they waste the money you spent on running the compressor (a leak that’s equivalent to a 1/16″ diameter hole costs you over $700.00 annually – let me know if you want to do the math on that), your system pressure takes a hit too. Pressure drop caused by those leaks (plural because there’s rarely just one) can create what’s known as “false demand”, which costs you money as well: every 2psi increase in compressor discharge pressure makes for a 1% increase in power consumption. So, it’s really important to stay on top of them. Regularly scheduled surveys with an instrument like EXAIR’s Model 9207 Ultrasonic Leak Detector allows you to quickly find – and then fix – those leaks.
EXAIR Model 9207 Ultrasonic Leak Detector comes with everything you need to find out if you have a leak (with the parabolic disc, lower right) and then zero in on its exact location (with the tubular extension, bottom).
  • Filters, part 1: I already mentioned the compressor intake filter above, but the rest of the filters in the system need attention from time to time as well. Filter manufacturers typically call for replacing the element in a filter when pressure drop reaches a certain point. I’ve seen published values of 2-5psi for that. Of course, that may not occur at a convenient time to shut down everything downstream of that filter, so lots of folks replace those elements as part of planned maintenance evolutions that require depressurization of that particular part of the system anyway. Dirty filters mean you have to increase their inlet pressure to maintain the same outlet pressure you had when they were clean – and the same 1% increase in power consumption for a 2psi pressure increase applies here too.
  • Filters, part 2: most compressed air operated products have small passages that the air has to flow through, and without filtration, those can get clogged with dirt that the intake filter doesn’t catch, solid particulate from compressor ‘wear & tear’, and rust from header pipe corrosion, just to name the “usual suspects”. An argument could be made that installation & upkeep of properly rated Filter Separators at the point of use of these devices is part of those devices’ planned maintenance. In any case, it’s akin to the awfully good insurance against catastrophic failures I mentioned earlier.
Good engineering practice calls for point of use filtration and moisture removal, such as that provided by EXAIR Filter Separators.

Again, many of the components that make up a typical industrial compressed air system will have a manufacturer’s recommended maintenance schedule, but if they don’t, how can you properly plan for it? Monitoring of certain system parameters can be a valuable tool for determining how often some planned maintenance should be performed:

  • Power consumption of the compressor. The benefit of measuring & logging this on a regular basis is, if you see sudden changes, you can start looking for what’s causing them. Maybe a bearing or belt is wearing out, some leaks have popped up, or a filter’s clogged. In any case, it’s an indication that SOMETHING needs attention. Large industrial compressors might even have power monitoring in their control scheme. If not, there ARE other parameters you can measure…like:
  • Pressure and flow. EXAIR’s Pressure Sensing Digital Flowmeters make monitoring these parameters quick and easy. Managing the readings can be done with our USB Data Logger, or you can get it on your computer, via a Zigbee Mesh Gateway, with our Wireless Models.
EXAIR Digital Flowmeters are made for iron, copper, or aluminum compressed air pipe in sizes from 1/2″ to 8″ diameters. Options include Pressure Sensing, Wireless Output, USB Data Logger, Hot Tap, and Metric display.

At EXAIR, we’re committed to helping you get the most out of your compressed air system. If you’d like our help with that, give me a call.

Russ Bowman, CCASS

Application Engineer
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Featured image courtesy of Compressor1creative commons license

EXAIR Recognizes Memorial Day

Published on by exaircorpLeave a comment

Across the USA this weekend, the nation will be recognizing soldiers who have died serving our country and defending our freedom. While many of us may see this as the beginning of summer and a holiday off of work – it is certainly more than that.

Decoration Day, as it was first known, originated shortly after the Civil War and became an official federal holiday in 1971. Observing Memorial Day includes activities such as visiting cemeteries or memorials, holding family cookouts and walking in or observing parades. If you have not ever been to your town’s Memorial Day observance, it is an event worth seeing and participating in. There are countless soldiers who have paid the ultimate price to afford us the opportunities we have today, and the least we can do is offer our respect and recognition for their sacrifices. So please consider researching your local parades, a gravestone to place a flower on or a ceremony at your town’s veteran memorial, and we encourage you to take some time to honor and remember their efforts.

EXAIR will be closed Monday, May 29 in remembrance of Memorial Day.

Enjoy the Day,

The EXAIR Team

Unplug and Throw your Electric Vacuum in the Trash!

Published on by Jordan T ShouseLeave a comment

EXAIR, has the right industrial vacuum for just about any application. We have multiple options for you, based on your facility needs. If dust, dirt, debris, chips, or flakes are a by product of you making your product we are going to have a system for you! EXAIR Even offers a full line of liquid vacuums, something most electrical vacuums are not rated for because of the electric motors and possibly of becoming a shocking hazard.

Here are some highlights that illustrate how our products are better than any electric vacuum, or motorized vacuum you could purchase. You do not need electricity, There are no moving parts. Ours are quieter than electric alternatives. There is no risk of electrocution, shock, or a motor breakdown.

EXAIR Reversible Drum Vac (left) and Heavy Duty Dry Vac (right) Two Industrial Vacuums – wet AND dry – for less than the purchase AND operating cost of a dual Venturi vacuum.

Which EXAIR Industrial Housekeeping Product is right for you?  It depends on what you’ll be using it for.  Very generally speaking, here’s a brief overview of the product line:

Chip Vac Systems:

  • Pick up dry or wet chips and transfer them into a standard open-top drum.
  • Available in four sizes: 5, 30, 55, or 110 gallon drums.
  • Turns your own 30, 55, or 110 gallon open-top drum into a powerful vacuum system, in minutes, with a standard system.
  • Add portability and flexibility with a Deluxe System, which includes a drum dolly and a tool holder.
  • For a total Industrial Vacuum System, complete & ready to go right out of the box, the Premium Systems add a drum, a compressed air supply hose, an upgrade to Heavy Duty Aluminum Tools & a Static Resistant Vacuum Hose.
  • For smaller jobs or in tight quarters, the Mini Chip Vac System comes with a compact 5 gallon drum.  The Deluxe System adds a drum dolly for portability.

Heavy Duty Dry Vac Systems:

  • Function is similar to the Chip Vacs, but the vacuum itself is made of a hardened alloy, and offers higher vacuum power for dense and/or abrasive material cleanup.
  • Fits your existing 30, or 55 gallon drums for a quick & easy, basic high-powered vacuum solution.
  • Deluxe Systems add Heavy Duty Tools & tool holder, and a Drum Dolly.
  • Premium Systems come with a 30, 55, or 110 Gallon Drum.

Heavy Duty HEPA Vac Systems:

  • All the power, durability, and convenience of the Heavy Duty Dry Vac Systems, but with a HEPA filter for contaminants such as mold, allergens, and other airborne irritants.
  • Fits your existing 30 or 55 gallon drums, or Deluxe & Premium Systems add the same accessories as the Heavy Duty Dry Vac Systems.
EXAIR’s Heavy Duty Dry Vacs turn ordinary drums into high powered, rugged industrial vacuum systems.

Reversible Drum Vac Systems:

  • These are our drum mounted vacuums for liquids.  They’ll fill or empty a 55 gallon drum in 90 seconds (tested with water.)
  • Fits an existing 30, 55, or 110 gallon closed top steel drum in good condition.
  • Deluxe Systems add a drum dolly, a tool holder and a set of plastic tools including a Spill Recovery Kit, for a multitude of cleanup needs.
  • Auto shutoff float prevents overfilling the drum.
  • Premium Systems add a 30, 55, or 110 gallon drum, Heavy Duty Aluminum Tools, and a compressed air supply hose.
  • High Lift Systems are available for higher viscosity (ups to 1400 cP) liquids, or when pumping from below grade (180″H2O suction lift.)
  • This same technology is incorporated into the Chip Trapper Systems, which (as detailed last week) trap incoming solids in a Filter Bag, allowing for instant pumping out of freshly filtered liquid.  They’re available with the High Lift capability as well.

EasySwitch Drum Vac Systems:

  • These are our drum mounted vacuums for liquids and Dry material. 
  • Easy to switch from liquid to dry material.
  • Low sound level coming in at 79 dBA @ 80 PSIG
  • Turns your own 55 gallon open-top drum into a powerful vacuum system, in minutes, with a standard system.
  • Add portability and flexibility with a Deluxe System, which includes a drum dolly and a tool holder.
  • For a total Industrial Vacuum System, complete & ready to go right out of the box, the Premium Systems add a drum, a compressed air supply hose, an upgrade to Heavy Duty Aluminum Tools & a Static Resistant Vacuum Hose.

EXAIR Industrial Housekeeping Products Offer a solution to all of these issues.  With no moving parts or electric motors, they are extremely reliable.  If you supply them with clean air, they can run darn near indefinitely, maintenance free.  And no electric power means no shock hazard.

If you would like to talk about Industrial Housekeeping products or any of the EXAIR Intelligent Compressed Air® Products, feel free to contact  myself or one of our Application Engineers we can help you determine the best solution.

Jordan Shouse
Application Engineer

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