Controlling Temperature And Flow From A Vortex Tube

Published on by Russ Bowman

The Vortex Tube is among the most fascinating air-operated devices to me. It’s right up there with the pneumatic impact wrench, which is my HIGHLY preferred method of removing (and replacing) a tire on a vehicle. While there are several different types of impact wrenches, they all basically use air pressure to move internal parts in a manner in which they strike (or impact) a rotating element with a socket on the end, resulting in a lot more torque being applied than if it was simply spinning a propeller attached to the shaft.

Vortex Tubes, on the other hand, all work on the same principle, discovered by a French engineer, Georges Ranque, while he was experimenting with a new design of a vacuum pump in 1922. There doesn’t seem to be any record of him completing the work on his newfangled vacuum pump, but he did continue experimenting with this device that made hot air come out one end, and cold air come out the other, getting a patent for it in 1931.

How a Vortex Tube Works: compressed air enters the vortex spin chamber (big blue arrow from above left), where the Generator imparts a spinning motion to it (red ribbon, moving to the right). When the spinning air flow reaches the other end, some of it is forced to change direction and, while still spinning, flow the other way (blue ribbon, moving to the left). The rest exits through the hot valve (represented by the yellow cone). When the spinning air flow changes directions, it gives off energy in the form of heat, causing hot air to exit one way, and cold air to exit the other.

EXAIR offers two series of Vortex Tubes:

  • 32XX series, or Maximum Refrigeration. These make the highest flows of cold air, at temperatures suitable for rapid cooling of warm objects to ambient (or below) temperatures.
  • 34XX series, or Maximum Cold Temperature. These will give you the coldest air possible – as low as minus 50°F – but at lower flows, relative to the 32XX series. I’ll go into more detail on both of these in a minute.
Sub-zero air flow from Model 3408 Vortex Tubes cools & solidifies chocolate in candy molds.

Both of these series consist of Vortex Tubes in three sizes, with multiple models in each size. The difference between the models in each series is the compressed air consumption:

You can control the temperature, and the flows (both hot and cold), of any Vortex Tube in a few different ways:

  • Supply pressure affects the total flow of the two air streams, and the magnitude of the change in temperature. Since higher pressure equals more energy, it stands to reason that, at higher pressures, the hot air will be hotter, and the cold air will be colder.
  • Cold Fraction is the percentage of the compressed air supply that gets directed to the cold end. You can get VERY cold air from a Vortex Tube by setting it to a low cold fraction. This is done by opening the Hot Valve to let more hot air out. That causes the flow rate, and the temperature of the air coming out of the cold end, to drop.
Turning the Hot Valve counterclockwise (blue arrow) lets more hot air out, which lowers the cold air flow, and temperature. Turning it clockwise (red arrow) lets less hot air out, which raises the cold air flow…and temperature.
  • Two types of Generators can be installed in an EXAIR Vortex Tube – these are what determine the series I mentioned above:
    • Type “R” (Maximum Refrigeration) Generators allow for Cold Fraction adjustments from 50-80%. With an air supply pressure of 100psig, the cold air will be 54°F (when set to an 80% Cold Fraction) to 100°F (at a 50% Cold Fraction) lower than the compressed air supply temperature. This makes them suitable for applications where rapid cooling of an object is needed.
    • Type “C” (Maximum Cold Temperature) Generators give you Cold Fraction adjustments from 20-50%. A Vortex Tube with a “C” Generator installed will give you the same 100°F temperature drop as the “R” Generator will at a 50% Cold Fraction, but at a 20% Cold Fraction, it’ll be 123°F colder than the supply. These are used where cooling to temperatures below 0°F is needed.
How to tell which Generator is installed in a Vortex Tube.

If you need to remove & replace a tire, I strongly recommend using a pneumatic impact wrench. If you need to blow cold air for something, I just as strongly recommend using an EXAIR Vortex Tube. Different applications require different series, models, and settings. Give me a call if you’d like to find out which combination of those is right for your application.

Russ Bowman, CCASS

Application Engineer
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