Adjustable Spot Cooler Improves Production Of Can Lids

Canned food has been around since the early 1800s, when the French government offered 12,000 francs (I don’t know how much that is in today’s currency, but it sounds like a LOT) to the first person to come up with a way to effectively and affordably preserve food, so the French army could take it with them during Napoleon’s planned conquest of Europe. Nicolas Appert, a candy maker and chef to the rich and famous, had been experimenting with cooking food inside sealed containers and noticed that it didn’t spoil if the seals didn’t leak. So he demonstrated his technique to the powers that be, and walked away with the 12,000 franc prize. It didn’t really pan out for the army because the process was slow & expensive, but canned food became something of a novelty among the aforementioned rich & famous of the day. This WAS the heyday of the Industrial Revolution, though, and food companies quickly advanced the technology for mass production. Today, there are very few food products that you won’t find a canned or jarred version of. In the early days, you had to use a can opener, but today you can find pull tabs on many cans, especially beverages.

Ever since Jimmy Buffett cut his heel on the one on the left in “Margaritaville”, we’ve been drinking from cans with ‘pop tops’ like the one on the right.

A more recent innovation is a peel-off foil seal on the lid that seals the product for freshness, immediately after packaging. It’s then removed by the consumer after purchase, and the container is commonly supplied with a plastic lid that snaps onto the rim.

A container manufacturer uses Model 3925 Adjustable Spot Cooler Systems with Dual Outlet Cold Air Hoses to rapidly cool the freshly heated sealed foil onto metal lids like those that are used for coffee cans. This allows them to move the lids from the heat sealing station to the next process faster.

From left to right: EXAIR Mini Coolers, Cold Guns, and Adjustable Spot Coolers come with Magnetic Bases for instant installation.

Because they generate cold air flow on demand, this is a very common application for EXAIR Vortex Tube Spot Cooler products. With no moving parts to wear or electrical components to burn out, they’re reliable & durable. If you’d like to find out more, give me a call.

Russ Bowman, CCASS

Application Engineer
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Take Advantage of the EXAIR Cold Gun Promotion

EXAIR is pleased to announce the revival of its Cold Gun Promotion, which will be available exclusively through online channels. This promotion runs from November 1, 2024, until the end of the year, offering customers an exceptional opportunity to enhance their cooling capabilities. Those who purchase either the promotional Cold Gun System with a Single Point Hose Kit or the promotional High Power Cold Gun System with a Single Point Hose Kit will receive a complimentary Dual Point Hose Kit. This additional kit is equipped with standard point tips and 1-inch fan tips, enabling users to efficiently cool multiple surfaces of large-diameter cutters and components that necessitate effective cooling solutions. This promotion not only enhances the functionality of the Cold Gun Systems but also provides users with the tools needed to optimize their operations.

Cold Guns Systems

If you are seeking an effective method to prolong the lifespan of your tools by maintaining a cooler operating temperature without the complications associated with traditional coolants, our Cold Gun is an ideal choice. When connected to a source of compressed air, both the Cold Gun and the High Power Cold Gun generate a stream of clean, cold air that can reach temperatures as much as 50°F lower than that of the incoming compressed air. This innovative tool operates at a remarkably low noise level of just 70dBA and is designed with no moving parts, which eliminates the risk of wear and tear over time. Simply provide it with clean, dry compressed air, and you can expect it to function maintenance-free for many years, ensuring a reliable and efficient cooling solution for your needs.

The Cold Gun features a magnetic base that facilitates straightforward installation and mounting, making it a convenient choice for various applications. This innovative tool serves as an excellent substitute for traditional coolant mist systems, which can be both messy and costly. By utilizing the Cold Gun, users can significantly reduce expenses associated with the purchase and disposal of cutting fluids, while also mitigating health risks for workers who might otherwise be exposed to airborne coolant or face hazards from slippery floors. Furthermore, transitioning to a system that does not rely on coolant eliminates the necessity for additional cleaning processes following milling or drilling operations, thereby streamlining workflow and enhancing overall efficiency in the workplace.

 If you have any questions about Cold Gun promotion, or anything regarding EXAIR and our products, please do not hesitate to reach out. We would love to hear from you!

Jason Kirby
Application Engineer
Email: jasonkirby@exair.com
Twitter: @EXAIR_jk

Theory of a Dead Man

Georges-Joseph Ranque was born on February 7, 1898, in Ambérieu-en-Bugey, France, to Léon-Joseph Ranque, a railroad engineer. This familial background naturally fostered his passion for physics. He attended the esteemed Lycée Saint-Louis, a selective post-secondary institution, where he furthered his understanding of the subject. Subsequently, he gained admission to École Polytechnique, continuing his academic journey. During his work on an industrial pump, Ranque became intrigued by the Pantone carburetor and discovered what is now referred to as the Ranque effect. This phenomenon serves as the foundational principle behind industrial vortex tubes, where the tangential injection of compressed gas at high velocity results in the creation of two distinct streams: one hot and one cold.

The unique physical phenomenon of the Vortex Tube principle generates cold air instantly, and for as long – or short – a time as needed.

This cold airflow is effectively employed in various industrial applications for spot cooling and enclosure cooling, thanks to its straightforward and dependable nature. The only requirement is a source of compressed air. In 1931, Georges patented his vortex tube, but it did not gain much traction until physicist Rudolf Hilsch revisited the concept. Hilsch enhanced the design, which he referred to as the “Wirbelrohr,” or “whirl pipe” in English. Consequently, the term “Ranque-Hilsch tube” is often used interchangeably with “vortex tube” due to Hilsch’s contributions.

Compressed air enters the tube and flows through a series of nozzles positioned tangentially to the internal counter bore. This nozzle configuration induces the air to rotate in a vortex at speeds reaching up to 1,000,000 RPM. As the air spins, it makes a 90° turn, where a valve at one end permits a portion of the heated air to escape. The remaining air continues down the tube in the inner stream, losing heat before exiting as cold air at the opposite end.

How a Vortex Tube Works

Both streams in a vortex tube rotate in the same direction and at an identical angular velocity. According to the principle of conservation of angular momentum, the rotational speed of the inner vortex is expected to increase. This phenomenon can be effectively illustrated through Olympic figure skating: when a skater extends her arms, her spinning slows down, but as she pulls them in, her rotational speed increases significantly. In the case of a vortex tube, however, the inner vortex maintains a constant speed as it has lost angular momentum. The energy dissipated during this process is released as heat from the hot side of the tube. This heat loss facilitates the cooling of the inner vortex, enabling it to be harnessed for various industrial applications.

The theory behind Vortex Tubes is applied in standard Vortex Tubes as well as in a range of other products designed with specific features tailored to various applications. EXAIR offers a selection that includes Cabinet Coolers, Cold Guns, Adjustable Spot Coolers, Mini Coolers, and Vortex Tubes, all of which function based on this fundamental principle.

 If you have any questions about Vortex Tubes, or anything regarding EXAIR and our products, please do not hesitate to reach out. We would love to hear from you!

Jason Kirby
Application Engineer
Email: jasonkirby@exair.com
Twitter: @EXAIR_jk

Cold Fraction Explained

EXAIR has published numerous articles detailing the functionality and applications of Vortex Tubes. This innovative technology, which produces cold air without the use of Freon or mechanical components, is rooted in physical principles and has been known by various names, such as the Ranque Tube, Ranque-Hilsch Tube, and Maxwell’s Demon. Today, it is commonly referred to as the Vortex Tube, capable of generating air temperatures as low as -50 °F (-46 °C) through the high-speed rotation of compressed air. In this article, I will discuss how to adjust the Vortex Tube to achieve varying temperatures and cooling effects, focusing on the concept of Cold Fraction.

The term “Cold Fraction” refers to the proportion of supply air allocated to the cold end of a system. A higher Cold Fraction indicates an increased flow and temperature of the cold air, while a lower Cold Fraction results in diminished cold air flow and temperature.

The performance chart below illustrates how the settings for “Pressure Supply” and “Cold Fraction %” influence the operation of Vortex Tubes. For instance, with an operating pressure of 100 PSIG and a cold fraction set at 20%, the cold side experiences a temperature drop of 123°F, while the hot side sees a rise of 26°F. Conversely, maintaining the same pressure of 100 PSIG but adjusting the cold fraction to 80% results in a 54°F decrease on the cold side and a significant 191°F increase on the hot side.

EXAIR Vortex Tube Performance Chart

In a convection or conduction air cooling application, two key factors must be considered: the air flow rate and the temperature difference between the cooling air and the heated component. It is advisable to begin with the maximum cold fraction; however, you may discover that a slightly reduced flow rate, along with the corresponding lower temperature, could better meet your requirements. The positive aspect of this adjustment is that it does not affect compressed air consumption, allowing you to enhance performance without incurring additional operational costs.

If you have any questions about Vortex Tubes, or anything regarding EXAIR and our products, please do not hesitate to reach out. We would love to hear from you!

Jason Kirby
Application Engineer
Email: jasonkirby@exair.com
Twitter: @EXAIR_jk