Need A Flange? We Can Do That!

I recently had a customer call in that was trying to boost an exhaust on a hot operation that he had in his facility.   We discussed what kind of fumes he was trying to evacuate and it appeared at face value that a High Temp Air Amplifier would be the perfect solution for his application.

A Model 121021 1-1/4" High Temp Air Amplifier directs hot air to a rotational mold cavity for uniform wall thickness of the plastic part.

A Model 121021 1-1/4″ High Temp Air Amplifier directs hot air to a rotational mold cavity for uniform wall thickness of the plastic part.

Then the words that strike fear into some manufacturers came out.  The customer asks, do you have any way to put a 4 bolt flange onto the unit so I can mount it straight into my piping system?   My response, “All I need are the dimensions of the flange you need and we will see what is possible.”  After a few further questions and verification, we had a drawing  with dimensions of a Flanged High Temp Air Amplifier.  We sent the drawing to the customer for approval, and once approved, we began to manufacture the custom product and provided it to the customer.  This unit will allow the customer to easily boost the exhaust on his operation and will bolt straight into his piping so there are no worries on his end about exhaust gas escaping.  His 500°F air temperature of the gases are of no concern to this special as it carries with it the high temperature rating of 700°F.  The pictures below show the Special – Flanged High Temp Air Amplifier.

IMG_5290

The air inlet and side view of the Special High Temp Air Amplifier

IMG_5291

Here you can see the low pressure side (intake) of the Special High Temp Air Amplifier.

IMG_5294

The O.D. of the flanges was 6″ with 4 – 3/4″: bolt holes. The Bolt holes were not required to align with the opposing side.

If you think there is no way we can find a product that will fit your compressed air application, or adapt a product to fit then give us a call, you might just be surprised at what we can offer in a quick turn around.

Brian Farno
Application Engineer Manager
BrianFarno@EXAIR.com
@EXAIR_BF

 

Intelligent Compressed Air Products: Pulling In Free Air

Home of Intelligent Compressed Air Products

EXAIR is the home of Intelligent Compressed Air Products.

What is an Intelligent Compressed Air product? What makes it intelligent? Compressed air is typically a manufacturing facility’s most expensive utility. A standard cost is $0.25 per 1,000 Standard Cubic Feet (SCF) produced. Any pipe, manifold, or fitting can be modified to blow compressed air, but these homemade blow offs will be very noisy, waste a tremendous amount of compressed air and create an OSHA violation. In contrast EXAIR’s intelligent compressed air are engineered solution are quiet, use a minimal amount of compressed air and comply with OSHA safety standards.

Let’s take EXAIR Model 1100 Super Air Nozzle as an example. Connecting it to a 1/4 NPT fitting, will produce 13 ounces of force on a target when mounted twelve inches away, and use 14 SCFM of compressed air. To produce so much force using that little air, the Super Air Nozzle must be precisely designed and manufactured to maximize the entrainment of ambient air.

With the air nozzle we use compressed air to induce a primary air flow. This primary air flow is a high velocity jet of air that create low pressure area around the primary airflow entraining the ambient or free air. These air streams combine past the tip of the nozzle creating a powerful blast of air. The Super Air Nozzle can entrain air up to a ratio of 25 parts of ambient air moved for every 1 part of compressed air.  All of our Super Air Nozzle create this level of air entrainment.

AirflowAnimation

EXAIR Super Air Nozzle entrains ambient air up to a 25:1 ratio

In addition to entraining a significant amount of air, the Super Air Nozzle also reduces the noise level. Most homemade nozzles are not well constructed so, the hole(s) that allow the air to escape may have sharp jagged edge which will induce noise or turbulence. Even commercial nozzles with cross drill holes create a tremendous amount of wind shear which leads to an ear splitting compressed air squeal. The smooth design of the Super Air Nozzle creates a laminar flow of air that reduces the noise of the nozzle to 74 dBA. For reference a 1/4″ open tube can easily create noise levels over 100 dBA. Using a compressed air nozzle, can greatly reduce the amount of noise in and around your shop.

Finally, EXAIR Super Air Nozzle complies with OSHA standard 29 CFR 1910.242, which requires that all nozzles that use compressed air over 30 PSIG must provide a point of relief in case the nozzle is dead ended. EXAIR Super Air Nozzle uses multiple orifices that are recessed, so that the air always has a path of escape. Many homemade nozzles do not have any provision to protect from dead ending, which means they do not comply with the OSHA standard.

EXAIR Super Air Nozzles are an important upgrade from a homemade nozzle and many times an upgrade for a commercial nozzle, because they entrain ambient air, reduce noise level, and comply with OSHA regulation.

Dave Woerner
Application Engineer
@EXAIR_DW
DaveWoerner@EXAIR.com

Ion Air Cannon

Generally in the winter time, we see an increase in production issues due to static. When the ambient air becomes drier, static ions build more easily on the surface. For this application, the customer was drying a wood based compost with compressed air. His compressed air system used a heated desiccant dryer to remove the moisture to a dew point of -40 deg. F (-40 deg. C). (That means the compressed air system would not see any water unless the temperature was below -40 deg.) He would blow the very dry air into the bed to remove any moisture. This would make the compost very light and reduce decomposing.

Ion Air Cannon

Ion Air Cannon

The problem occurred during shipment. He would convey the compost up a conveyor belt to a chute. The chute had a line to direct the compost inside a rail car. Because of the non-conductive material of the conveyor belt and the extremely dry material of wood, a large amount of static was being generated. With like charges repelling each other, it would create a bridge in the chute, causing it to plug and backup. My suggestion was to use our Super Ion Air Cannon. It would remove the static charges that was being generated, and also create a small positive pressure to keep the compost moving. With the amount of material that he was conveying, he installed 4 Super Ion Air Cannons for each chute. The problem was solved and the operation was not hindered. If you have any issues with your system, you can contact one of our Application Engineers to see if we can help at 800-903-9247.

John Ball
Application Engineer
Email: johnball@exair.com
Twitter: twitter.com/exair_jb

More on Vortex Tubes: Understanding Cold Fractions

vortex tube

An EXAIR Vortex Tube

I had a conversation today through our online chat feature with a customer in the Middle East who needed a bit more understanding about Vortex Tubes.  The cooling power and instantaneous ability of a Vortex Tube offers ways to remove heat from applications, but the way the Vortex Tube works was a little misunderstood.  So, we went over the basics.

A Vortex Tube transforms a compressed air supply into a stream of hot and cold air.  As the compressed air enters into the Vortex Tube, it passes through a generator which causes the air to spin.  The airstream spins down the length of the Vortex Tube until it reaches a “brake”, whereupon it changes directions and begins spinning inside of itself, giving off energy in the form of heat.  The result is a stream of cold air at one end of the Vortex Tube, and a stream of hot air at the other.

But how can we adjust the flows and temperatures?

Adjusting the flow and cold air temperature from a Vortex Tube is as simple as turning the adjustment valve at the hot end of the unit.  This valve controls the “cold fraction” of the Vortex Tube, or, to put it more simply, the amount of air which will exit the unit at the cold end.

EXAIR Vortex Tube Performance Chart

EXAIR Vortex Tube Performance Chart

For example, if we were to set a Vortex Tube to an 80% cold fraction, 80% of the air consumed by the Vortex Tube would exhaust through the cold end of the unit.  If we take the same Vortex Tube and establish a 60% cold fraction, 60% of the consumed air will exhaust through the cold end of the unit.

Why is this important?

The cold fraction is important because at various cold fractions we will product varying temperature drops, even at the same operating pressure.  So, in the example above, if we have a Vortex Tube operating at 7 BARG, set to an 80% cold fraction, we can expect a temperature drop of 30°C (54°F), relative to the temperature of the incoming compressed air.

This means that if our compressed air temperature is 25°C (77°F), we will have an outlet temperature of -5°C (23°F).  If we take the same air supply and reduce the cold fraction to 60%, we will have a temperature drop of 48°C (86°F).

The caveat here is that when we reduce the air temperature, we also reduce the flow.  So, the colder the air temperature from the Vortex Tube cold end, the lower the volume of cold air.

When determining if a Vortex Tube is right for an application, it is important to consider all the variables (operating pressure, compressed air temperature, cold fraction, required cooling) when making a model number selection.

If you have any questions or concerns when considering a Vortex Tube, contact an EXAIR Application Engineer.

Lee Evans
Application Engineer
LeeEvans@EXAIR.com
@EXAIR_LE

Big Or Small, We’ve Got ‘Em All! Vortex Tubes, That Is

A couple of weeks ago, I wrote about using large Vortex Tubes for freeze sealing/plugging of pipes. Even though they’re our LARGE Vortex Tubes, they’re still WAY smaller than the liquid nitrogen rigs that are also prevalent for this application. Smaller, in this case, means easier to handle and quicker to set up (and break down.)

So, that’s a case where a smaller device is used to do the same job. Today, I wanted to examine the different sizes of Vortex Tubes that we offer, when the job itself is what’s changing in size.

The Large Vortex Tubes are specified when a high flow of cold air is needed. Like the aforementioned freeze seals. Or this one, published in our catalog:

This is a typical application for a Large Vortex Tube.

This is a typical application for a Large Vortex Tube.

Our Medium Vortex Tubes are the most popular – there are ten to choose from, depending on the cold air flow rate and temperature you’re looking for. These can produce temperatures as cold as -40°F (-40°C) when set to a 20% Cold Fraction (which is the percentage of total supply air that’s directed to the cold end) and cold air flows as high as 32 SCFM when set to an 80% Cold Fraction, which will produce a cold air temperature of about 20°F (-7°C). Some common uses are cooling ultrasonic welds and brazed joints.

The Medium Vortex Tubes are so popular, in fact, that they’re incorporated into our Adjustable Spot Cooler and Cold Gun Systems. They come ready-to-go with mufflers, cold air hose kits, and magnetic bases, so they couldn’t be easier to use.

The Small Vortex Tubes are great when very low flows are needed, or if compressed air supply is limited. These are specified for much smaller applications, like cooling the needle of a sewing machine, small drill bits, etc. You can also get one with a cold air hose & magnetic base…that’s the Mini Cooler System.

Another advantage that makes the Vortex Tubes a great choice for cold air production is their consistency and dependability. If you supply one with clean, dry air, it’ll operate just about indefinitely, maintenance free. And if you need a constant supply of air as a certain temperature, say, for testing a thermostat or temperature switch, a Vortex Tube is exactly what you’re looking for: the only things that’ll change the cold air temperature are the compressed air supply temperature & pressure…assuming you don’t change the Cold Fraction yourself, as shown here:

If you’ve got an application requiring cold air flow, give us a call. We’re eager to help!

Russ Bowman
Application Engineer
Find us on the Web
Follow me on Twitter
Like us on Facebook

Hard Work Leads To Good Results

A few months ago I wrote a blog titled Great Team Make-up about being an assistant coach for my oldest son’s youth football team. I take pride in the opportunity to work with young kids in teaching them the value of teamwork and showing them when you work hard, the results will speak for themselves. It’s not just about winning or losing, but rather learning to listen, be respectful (win or lose) and growing as a player.

18836062401_fb883d8eea_z

6 rushing touchdowns in a single game? I’ll take it.

The first 3 practices were no pads, no contact so these days were spent conditioning and learning offensive and defensive positions. (or as the kids called it – “The most boring thing EVER!”). We have been in full contact practice for the last 5 weeks and it’s pretty cool to see how much the kids have learned in such a short time. We’ve had a couple scrimmages but this past weekend we had our first real game.

As both teams took the field you could see the nervousness of the players and the anticipation of the coaches on both sides. When you start playing at 9:00 AM, with dew on the ground, it’s kind of difficult for 5-7 year olds to hold on to a wet football. The game started pretty slow and by halftime it was only a 6 point difference. The second half was much different, our team really started to “click” on offense. We had some great blocking up front coupled with some determined running backs and scored consecutive 65, 52 and 49 yard rushing touchdowns. On the opposite side, our defense tightened up and held their opponent to only 1 score in the second half leading to a 38-16 victory! It was awesome to see our group of young men (who were very recently mere 5-7 year-olds trying to hang on to the wet ball) so excited about winning and to see their effort pay off. As coaches we were equally satisfied that not only were we able to get the win, but to see these incredible kids execute what they’ve learned in practice and transition that to the game.

Here at EXAIR, our commitment to be the best in the industry is best reflected in the solutions we provide for our customer’s needs. Two of our most informative tools are the Application Database and Case Study Library. The Application Database is over 1000 applications in a problem/solution format, detailing various industrial processes and the EXAIR product solution. Whether you’re dealing with a static electricity issue, needing to provide cooling to critical instruments, drying product, looking to convey media or just needing to provide blowoff, chances are you will find the information you are looking for.

The Case Study Library is a database where you can see quantifiable benefits or ROI of installing EXAIR products. We typically show improvements in dollar savings, compressed air savings, production increases, noise exposure decreases and safety improvements focused on reaching important OSHA standards. We are always seeking new case studies and can offer an incentive or SWAG in return for providing us the details on your application. A great place to start is with our Efficiency Lab, where we can actually gather the details for you.

Some examples of the information we are looking to obtain:

  • A decrease in air consumption
  • Improved safety
  • Lowering noise level
  • Reducing the amount of rejects – increasing production

Give us a call at 800-903-9247 to team up with one of our application engineers to see how we can coach you to a win in your facility.

Justin Nicholl
Application Engineer
justinnicholl@exair.com
@EXAIR_JN

Harvard Stadium 57240 image courtesy of Ted Eytan, Creative Commons License

 

Can an Air Amplifier Be Used As A Vacuum Generator for a Vacuum Chuck?

adj AL

Adjustable Air Amplifier

I had a recent discussion with one of our overseas distributors whose customer buys a lot of the Air Amplifier model 6040 for another application and wanted to know if they could adapt it to a new application as a vacuum generator.

The customer’s need was to produce a vacuum of -400 mbar (-11.81” Hg) for the application. The input pressure at which they needed to produce this vacuum level was 6 BARG. The customer needed a vacuum flow of about 57 liters per minute which is not too high for us to consider.

My colleague at our distributor asked me if I could run a test to see if the model 6040 (3/4” Aluminum Adjustable Air Amplifier) could produce the needed vacuum level with 6 BARG input pressure. This is something I could do rather easily with some fixtures we already had made up in our lab. So, I set up the test and ran the Air Amplifier at 6 BARG input pressure. The unit, at its stock air gap setting was able to produce about -131 mbar(-3.87” Hg) of vacuum. I tried adjusting the input pressure and the air gap setting on the Air Amplifier. The lowest vacuum I was able to achieve was in the range of about -178 mbar (-5.26” Hg). Since this vacuum level was not close to the prescribed need, I advised my colleague of the values and told him that model 6040 would not work for this case.

And so, in the spirit of one of my favorite TV shows, Mythbusters, I then asked the question, “What would it take to produce a vacuum level of at least 400 mbar and 57 liters of vacuum flow?”. After consulting my handy dandy, new EXAIR Catalog 28 I was able to find the data I needed to resolve to a model number recommendation. My search using the data above led me to the Adjustable E-vac model 840015M which is our second smallest out of four possible models available. The designation of the “M” at the end of the model means the unit is included with a straight through muffler for sound attenuation, an all important feature for vacuum generators.

Model 840015M specifications indicate it has ability to produce vacuum flow of 114.7 liters per minute when powered at 5.5 BARG while producing a vacuum of -406 mbar (-12” Hg). This model has capacity to produce vacuum levels all the way to -847 mbar (-25” Hg) if necessary, so having plenty of head room for this recommendation to go higher will be no problem at all.

The morals of the story are: If you think you might have a crazy idea, it probably isn’t so crazy after all. If you have a scenario that you think we might be able to test with our equipment, we’ll sure give it a try if we can. Finally, new Catalog 28 is packed full of good information to help make determinations based on performance characteristics much easier so that we can make what we feel is a firm recommendation. And if we don’t think something is a viable idea or can’t be done, we will be sure to let you know that too.

Neal Raker, International Sales Manager
nealraker@exair.com

@EXAIR_NR

Follow

Get every new post delivered to your Inbox.

Join 14,395 other followers

%d bloggers like this: