Super Air Wipe Helps in Testing Wire Insulation

A cable manufacturer sent me videos of his operation as they needed to improve their efficiency in removing water from the surface of the insulation. Their system began with the insulation being applied to the outside of the wire cable, being dipped into a water trough to harden the insulation, travel through the blow-off device, then into a spark tester.  The spark tester checks the insulation for imperfections.  Also called a hi-pot tester (high-potential), a high voltage is used to create a large potential across the insulation.  Any defects in the insulation can be detected, but it is very sensitive to surface contamination.  Being that the water is very conductive, it had to be removed or it would give a false result.  They were using a home-made circular blowing device (photo below) to blow the water off after dipping.  When they were at the higher line speeds, the blow-off device was not removing the water completely from the insulation.  This would cause the spark tester to alarm and stop production.

Home-made Air Wipe

Home-made Air Wipe

This company makes cables ranging from 10mm to 25mm in diameter. With various types of voltage ratings on the wire, the insulation was made with different types of materials and thicknesses.  So, the line speeds could range from 20 to 200 meter/minute.  Being that they needed a better way to remove the wire, they searched for wire and cable blow-off devices. They came across the Super Air Wipe from EXAIR.  The design of the Super Air Wipe blows compressed air at a 30 degree angle toward the center in a 360 degree air pattern, just like a cone.  It uses the Coanda effect to entrain as much ambient air into your compressed air to maximize force and efficiency.  Because of the variations in diameters and speeds, I suggested two different sizes, the model 2401 and model 2402.  The model 2401 has an I.D. of 1” (25mm), and it would work best with the cable diameters of 15mm and under.  The model 2402 has an I.D. of 2” (51mm), and it can handle the cables that are above 15mm in size. This pair of Super Air Wipes would give the customer the most consistent results no matter what line speeds that they ran.  With the split design of the Super Air Wipe, it makes it easy to clamp around the cable and change from one size to the other.

Super Air Wipe

Super Air Wipe

As they removed their home-made unit and attached the Super Air Wipes, they noticed a few things. The spark tester stopped getting false alarms.  This made the production process run smoother; even at the faster line speeds.  They noticed that the Super Air Wipe was much quieter.  With a decibel rating of 77 dBA, the nearby operators were very happy with this choice.  Also, they noticed that the Super Air Wipes used much less compressed air.  Because the design utilizes the “free” ambient air, less compressed air is required.  This would save them a lot of money in their electric bill and the stress on the compressed air system.  If your company needs to blow off cables, hoses, pipes, or any cylindrical type parts, the Super Air Wipe could be a great product for you.

John Ball
Application Engineer
Email: johnball@exair.com
Twitter: @EXAIR_jb

Observations By The New Guy

As the junior member of the EXAIR Application Engineer Team, I have a fresh view on the differences in the EXAIR Business Model versus my prior places of employment.

EXAIR has 1000’s of items in stock, ready for same day shipment with orders received by 3 pm EDT. Here, a long lead time item is considered 1 week, as opposed to 20+ weeks, that I had previously quoted at other employers.  Imagine needing something quickly and then finding out it would be 20 weeks for delivery. Everything in the EXAIR catalog is a stock item, and ready for your order.

Our year to date on time delivery rate of > 99.9% is amazing, and even more incredible is the streak of 20 years of shipping complete, on time, and correct orders of over 99.9%.  Nothing was more frustrating than starting the day with calls and emails to customers telling them their order is going to be late, and the wasted time for everyone in determining the reason, who was at fault, what the new ship date will be and the general disdain caused by such interactions.  I sure don’t miss that part of the work day, freeing me up to truly service the customer.

The last item that truly separates EXAIR as not only an employer but a vendor is, the EXAIR Guarantee. Every application is different and it is the Application Engineer’s job to understand the application and best identify the right EXAIR Intelligent Compressed Air Product® to provide the benefit.  For those applications that are what we might say, on the ‘fringe’ of the capabilities, the 30 Day Guarantee is a great way to perform a real world test of the product in the actual application environment.  If it doesn’t meet expectations, then we’ll gladly take it back for a full refund.

30 Day Guarantee

In my time here at EXAIR, every day offers exciting new ways to provide service to our customers.  Each new phone call, email, and chat is an opportunity to execute the EXAIR way of business and provide the high level of performance our customers have come to expect, and can rely on, from the whole team here.

Brian Bergmann
Application Engineer
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EXAIR Webinar: Intelligent Compressed Air Solutions For OSHA Compliance

bWebinar_186x133blog
On September 13th, 2016 at 2 PM EDT, EXAIR will be presenting a FREE webinar. During the short presentation, we will be covering the OSHA Standards for the safe use of compressed air when used for cleaning purposes.

The first topic we will discuss will pertain to the OSHA Standard 29 CFR 1910.242 (b) limiting the outlet pressure of an open pipe, tube, air gun, nozzle, etc. to less than 30 PSIG. When dead ended against the skin, air pressure above 30 PSI, can introduce air flow into the body, otherwise known as an air embolism. An air embolism can be an extremely dangerous condition which can cause serious injury, such as a stroke or possibly death.

Secondly, we will discuss the OSHA Standard 29 CFR 1910.95(a) for permissible noise exposure levels. In the Standard, OSHA has set exposure limits (in hours) for varying sound levels (dBA). When employees are subjected to sounds in excess of the limiting guidelines, some type of engineered controls should be used to reduce the sound level exposure. We will provide some useful statistics, as well as help you identify some common culprits found in many processes.

Lastly, we will show you how EXAIR provides engineered solutions that address both dead end pressure and noise exposure levels. All of EXAIR‘s blowoff devices feature some type of relief so if the exhaust airflow were somehow blocked or pressed against the skin, there is always a safe path for the air to exit, so the discharge pressure never exceeds 30 PSI. In addition, we will explain how our products reduce wind shear, ultimately lowering the sound level, save energy and help you gain OSHA compliance to avoid costly fines.

CLICK HERE TO REGISTER

Justin Nicholl
Application Engineer
justinnicholl@EXAIR.com
@EXAIR_JN

 

 

 

Adjustable Spot Cooler Easily Cools Aluminum Plates

Cooling Unit- Iso View

This setup needed a method to cool a 400g aluminum plate (click for larger view)

When we work with our customers about cooling applications, we usually approach them in one of two ways – either with a need to cool down to ambient temperatures, or a need to cool below ambient temperatures.  If we only need to cool to ambient conditions, we can use Super Air Amplifiers, Super Air Knives, Air Nozzles, or Safety Air Guns.  But, if we need to cool below ambient temperatures, we have to use a vortex-based technology such as a Vortex Tube, Adjustable Spot Cooler, Mini Cooler, Cold Gun, or Cabinet Cooler.

One of our overseas customers reached out to me with a need to cool a 400g aluminum plate from 80°C (176°F) to 27-30°C (80-86°F) over the course of about 40-60 seconds.  They needed something repeatable, dependable, and compact, so we explored a Vortex Tube-based solution.

heat load calc process

Process flow for calculating required air volume in a cooling application (click for larger view)

We’ve shown airflow calculations for our Air Amplifiers in the past, and I used the same rationale (shown above) to determine the required air volume to cool this application.  In these types of applications, we derive a ΔT value between the desired ending temperature of the material and the temperature of the air which will be blown onto the material.  So, for this application, we have a desired end temperature of 30°C, and we have considered an outlet temperature of 0°C from a Vortex Tube device.

After determining all the required values, I performed the calculations shown below to arrive at a volume flow of 15.8 CFM.

Cooling calculations for ASC in aluminum plate application

Calculations for determining the required air volume in this application (click for larger view)

In uncovering that the ambient conditions may change, and sharing that these changes could create variance in the required air volume, the end user opted for two model 3925 Adjustable Spot Coolers to provide the required cooling.  Just like Vortex Tubes or Cold Guns, the Adjustable Spot Coolers allow for repeatable delivery of very cold air to the application, but they also have the additional benefit of easy “fine tuning” through the adjustment valve on the hot end of the unit.

Cooling Unit - Details

The cooling unit for the aluminum plates (click for larger view)

The cold air created by the Adjustable Spot Coolers are fed to the nozzles shown above in red.  By supplying an adequate volume of cold air at the right temperature, the problem in this application has been easily solved.

If you have an application with a heating concern, give us a call.  We’re happy to help.

Lee Evans
Application Engineer
LeeEvans@EXAIR.com
@EXAIR_LE

The Super Air Knife: It’s Super Easy To Install

One of the more commonly asked questions about one of our more commonly asked-about products is:

“How do you install a Super Air Knife?”

Well, I’m glad you (or, in this case, “they,”) asked! There are several options, and they’re all pretty simple:

The Universal Air Knife Mounting System – right out of the box, the 9060 Universal Air Knife Mounting System is ready to go. It gives you a complete range of motion, so changes to the angle, direction, and distance of the air flow to the target are quick and easy. Multiple systems provide secure support for longer Air Knife lengths.

The 9060 Universal Air Knife Mounting Systems are perfect for simple, fast installation and positioning.

The 9060 Universal Air Knife Mounting Systems are perfect for simple, fast installation and positioning.

The Air Knife Plumbing Kit – Air Knives 24″ and longer need to be supplied at multiple inlets.  A Plumbing Kit comes with everything you need to get that down to just one (lengths to 54″) or two (lengths to 108″) 1/2 NPT connections, saving you from hunting down the fittings and hose or tube, while ensuring you get sufficient air flow for optimum performance.

Plumbing Kits

The Super Air Knife Itself (part 1) – because the Air Knife cap & body are held together with a series of Stainless Steel cap screws, there’s a 1/4″-20 tapped hole, about 3/8″ deep, every 2″ along the bottom of the body. These are commonly used to install the Air Knife to an acceptable mount.

If you've got something to hold it to, mounting a Super Air Knife with 1/4"-20 fasteners is a snap!

If your equipment already has rails or a frame, mounting a Super Air Knife with 1/4″-20 fasteners is a snap!

The Super Air Knife Itself (part 2) – like I said above, when they get longer than 24″, an Air Knife needs to be supplied at both ends to ensure proper air flow across the entire length. There are MANY Super Air Knives installed over conveyor belts (a “textbook” application) that are simply supported by hard piping to both ends. The Air Knife is, essentially, as well supported as the piping.

Use the supply piping to adequately support longer lengths of Super Air Knives

Use the supply piping to adequately support longer lengths of Super Air Knives.

The Super Air Knife Itself (part 3) – I saved “part 3″ to talk about the 3” Super Air Knife specifically…see what I did there? These short, compact units can actually be supported and plumbed properly, using a Magnetic Base and a Stay Set Hose.

Install and reposition a 3" Super Air Knife using any steel surface with a Mag Base & Stay Set Hose.

Install and reposition a 3″ Super Air Knife using any steel surface with a Mag Base & Stay Set Hose.

If you’ve got an application for a Super Air Knife, we can help you get in installed, in a snap. Call me; let’s talk!

Russ Bowman
Application Engineer
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Cold Gun Cools Cutting Die During Credit Card Manufacturing

I took an interesting call from a credit card manufacturer last week looking for a way to provide some cooling during their manufacturing process. First, the plastics used in the cards are melted and mixed with other materials then sent through an extruder where they are formed into flat sheets and laminated with a thin film as they exit the machine. The specific card design is then silk screen printed onto the card and once again laminated with another film to provide protection as well as extra strength. After being laminated, the sheets are sent through a die cutter where they are cut into the individual cards and embossed with the credit card number. It was at this point of the operation that the customer was starting to see the cards become warped due to the die cutter heating up, which resulted in irregular prints during the embossing stage. The customer is unable to use a liquid based cooling system in the process so they took to the internet to search for alternate cooling methods using air and decided to call the experts for assistance.

After reviewing the specifics with the customer, I recommended they use our Model # 5215 Cold Gun System with a single outlet flexible hose, allowing the operator to direct the cold air to the critical area, or in the particular case, the cutting die. The Cold Gun produces a cold airstream providing 1,000 Btu/hr. of cooling and a temperature drop of 50°F from the compressed air supply temperature. Incorporating a Vortex Tube, there are no moving parts and virtually no maintenance required, provided they are supplied with clean, dry filtered air. To ensure this, the system includes a filter separator to remove any contaminants or water in the supply line. There is also an integral magnetic base, allowing for a simple installation and the ability to relocate the device to another part of the process if needed.

5215

Cold Gun System, Model # 5215 with filter, single point hose with 3/8″ cone nozzle, optional 1-1/4″ flat fan nozzle and integral mag base.

Here at EXAIR, we are committed to providing the best assistance possible when considering our products as a solution. For help selecting the best option or to discuss the specifics of your application, give us a call.

Justin Nicholl
Application Engineer
justinnicholl@exair.com
@EXAIR_JN

 

Energy Rebates and EXAIR Products

In case it goes unnoticed, EXAIR focuses on engineered compressed air point of use products to ensure that our customers are utilizing their costly utility as efficiently as possible.  The main benefits to purchasing EXAIR products are the support you receive from us at EXAIR, the quality of the product, the savings in compressed air, and the increase in safety.  Another added benefit is a large number of utility companies are offering rebates on the purchase of engineered nozzles, just like the Super Air Nozzles that EXAIR offers.

Many energy providers offer these energy rebates for commercial or industrial users.  Here in the Cincinnati area, Duke Energy offers rebates on items such as lighting, air compressors, engineered air nozzles, heaters / dryers for extrusion machines, energy management systems, variable frequency drives, data center equipment, even food service equipment, custom incentives, and many other items.

Duke Energy Rebate

Example of our local energy rebate offering for Engineered Nozzles

For each engineered compressed air nozzle that is installed, in order to meet the rebate requirements they must flow less than or equal to given flow rates in SCFM at 80 psig inlet pressure. The pipe sizes, flow rates, and EXAIR equivalents are shown below.

EXAIR Engineered Air Nozzle Part Number EXAIR Flow Rate @ 80 psig
#1102/#1103 – 1/8 NPT 10 SCFM
#1100/#1101 – 1/4 NPT 14 SCFM
#1108SS-NPT/#1109SS-NPT/#1110SS-NPT
All are 1/8 NPT
2.5, 4.9, 8.3 SCFM
respectively
#1003 – 3/8 NPT 18 SCFM

By just replacing the nozzles the customer saved 2.7 SCFM per nozzle.If we take an example such as the EXAIR Case Study  shown below for 1/4″ copper tube that was being used as an open ended blow off.  The copper tubes were consuming 19.6 SCFM at 100 psig inlet pressure, there were 10 machines with one line per machine operating 40 hours, 52 weeks per year.   The customer retrofitted the open pipes with a model 1100 Super air nozzle and was able to reduce the air consumption by 2.7 SCFM per nozzle.  If they were to purchase these nozzles this year, current list price for a model 1100 Super Air Nozzle is $36.00 USD, then apply for the energy rebate offered by Duke Energy and receive $20.00 per nozzle replaced.  The total savings and return on investment is shown below.

Case Study 1561

EXAIR Model 1100 Super Air Nozzle Replaces Open Copper Pipe Blow Off

10 nozzles x 2.7 SCFM = 27 SCFM  x 60 minutes per hour x 8 hours per day x 5 days per week x 52 weeks per year = 3,369,600 SCF of compressed air saved per year.

3,369,600 / 1,000 SCF x $.25 = $842.40 USD savings in compressed air per year.

Cost Savings per week = $16.20 USD

Total purchase cost is  $36.00 x 10 nozzles = $360.00 USD

Energy Rebate = @20.00 per nozzle x 10 nozzles  = $200.00 USD in rebates.

$360.00 USD purchase price – $200.00 USD energy rebate = $160.00 USD final purchase cost.

Return on investment at a savings of  $16.20 USD per week is

$160.00 / $16.20 = Less than 10 weeks pay back!

By applying for the energy rebate this customer could reduce the ROI of this air savings project from just over 22 weeks (which is still very good) to less than 10 weeks.

If you would like to learn more about whether there are Industrial energy rebates available in your area, contact an Application Engineer and let us know where you are located and who your energy provider is.

We will help you determine the correct engineered solution to save your compressed air as well as help you to apply for eligible energy rebates in your area.

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

 

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