How to Pick the Right Atomizing Spray Nozzle

Atomizing spray nozzles atomize fluids with compressed air to create a fine spray in a variety of patterns for a variety of uses. They are commonly used to mark products, paint or coat, cool, reduce dust, lubricate and clean parts.

With the numerous types of Atomizing Nozzles, it can be challenging to sift through all the information. But with a few basic questions you can narrow down the right nozzle type for you and your application:

142 distinct models. 8 different patterns. Liquid flow rates from 0.1 to 303 gallons per hour. If you’ve got a spraying application, EXAIR has an Atomizing Nozzle for you!

Are you using a pressurized liquid feed? In some cases, a pressurized liquid source is not available for the nozzle, so you would have to rely on a gravity or siphon fed nozzle. While you lose the complexity of having a liquid pump pressurizing your liquid, you do have a few draw backs. Your siphon height is typically with in 36” so your liquid source has to be fairly close to your nozzle. Siphon fed nozzles are hard to turn off and on, they are best used for applications where you are continuously spraying a low viscosity liquid with a low gph.  

Internal Mix Atomizing Spray Nozzles

What is the viscosity of the fluid? Another deciding factor is the viscosity of the liquid you are spraying. Different nozzles are designed for different viscosity. For example, two of the main nozzle types are internal mix nozzles and external mix nozzles. They function just like they sound, internal mix nozzles mix the compressed air and liquid source inside the nozzle. And because of this they typically can not spray liquids over 300 cP. And because external mix nozzles mix the liquid and air outside the nozzle, they can handle liquids well above 300 cP.

What is the liquid flow rate in gallons per hour(gph)? Another factor in choosing the right nozzle is if your application has a set gph you are looking to achieve. Some nozzles are designed to flow more liquid then others. For example, the external mix nozzles inherently flow more liquid then the internal mix. As there is less restriction on the liquid flow. If you are looking for even higher gph you can source a liquid only atomizing nozzle, its going to give you a large bump in gph. But your droplet size will suffer with the liquid only nozzles.

Full Cone Liquid Only Atomizing Spray Nozzle

What droplet size are you looking for? Fine droplet sizes are one of the primary reasons atomizing nozzles are used. Benefits of small droplet sizes include even coating and liquid conservation. Internal mix nozzles will do the best at providing the smallest droplet size possible. While external mix and liquid only will give you larger droplet sizes but they will give you a larger gph some applications need.  

Should I use a No-Drip option?  The No-Drip option positively shuts off liquid flow when the    compressed air supply is shut off.  One benefit of this is appreciated in coating applications, where an errant droplet of liquid would mar an otherwise smooth, even coating.  Operationally, though, it also means you can precisely turn the liquid flow on & off, in short, quick bursts, up to 180 times a second.

No Drip External Mix

If you are in the need for a Liquid Nozzle to assist in your facility, please reach out! We have a team of application engineers waiting from 8AM – 5PM EST to help you size and fit a product to your specific application! 

Jordan Shouse
Application Engineer

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Twitter: @EXAIR_JS

EXAIR NEW Product Offering – Full Stream Cone Liquid Atomizing Nozzles

EXAIR has continued to build on a large catalog of Intelligent Compressed Air Products. In catalog 27 we introduced our Atomizing Nozzles ! I’m happy to announce we have added a new line of FULLSTREAM LIQUID ATOMIZING NOZZLES! , they do not use compressed air. The current Full stream nozzles available are our FullStream Cone Liquid Atomizing Nozzles with a 1/4 NPT port.

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EXAIRS new FullStream Cone Liquid Atomizing Nozzle

EXAIR’s FullStream Cone Nozzles, have a full cone spray pattern, are among the most common type of spray nozzles. Full cone spray nozzles are applied to solve cooling, cleaning, washing, rinsing and dust suppression applications throughout industry. Their design is vaneless, which creates wide open internal features to resist clogging and can work well with liquids containing particulate. They produce a uniform distribution in a full cone round pattern. Their right-angle design is compact and operates up to 250 PSIG liquid pressure. They are commonly used with liquids like water, rinse aids or detergents but are also effective with chemicals, pesticides and herbicides. Adjustment of the liquid flow rate is done by varying liquid pressure. FL1010SS @ 2.36 GPH & 60 PSI

Bellow you will see a video of the FullStream Cone Liquid Atomizing Nozzle, FL1010SS,  2.36 GPH @ 60 PSI. 

 

Bellow you will see the Dimensions and Performance of the FullStream Cone Liquid Atomizing Nozzles!

Full stream liquid nozzels

Full stream liquid nozzelsD

 

 

 

 

 

 

 

 

 

 

 

 

 

If you are in the need for a Liquid Nozzle to assist in your facility, please reach out! We have a team of application engineers waiting from 8AM – 5PM EST to help you size and fit a product to your specific application! 

Jordan Shouse
Application Engineer

Send me an email
Find us on the Web 
Like us on Facebook
Twitter: @EXAIR_JS

Engineered Super Air Nozzles Improve Efficiency and Safety vs. Commercial and Homemade Nozzles

They may be inefficient, but they sure are loud…

Over the years, EXAIR has come across a variety of different types of blow-off devices.  We have seen copper tubes, pipes with a crushed end, fittings with holes drilled into them, and modular flex lines.  For compressed air use, these are very dangerous and very inefficient.  In many instances, companies will go through a mixed bag of items to make a blow-off device for their application.  It is inexpensive to do.  But what they do not realized is that these items are very unsafe and will waste your compressed air, costing you much money in the long run.

When EXAIR started to manufacture compressed air products in 1983, we created a culture in making high quality products that are safe, effective, and efficient.  Since we stand by our products, we created a program called the Efficiency Lab.  We test blow-off devices against EXAIR products in noise levels, flow usage, and force measurements.  With calibrated test equipment, we compare the data in a detailed report for the customer to review.  If we are less effective, we will state that in the report, but this is very rare.  With this quantified information, we can then determine the total amount of air savings and safety improvements that EXAIR products can offer.

With our Efficiency Lab, it is quite simple to do.  For starters, you can go to our Product Efficiency Survey on our website to give the conditions for testing.  If you wish for a side by side analysis, you can place your pneumatic device in a box and send it to EXAIR.  We will run the tests at the specified conditions or in a range of settings.  We will then return your pneumatic device back to you with a report of the comparison.  This report can be used to show managers, executives, HSE, etc. on the improvements that EXAIR can provide in cost savings and safety.

In a recent Efficiency Lab, a customer sent us a water jet nozzle that he was using to blow off product passing on a conveyor (reference photo above).  The customer supplied us with the required information to test.  They had three water jet nozzles on a manifold that had ¼” NPT male connections.  The air pressure was set at 75 PSIG (5.2 bar), and the air pattern was round.  Their annual usage for this blow-off device was 7000 hours continuous, and their electric rate for their facility was $0.10/KWh.  The reason that they sent their nozzle to EXAIR was because the operation was very loud, and they believed that they were wasting compressed air.  They asked me for a recommendation and what the payback period might be with my selection.

Model 1101

I recommended the model 1101 Super Air Nozzle as our standard round pattern with a ¼” NPT male connection.  With our engineered design, the Super Air Nozzle can entrain the “free” ambient air into the air stream to generate a hard-hitting force; using less compressed air.  Also, with this suggestion, they will not have to redesign their blow-off station; just remove the water jet nozzles and replace them with the Super Air Nozzles.  We tested the water jet nozzle, and we found that it used 17.5 SCFM (496 SLPM) at 75 PSIG (5.2 bar).  The noise level was measured at 91.2 dBA for a single nozzle.  As a comparison, the model 1101 Super Air Nozzle will only use 13.3 SCFM (376 SLPM) of compressed air at 75 PSIG (5.2 bar); and, the noise level was reduced to 73 dBA for each nozzle.

The first thing that is important to me is safety.  High noise levels will cause hearing damage.  OSHA generated a standard 29CFR-1910.95a with a chart for Maximum Allowable Noise Exposure.  To calculate the noise level for three nozzles, I will reference a previous blog that I wrote: “Measuring and Adding Sounds”.  With three water jet nozzles, the total sound is 96 dBA.  From the OSHA table above, the usage without hearing protection is less than 4 hours a day.  With the Super Air Nozzles, the noise level will be 78 dBA for all three nozzles; well below the requirement for 8 hours of exposure.  It is difficult to put a monetary value on safety, but using PPE should never be the first step as a solution.

For the annual savings and the payback period, I will only look at the electrical cost.  (Since the Super Air Nozzle is using less compressed air, the maintenance and wear on your air compressor is reduced as well).

The air savings is calculated from the comparison; 17.5 SCFM – 13.3 SCFM = 4.2 SCFM per nozzle.  With three nozzles, the total compressed air savings will be 12.6 SCFM for the blow-off station.  An air compressor can produce 5.36 SCFM/KW of electricity at a cost of $0.10/KWh.  For an annual savings, we have the figures from the information above; 7000 hours/year * 12.6 SCFM * $0.10/KWh * 1KW/5.36 SCFM = $1,645.52/year.  For the payback period, the model 1101 Super Air Nozzle has a catalog price of $44.00 each, or $132.00 for three.  The customer above did not disclose the cost of the water jet nozzles, but even at a zero value, the payback period will be just under 1 month.  Wow!

Not all blow off devices are the same.  With the customer above, they were able to reduce their noise levels and compressed air consumption.  If your company decides to select an unconventional way to blow off parts without contacting EXAIR, there can be many hidden pitfalls; especially with safety.  Besides, if you can save your company thousands of dollars per year as well, why go with a non-standard nozzle?  If you have a blow off application and would like to compare it against an EXAIR product, you can discuss the details with an Application Engineer.  What do you have to lose?

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