EXAIR’s Research & Development Engineers continue to set a high bar on new product introductions, and our Marketing team continues to keep pace with them to get information about those new products to users who will benefit most from using them. To that end, a Press Release was issued on February 22, 2023 (coincidentally, a day we call Founder’s Day) to announce our newest video:
With 142 (so far) distinct models, odds are that no matter what you’re spraying, or what you’re spraying it onto (or into), EXAIR has an Air Atomizing Spray Nozzle (or Liquid Atomizing Spray Nozzle, which adds another 35 distinct models to our liquid spraying nozzle offerings) to meet your needs.
If you’d like to find out more about a particular Spray Nozzle, or any of our engineered compressed air products, for that matter, give me a call.
Russ Bowman, CCASS
Application Engineer Visit us on the Web Follow me on Twitter Like us on Facebook
You’ve probably been there. You install a new Super Air Knife, or an EasySwitch Wet-Dry Vac (or any other product), and it doesn’t work as we promised. Or it works great for 2-3 years, and now it’s faltering. You have trouble shot everything you know to do. You’ve changed the filters, checked for leaks on the product, checked the connections, but still it is not performing as it was, or how it is supposed to. This is usually when I get the call, and more times than not, the issue is related to the air supply.
Whether this new item isn’t performing, or an older product has been working for 2 weeks, months, or years and stops, we first need to confirm the pressure. First, we need to make sure there is a T and pressure gauge at the point of use. Although psig is only one factor of the air flow, if it is too low (or too high in some cases) that is a definite problem. Without the proper psig, our tools will not function properly. If the psig is sufficient, and our product is not operating as claimed, the next thing we check is the SCFM.
There are a few ways of finding the SCFM…one is very easy and reliable, and the other can get you close enough to realize if there is a problem or not. The easy way is by installing a Digital Flow Meter near the point of use. Although the most reliable, it is not always feasible or cost-effective to have these near every air application in your system.
Without the Flow Meter, we need to start looking for reasons why the SCFM is not there. Whether a new install or an existing one, we need to evaluate the air flow by starting with the basics. Let’s start by identifying how much air your application requires. For instance, a Super Air Knife consumes 2.9 SCFM per inch, so a 48″ Super Air Knife will use 139.2 SCFM (at standard operation), that is equivalent to a 35 HP compressor dedicated solely to this 1 product. Assuming your compressor is large enough to flow this amount of air, we need to see what other products are being utilized in the system as well. Does your overall system have enough air to run each product?
So your compressor is large enough, the next step is to look at your line size. To run 139.2 SCFM, you will need a 3/4″ line and that is if you are within 20 ft of the source (compressor). If you are 150 feet away, you will need 1 1/4″ lines, and so on. This is an issue that pops up often.
The next thing we look for is any type of restrictions on the line. Are your filter and oil separators sized properly? Were there new products / stations added to the line. Is the product itself being maintained properly? Is your Air clean and dry? Are there any other line restrictions that could be interfering with the flow?
If all of these things check out, our last course of action is to get the product back for evaluation. We will tear it apart, many times needing to destroy it to find the cause. But proudly, I must say that we rarely find a manufacturing defect, but we look hard just in case, because we want to know as well. We can usually show you the issue, and find the root cause. Our reputation and quality is the highest in the industry, and it is not something we take lightly. We want to find a defect if it exists, so that we can immediately address them, and head off any future issues.
If you have one of our products that isn’t functioning as you hoped, or just purchased one that isn’t up to par, please look at some of the items mentioned above. And as always, reach out to us and let us help f we can.
Thank you for stopping by,
Brian Wages
Application Engineer
EXAIR Corporation Visit us on the Web Follow me on Twitter
It’s not difficult to spray a liquid – oftentimes, you just need to pressurize it and force it out a small(ish) hole, or array of holes, in a nozzle-type device. If your application calls for small droplet size, a consistent & repeatable spray pattern, precise control of the flow rate, pattern size & shape, or the ability to turn the flow on & off, you might be looking for an engineered solution like EXAIR’s Air Atomizing Spray Nozzles.
With 142 distinct models, we can accommodate liquid flow rates as low as 0.14 gallons per hour, to as high as 303 gallons per hour, and patterns as small as 2″ round (at 6″ from the nozzle), and as large as a 13 foot hollow circular pattern.
From Round Patterns (left), to Flat Fan Patterns (middle), to Hollow Circular Patterns (right), EXAIR has Spray Nozzles to suit your liquid spraying needs.
Internal Mix Air Atomizing Spray Nozzles mix the air & liquid internally (just like the name implies), which means that both the air supply pressure, and the liquid supply pressure, will affect the liquid flow rate, and the pattern size. This makes for an incredibly wide range of adjustability. Consider our Model AN1010SS Internal Mix Narrow Angle Round Pattern 1/4 NPT Air Atomizing Spray Nozzle. Let’s say we want to spray about 1-1/2 gallons per hour…that’s about 3 fluid ounces a minute, which is a pretty light mist, comparable to what you might get from a typical trigger spray bottle of kitchen or bath cleaner in your home. We can do that (or thereabouts) at several different combinations of liquid & air supply pressures, highlighted in different colors below:
GREEN: With liquid at 10PSI, and air at 10psig, we can spray this amount with a fairly tight 2.3″ to 5″ diameter, when we get 6 – 15″ (respectively) away from the nozzle tip.
BLUE: If we wanted to widen that out a bit, increasing to 20PSI liquid & 24psig air, the flowrate increases slightly to 1.7 gph (an extra half ounce a minute) but the diameter of the spray pattern increases to a 2.8″ to 6″ diameter.
YELLOW: Increasing the liquid to 30PSI and air to 36psig increases the spray pattern to a 3.0″ to 6.5″ diameter, while keeping the flow rate in the same neighborhood.
ORANGE: At 40PSI liquid & 48psig air, we can get a spray pattern diameter of 3.5″ to 6″ diameter.
We can get a 4″ to 7″ diameter with a little more air & liquid pressure, but that starts to increase the flow rate as well. If we want to keep the flow rate lower and still get a larger pattern, we’ll consider Model AW1010SS Internal Mix Wide Angle Round Pattern 1/4 NPT Air Atomizing Spray Nozzle:
GREEN: Regulating the liquid to 10PSI and air to 10psig, this Wide Angle Round Pattern model now gives us a 7″ to 14″ round pattern…about three times as big as the AN1010SS under the same conditions, with the same liquid flow rate.
BLUE: 20PSI liquid pressure and 20psig air pressure increase the flow pattern to 9″ – 15″ in diameter.
YELLOW: At 30PSI liquid pressure and40psig air pressure, we’re going to ‘max out’ with a 10″ – 16″ diameter round pattern. Further increases in either liquid or air supply pressure will increase the liquid flow rate without appreciably changing the pattern size.
EXAIR has a comprehensive line of Spray Nozzles, engineered for efficiency & ease of operation. If you have a liquid spraying application you’d like to discuss, give me a call.
Russ Bowman, CCASS
Application Engineer Visit us on the Web Follow me on Twitter Like us on Facebook
New to EXAIR’s line of Atomizing Nozzles are the FullStream and HollowStream Liquid Only Atomizing Nozzles. This family of nozzles does not require any source of compressed air to operate, just a supply of pressurized liquid.
They produce droplets by spinning the liquid and breaking its surface tension through a precise orifice or by impacting the liquid onto the surface of the nozzle. Compared to EXAIR’s Air Atomizing Spray Nozzles, these nozzles generate more liquid volume and produce a coarser spray pattern. This higher liquid volume is beneficial for industrial applications including cleaning, cooling, rinsing, dust suppression, and washing. Constructed of Type 303 stainless steel, these durable and rugged nozzles are ideal for industrial applications. They’re available in three sizes: ¼ NPT, 3/8 NPT, and ½ NPT for the Fullstream and ¼ NPT & 3/8 NPT for the HollowStream. These nozzles can achieve flowrates ranging from 0.06 GPM and up to 17.64 GPM with the largest ½” NPT FullStream.
This style of nozzle is a good fit for general-purpose applications in industry and will commonly be used to spray inexpensive liquids such as water, rinse aids, or detergents. They’re also effective for spraying a variety of chemicals, pesticides, and herbicides.
Adjustments to the nozzle’s liquid flow rate can be achieved by regulating the liquid pressure supplied to the nozzles. As we increase the liquid pressure, the flow through the nozzle will increase. As the pressure increases, not only do we increase the overall liquid flow rate but also the size of the spray pattern. If tighter control of liquid flow rate is needed, EXAIR’s Air Atomizing Nozzles will provide such level of control over the application of fluids.
The FullStream Cone Nozzles produce a full cone spray pattern and are among the most common style of spray nozzle available on the market today. They produce a uniform distribution of liquid in a cone shaped round pattern. Their tangential flow is vaneless, creating open internal features that are resistant to clogging for liquids with suspended particles.
The HollowStream Cone Nozzles produce a ring of liquid rather than a full cone. As such, their overall liquid flow volume will generally be less than that of the FullStream coutnerparts. Both the FullStream and HollowStream nozzles work very well with liquids containing particulates.
The nozzles are manufactured out of Type 303 stainless steel for durable and rugged applications up to a maximum temperature of 800°F. With absolutely no moving parts, these nozzles are Built to Last. All sizes are available in stock to ship today with an order in by 2:00 EDT.
