Every day I speak with engineers who are having trouble using compressed air products. A common problem they have is not providing an adequate air supply to their unit. I go through a basic troubleshooting technique to ensure that their pressure and flow rate is adequate. I ask them to install tee on the inlet to the compressed air product in order to install a pressure gauge right at the inlet to the pipe. This allows us to know exactly what pressure we are supplying to the product. Customers are always surprised how the gauge on the compressor or the regulator may read 120 PSIG, but the gage on the inlet to the compressed air product is significantly less.
Last year, my colleague, Russell Bowman, made an excellent video showing how the inlet pressure at the knife will have a significant impact on the performance of the Super Air Knife. In the video, he changes the length and ID of the compressed air supply to illustrate the difference a proper supply line will have on the performance of a compressed air products.
Not providing adequate air supply is commonly caused by these three mistakes, when plumbing compressed air systems.
1. Incorrectly Sized Piping – This can be the single biggest problem. A lack of planning before installing a compressed air product. Not all compressed air systems are created equal. Though a 1/4″ shop air hose may work for a number our products, some of our products require a larger air line because they require more volume of air to be effective. We often speak with customers an illustrate this problem by stating small air lines are like trying to feed a fire hose with a garden hose – there simply is not enough volume to create the pressure necessary to reach the fire, or solve the application in our scenarios. We publish the flow rates for all of our products and make inlet pipe size recommendation in the installation and maintenance guide furnish with the products so you may avoid this common problem. We also have air data tables in our Knowledge Base or you may consult an application engineer who will be happy to make the proper recommendation.
2. Quick Disconnects – These handy connectors are great when operating a brad nailer, or a small blow gun, but the small through diameter can severely limit the flow rate into a long air knife, large diameter air operated conveyor, or big vortex tubes. Due to this fact it is strongly advised to use threaded fittings or over-sized quick disconnects.
3. Adding extra hose or pipe – Extra hose is never a bad thing, right? No, an extra 30 feet of air hose can significantly drop the pressure of a compressed air system. 20 feet of ½ Pipe can flow 70 CFM with a 5 PSI pressure drop. 50 feet of ½” pipe will only flow 42 SCFM with the same 5 PSIG pressure drop. Keep your hose or pipe lengths to a minimum to improve the volume of air you can deliver to a compressed air product.
Dave Woerner
Application Engineer
DaveWoerner@EXAIR.com
@EXAIR_DW
Filed under: Compressed Air, Compressed Air Optimization, Compressor Tagged: 3, air flow, air flow through pipe, Air Knife, air pressure, air vloume, air volume, airflow, CFM, common mistakes, compressed air, compressed air efficiency, compressed air product applications, compressed air products, compressed air trouble shooting, compressed air troubleshooting, dawoerner, exair, FAQ, flow through pipe, Frequently Asked Questions, Line Vac, pipe fittings, pipe size, pipe sizing, plumbing, pressure drop, pressure loss, qd, quick, quick disconnect, regulator, SCFM, three, tips, troubleshooting, tubing, video, volume loss, vortex tube
