@EXAIR For Technical Assistance, Call An EXAIR Application Engineer 1-800-903-9247 Toll Free FAX (866) 329-3924 • E-mail: [email protected] • www.exair.com 50 Air Amplifiers Model 6042 2" (51mm) Adjustable Air Amplifiers with swivel fittings cool inductively heated axles prior to installing the hubs. Adjustable Air Amplifiers Metal parts are dried using a series of Model 6042 2" (51mm) Adjustable Air Amplifiers. Adjustable Air Amplifier Performance at 80 PSIG (5.5 BAR) Air Consumption Amplification Air Volume at Outlet Air Volume at 6" (152mm) Sound Level Model # SCFM SLPM RATIO SCFM SLPM SCFM SLPM dBA 6030, 6040 8.9 252 10 89 2,520 267 7,560 78 6031, 6041 12.9 365 16 206 5,833 618 17,500 81 6032, 6042 21.5 608 20 430 12,176 1,290 36,529 82 6033, 6043 35.2 997 22 774 21,917 2,323 65,780 83 6034, 6044 50 1,416 24 1,200 33,980 3,600 101,941 84 Tested with .002" (0.05mm) gap. A series of Adjustable Air Amplifiers dry and cool a large machined casting as it exits a high temperature wash. Adjustable Air Amplifier™ Highly effective air mover that easily adjusts to your application! What Is The Adjustable Air Amplifier? The air gap is infinitely adjustable which regulates the consumption and outlet flow from a “breeze” to a “blast”. They are available in aluminum or in stainless steel for food service, higher temperatures (400°F/204°C), and corrosive applications. High Temperature Stainless Steel Air Amplifiers for temperatures up to 700°F (374°C) are also available. Please contact an Application Engineer. Force and flow for the Adjustable Air Amplifier is changed by turning the exhaust end (with the knurled ring loose) to open or close the continuous air gap. When desired performance is obtained, the knurled ring can be tightened to lock the flow at that setting. In most cases, a .002" to .004" (0.05mm to 0.10mm) air gap is ideal. How To Determine Adjustable Air Amplifier Total Output Flow And Air Consumption Total Airflow: From the performance curves (above), determine total output flow for any Adjustable Air Amplifier at any pressure. Example: A Model 6031 at 60 PSIG (4.1 BAR) supply air pressure has a total output flow of 165 SCFM (4,672 SLPM). Air Consumption: Divide total output flow by the amplification ratio (shown in the chart) to determine air consumption for any Adjustable Air Amplifier at any air pressure. In the example above, the Model 6031 at 60 PSIG (4.1 BAR) supply air pressure has a total output flow of 165 SCFM (4,672 SLPM). Dividing this total flow by its amplification ratio of 16 gives an air consumption of 10.3 SCFM (292 SLPM). Total Output Flow with .002" (0.05mm) gap setting. Excludes downstream entrainment. MOBILE VIEW
