BT Series Blow-Through Feeder/Airlock ensures optimal throughput of materials
Sep 27, 2011 11:21 AM
The BT Series Blow-Through Feeder/Airlock from ACS Valves is designed to ensure optimal bulk density and throughput of hard-to-convey materials such as fine powders and flakes that, in high-pressure pneumatic conveying applications, can easily over-aerate and reduce material feed efficiency.
The BT Series Feeder/Airlock design decreases excess aeration of the material during conveying with an integrated vent port on the return side of the valve housing that automatically vents air leakage. The eight-vane rotary valve design reduces air leakage and maximizes the flow path of air through the rotor pocket, improving material pocket release. The minimal air leakage and resulting low, effective pressure drop of the BT Series optimize material flow density, improve material conveying efficiency, and reduce total compressed air consumption.
BT Series housings are cast in North America to ensure strength in the composition and solidification of the housing’s metallurgy. The strength of the BT Series valve housing provides optimal service in high-temperature applications, and applications requiring pressure differentials up to 20 psig. These housings are also CNC-machined to precise tolerances to ensure extended duty cycles by eliminating axial shaft movement, seal leakage, and shortened bearing life. The BT Series further extends maintenance cycles with an outboard bearing design that removes bearings from the path of damaging and contaminating materials. Additional process efficiency is provided by an ACS variable-frequency drive to modulate the feeder drive speed and reduce power requirements based on fluctuating performance needs of the system.
Housings are available in cast iron, or 304 or 316 stainless steel; in either 8-inch or 10-inch, round flange sizes. The BT Series is available with a hard chrome housing interior, and with adjustable rotor tips.
Phone 800-655-3447 or access www.acsvalves.com for further information.
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