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- Title
Chaotic mixing in a free‐helix extruder using a new solution to the biharmonic equation.
- Authors
Campbell, Gregory A.; Taylor, Ross; Wetzel, Mark D.; Chempath, Shaji; Bomma, Sirisha; St. John, Samuel; Hunt, Diana; Powers, David L.
- Abstract
A recently published approach for modeling the cross flow in an extruder channel using a new solution to the biharmonic equation is utilized in a study of chaotic mixing in a free‐helix single‐screw extruder. This novel extruder was designed and constructed with the screw flight, also referred to as the helix, detached from the screw core. The flight‐helix had straight sides that more closely emulated rectangular channel theory than the nominal sloped sides of a conventional single screw channel. Each of the screw elements could be rotated independently to obtain chaotic motion in the screw channel. Using the new extruder, experimental evidence for the increased mixing of a dye, for both a Dirac and droplet input, with a chaotic flow field relative to the traditional residence time distribution is presented. These experimental results are compared using the new biharmonic equation‐based model. Comparing the experimental chaotic mixing with theoretical calculations was facilitated by a recently published technique for accurately placing the dye in the extruder channel. Because of the ability to periodically rotate only the flight/helix, the chaotic mixing results are minimally confounded by the existence of Moffatt eddies.
- Subjects
BIHARMONIC equations; CHANNEL flow; SCREWS
- Publication
AIChE Journal, 2022, Vol 68, Issue 4, p1
- ISSN
0001-1541
- Publication type
Article
- DOI
10.1002/aic.17557