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Experimental/Numerical Analysis of Chaotic Advection in a Three-dimensional Cavity Flow

  • P. D. Anderson , D. Ternet , G. W. M. Peters and H. E. H. Meijer
Published/Copyright: March 26, 2013
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International Polymer Processing
From the journal International Polymer Processing Volume 21 Issue 4

Abstract

Advection of material volumes in a three-dimensional cavity flow is analyzed by using an experimental setup and a collection of computational tools. The experimental setup for the lid-driven cavity flow makes it possible to study the advection of drops for a wide range of flow parameters. The location of unmixed regions for a specific mixing protocol is predicted by means of the mapping method, which are then used to determine the initial location of the dyed drops in the experiments. Finally, an adaptive front tracking method is used to computationally follow the drops during flow in a precise way. In most cases, a qualitative comparison between the experiments and the simulations is found. In addition, the mapping method proves to be well suited to quickly predict unmixed regions in mixers.

∗ Mail address: P. D. Anderson, Materials technology, Dutch Polymer Institute, Eindhoven University of Technology, P.O. Box 513, 5600 MB Eindhoven, the Netherlands. E-mail:

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Published Online: 2013-03-26
Published in Print: 2006-09-01

© 2006, Hanser Publishers, Munich

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https://doi.org/10.3139/217.0125

Articles in the same Issue

  1. Contents
  2. Contents
  3. Regular Contributed Articles
  4. A Study of Integration of LIGA and M-EDM Technology on the Micro Injection Molding of Super Thin Plates with Micro Through Holes
  5. Carbon Black Filled Polyester as Electrically Conductive Master Batch for Fibers
  6. Tip-clearance Effect on Mixing Performance of Twin Screw Extruders
  7. Structure Development in Melt Spinning and Cold Drawing of Poly(ethylene-co-octene) Copolymer
  8. Effect of Distributor Geometry on Crimp Contraction of PET Side-by-side Bicomponent Fibers
  9. Effect of Compatibilizer Distribution on Thermal and Rheological Properties of Gelatinized Starch/Biodegradable Polyesters Blends
  10. Numerical Simulation of the Effect of Processing Parameters on the Flow Behavior and Break-through Phenomenon in Co-Injection Molding
  11. Study of Shrinkage and Warpage in Microcellular Co-Injection Molding
  12. Melting Temperature Characteristics for Polyethylenes from Crystal Size Distribution
  13. Experimental/Numerical Analysis of Chaotic Advection in a Three-dimensional Cavity Flow
  14. A Numerical Investigation on the Cure Cycle of Composite Brake Blocks
  15. PPS News
  16. PPS News
  17. Seikei-Kakou Abstracts
  18. Seikei-Kakou Abstracts
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