Analyzing Homogeneity of Highly Viscous Polymer Suspensions in Change Can Mixers

Michael Roland Larsen*, Erik Tomas Holmen Olofsson, Jon Spangenberg

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

19 Downloads (Pure)

Abstract

The mixing of highly viscous non-Newtonian suspensions is a critical process in various industrial applications. This computational fluid dynamics (CFD) study presents an in-depth analysis of non-isothermal mixing performance in change can mixers. The aim of the study was to identify parameters that significantly influence both distributive and dispersive mixing in these mixers, which are essential for optimizing industrial mixing processes. The study employed a numerical design of experiments (DOE) approach to identify the parameters that most significantly influence both distributive and dispersive mixing, as measured by the Kramer mixing index (MKramer) and the Ica Manas-Zloczower mixing index λMZ¯. The investigated parameters included mixing time, number of arms, arm size ratio, revolutions per minute (RPM), z-axis rotation, z-axis movement, and initial and mixing temperatures. The methodology involved employing the bootstrap forest algorithm for predicting the mixing indices, achieving an R2 of 0.949 for MKramer and an R2 of 0.836 for λMZ¯. The results indicate that the z-axis rotation has the greatest impact on both distributive and dispersive mixing. An increased number of arms negatively impacted λMZ, but had a small positive effect on MKramer. Surprisingly, in this study, neither the initial temperature of the material nor the mixing temperature significantly impacted the mixing performance. These findings highlight the relative importance of operational parameters over traditional temperature factors and provide a new perspective on mixing science.
Original languageEnglish
Article number2675
JournalPolymers
Volume16
Issue number18
Number of pages16
ISSN2073-4360
DOIs
Publication statusPublished - 2024

Keywords

  • computational fluid dynamics
  • homogeneity
  • mixing
  • parameter investigation
  • suspensions

Fingerprint

Dive into the research topics of 'Analyzing Homogeneity of Highly Viscous Polymer Suspensions in Change Can Mixers'. Together they form a unique fingerprint.

Cite this