The effect of stator design on flowrate and velocity fields in a rotor-stator mixer—An experimental investigation

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Rotor-stator mixers (RSMs) are available in different designs, e.g. with different number of stator slots and slot dimensions. However, the relationship between stator design and the RSM hydrodynamics is not well understood. Consequently, manufacturers still base design and stator screen recommendations on trial-and-error. This study reports experimental measurements of how the flowrate through the stator slots, and velocity profiles in the region of relevance for mixing and breakup, is influenced by the stator slot width, using particle image velocimetry. It is concluded that the flowrate can be described by a design dependent flow number for all investigated geometries and that the flow number decreases with increasing slot width. Moreover, by studying the velocity profiles at different rotor speeds and designs, it is concluded that the velocity profile, its skewness and the proportion of back-flow (fluid re-entering the slot) scales with the flow number of the design. This suggests that the flow number, in addition to rotor speed, is a highly relevant parameter for describing the effect of design on batch RSM hydrodynamics.


Enheter & grupper
Externa organisationer
  • Tetra Pak AB
  • Kristianstad University

Ämnesklassifikation (UKÄ) – OBLIGATORISK

  • Kemiska processer


Sidor (från-till)245-254
Antal sidor10
TidskriftChemical Engineering Research and Design
StatusPublished - 2017 maj 1
Peer review utfördJa