Flowpattern in hydrocyclones, numerical simulations with experimental verification
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https://hdl.handle.net/10037/32284Date
2023-12-21Type
Journal articleTidsskriftartikkel
Peer reviewed
Abstract
This paper reports a detailed study of the flow in cyclone separators, with the use
of most up to date computational fluid dynamics simulations, which are validated with positron
emission particle tracking (PEPT) experiments tracing the movement of particles through the
cyclone. The parameters varied were the viscosity of the carrier liquid, the flowrate and, in
the numerical simulations, the inlet configurations of the cyclone, namely one and two inlets
and, with the two inlets, a) both at right angles to the cyclone axis and b) angled downwards.
The study reveals features of the flow, which have not been seen till now, but are necessary
for the understanding and modelling of the separation and purification efficiency of cyclones.
The results of the simulations and the close agreement with experiment are a testament to the
reliability and accuracy of large eddy simulation (LES), even for flow features as difficult to
simulate as the confined strongly swirling flows in cyclone separators. The results show that a
contiguous, smooth surface of zero axial velocity does exist and has approximately the shape
that has been assumed by modellers. The significant effects of fluid viscosity, underflow and
modifications to the inlet are also shown.
Publisher
IOP PublishingCitation
Hoffmann AC, Fonnes, Chang Y.-F.. Flowpattern in hydrocyclones, numerical simulations with experimental verification. Journal of Physics: Conference Series (JPCS). 2023;2675Metadata
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