Numerical simulation of elliptical particles sedimentation in power-law fluid using the improved smoothed profile-lattice Boltzmann method

Simulation of non-circular particles movement in the power-law fluid has not been considered in detail because of the challenges existing in the identification of particles. Accordingly, the present work has numerically considered the elliptical particles sedimentation in a two-dimensional box fille...

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Bibliographic Details
Published inParticulate science and technology Vol. 39; no. 5; pp. 569 - 589
Main Authors Rouhani Tazangi, Hamideh, Soltani Goharrizi, Ataallah, Jahanshahi Javaran, Ebrahim
Format Journal Article
LanguageEnglish
Published Philadelphia Taylor & Francis 04.07.2021
Taylor & Francis Ltd
Subjects
Aspect ratio
Computational fluid dynamics
Density ratio
Ellipses
Elliptical particles
Flow distribution
lattice Boltzmann method
Newtonian fluids
particulate flow
Power law
power-law fluid
Sedimentation
Sedimentation & deposition
Shear thinning (liquids)
smoothed profile method
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Summary:Simulation of non-circular particles movement in the power-law fluid has not been considered in detail because of the challenges existing in the identification of particles. Accordingly, the present work has numerically considered the elliptical particles sedimentation in a two-dimensional box filled with the power-law fluid by using the improved smoothed profile-lattice Boltzmann method (iSPM-LBM). The SPM was applied to assign the fluid-solid interaction. Furthermore, the effects of orientation, density ratio and aspect ratio on the flow patterns during the sedimentation of the single ellipse were considered. The results showed that decreasing the power-law index and increasing the aspect ratio and also, density ratio caused the stability of the particles to disappear, such that they started oscillation. The oscillation in the shear-thinning fluid was more than that observed in others. In the next case, the dynamics of two identical ellipses was investigated in different initial inclinations. It was observed that the sedimentation of particles in the shear-thinning fluid happened more quickly in comparison to the other two ones. Also, the kissing phenomenon did not occur for all cases considered. The results of the present study were then compared with those obtained from the previously published works on the Newtonian fluid, showing a good agreement.
ISSN:0272-6351
1548-0046
DOI:10.1080/02726351.2020.1788680