Theoretical and numerical study of Couette‐Taylor flow with an axial flow using lattice Boltzmann method - Université Polytechnique des Hauts-de-France
Article Dans Une Revue International Journal for Numerical Methods in Fluids Année : 2019

Theoretical and numerical study of Couette‐Taylor flow with an axial flow using lattice Boltzmann method

Résumé

In this study, the numerical models for swirling flows developed by Li et al and Zhou for lattice Boltzmann method (LBM) are chosen. These models were firstly validated using the Couette-Taylor flow between two concentric cylinders simulations. Numerical results showed the efficiency of the Zhou's model. Numerical simulation results using LBM are in good agreement for the steady and unsteady regimes compared to the literature review. In a second step, the Zhou model was then adopted to our study to determine the Couette-Taylor instabilities with an axial flow. Two protocols are tested. The first one (direct protocol) starts with an azimuthal flow without any axial flow (Re = 0). Once the regime is established, an axial flow is then superposed to the Couette-Taylor flow (with a sudden or a progressive manner). The second protocol (inverse protocol) starts with an axial flow at a given Reynolds number (Poiseuille flow). Once the regime is established, an azimuthal flow is the executed (with a sudden or a progressive manner). The effect of various parameters controlling the physical situation is also discussed. The increase of the azimuthal velocity mainly led to the emergence and development of Taylor vortices. Its influence decreases when the axial Reynolds number increases. The relevant result for this study is the change of the critical axial Reynolds number Rec (total disappearance of instabilities) with both protocols and both manners.
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Dates et versions

hal-03612765 , version 1 (18-03-2022)

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Insaf Mehrez, Ramla Gheith, Fethi Aloui, Sassi Ben Nasrallah. Theoretical and numerical study of Couette‐Taylor flow with an axial flow using lattice Boltzmann method. International Journal for Numerical Methods in Fluids, 2019, 90 (9), pp.427-441. ⟨10.1002/fld.4727⟩. ⟨hal-03612765⟩
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