\begin{document}$n = 1$\end{document}, the fluid obtained is a Newtonian fluid. The analysis results in this paper are compared with the analytical approximate solutions obtained in the Debye–Hückel linear approximation to prove the feasibility of the numerical method in this paper. In addition, the influence of behavior index n, Hartmann number Ha, rotation angular velocity \begin{document}$\Omega $\end{document}, electric width K and slip parameters \begin{document}$\beta $\end{document} on the velocity distribution are discussed in detail. It is obtained that when the Hartmann number Ha > 1, the velocity decreases with the increase of the Hartmann number Ha; but when the Hartmann number Ha < 1, the magnitude of the x-direction velocity u increases with the augment of Ha."> Rotational electroosmotic slip flow of power-law fluid at high zeta potential in variable-section microchannel - 必威体育下载

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    Zhang Tian-Ge, Ren Mei-Rong, Cui Ji-Feng, Chen Xiao-Gang, Wang Yi-Dan
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    • Abstract views:2944
    • PDF Downloads:45
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    Publishing process
    • Received Date:16 December 2021
    • Accepted Date:03 March 2022
    • Available Online:29 June 2022
    • Published Online:05 July 2022

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