\begin{document}$ {a_{\rm wf}}$\end{document}. The parameter \begin{document}$ {a_{wf}}$\end{document} represents the interaction between wall particles and liquid particles. Our simulation results show that the distributions of the velocity, density, temperature and shear stress compare well with the corresponding analytical solutions with \begin{document}$ {a_{\rm wf}} = 9.68$\end{document}, and there is no fluctuation of the fluid density near the wall. This indicates that the no-slip is obtained, and hence the wall is hydrophilic. With \begin{document}${a_{\rm wf}} > 9.68$\end{document}, the wall becomes hydrophobic and the fluid can slip at the wall. The wall becomes more hydrophobic with larger \begin{document}${a_{\rm wf}} $\end{document}, and the stronger hydrophobicity leads to greater slip. The slip velocity and slip length can be used to describe the fluid slip. According to the Navier slip boundary model, the slip velocity and slip length are determined by fitting a straight line (linear fitting) to the velocity profile in the central portion of the channel. The results show that the slip velocity or the slip length is a quadratic function of the parameter \begin{document}${a_{\rm wf}} $\end{document}, namely, the slip velocity or the slip length is a quadratic function of the contact angle. A physical mechanism of the fluid slip over hydrophobic surfaces is also proposed. The density profile is uniform for the no-slip condition, but there is a layer of low density fluid near the wall when the fluid can slip at the wall surface. This low density region can disrupt the momentum transfer between the wall and the fluid, which induces the fluid slip at the wall surface."> Fluid slip over hydrophobic surfaces in microchannels: a dissipative particle dynamics study - 必威体育下载

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Citation:

    Xu Shao-Feng, Lou Ying-Hou, Wu Yao-Feng, Wang Xiang-Yang, He Ping
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    • Abstract views:6331
    • PDF Downloads:66
    • Cited By:0
    Publishing process
    • Received Date:12 November 2018
    • Accepted Date:17 February 2019
    • Available Online:01 May 2019
    • Published Online:20 May 2019

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