A+ CATEGORY SCIENTIFIC UNIT

Global regular solutions to the Navier-Stokes equations in a cylinder

Volume 74 / 2006

Wojciech M. Zaj/aczkowski Banach Center Publications 74 (2006), 235-255 MSC: 35Q35, 35K20, 76D05, 76D03. DOI: 10.4064/bc74-0-15

Abstract

The existence and uniqueness of solutions to the Navier-Stokes equations in a cylinder $\Omega$ and with boundary slip conditions is proved. Assuming that the azimuthal derivative of cylindrical coordinates and azimuthal coordinate of the initial velocity and the external force are sufficiently small we prove long time existence of regular solutions such that the velocity belongs to $W_{5/2}^{2,1}(\Omega\times(0,T))$ and the gradient of the pressure to $L_{5/2}(\Omega\times(0,T))$. We prove the existence of solutions without any restrictions on the lengths of the initial velocity and the external force.

Authors

  • Wojciech M. Zaj/aczkowskiInstitute of Mathematics
    Polish Academy of Sciences
    Śniadeckich 8
    00-956 Warszawa, Poland
    and
    Institute of Mathematics and Cryptology
    Cybernetics Faculty
    Military University of Technology
    S. Kaliskiego 2
    00-908 Warszawa, Poland
    e-mail

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