English

Geometry Method for the Rotating Navier-Stokes Equations With Complex Boundary and the Bi-Parallel Algorithm

Mathematical Physics 2011-02-08 v1 Differential Geometry math.MP Numerical Analysis

Abstract

In this paper, a new algorithm based on differential geometry viewpoint to solve the 3D rotating Navier-Stokes equations with complex Boundary is proposed, which is called Bi-parallel algorithm. For xample, it can be applied to passage flow between two blades in impeller and circulation flow through aircrafts with complex geometric shape of boundary. Assume that a domain in R3R^3 can be decomposed into a series sub-domain, which is called "flow layer", by a series smooth surface k,k=1,...,M\Im_k, k=1,...,M. Applying differential geometry method, the 3D Navier-Stokes operator can be split into two kind of operator: the "Membrane Operator" on the tangent space at the surface k\Im_k and the "Bending Operator" along the transverse direction. The Bending Operators are approximated by the finite different quotients and restricted the 3D Naver-Stokes equations on the interface surface k\Im_k, a Bi-Parallel algorithm can be constructed along two directors: "Bending" direction and "Membrane" directors. The advantages of the method are that: (1) it can improve the accuracy of approximate solution caused of irregular mesh nearly the complex boundary; (2) it can overcome the numerically effects of boundary layer, whic is a good boundary layer numerical method; (3) it is sufficiency to solve a two dimensional sub-problem without solving 3D sub-problem.

Keywords

Cite

@article{arxiv.1102.1119,
  title  = {Geometry Method for the Rotating Navier-Stokes Equations With Complex Boundary and the Bi-Parallel Algorithm},
  author = {Kaitai Li and Demin Liu},
  journal= {arXiv preprint arXiv:1102.1119},
  year   = {2011}
}

Comments

44 pages, 8 figures

R2 v1 2026-06-21T17:22:13.648Z