Algebraic Construction of a Strongly Consistent, Permutationally Symmetric and Conservative Difference Scheme for 3D Steady Stokes Flow

By using symbolic algebraic computation, we construct a strongly-consistent second-order finite difference scheme for steady three-dimensional Stokes flow and a Cartesian solution grid. The scheme has the second order of accuracy and incorporates the pressure Poisson equation. This equation is the integrability condition for the discrete momentum and continuity equations. Our algebraic approach to the construction of difference schemes suggested by the second and the third authors combines the finite volume method, numerical integration, and difference elimination. We make use of the techniques of the differential and difference Janet/Grobner bases for performing related computations. To prove the strong consistency of the generated scheme, we use these bases to correlate the differential ideal generated by the polynomials in the Stokes equations with the difference ideal generated by the polynomials in the constructed difference scheme. As this takes place, our difference scheme is conservative and inherits permutation symmetry of the differential Stokes flow. For the obtained scheme, we compute the modified differential system and use it to analyze the scheme's accuracy.

Authors
Zhang X.J.1 , Gerdt V.P. 2, 3 , Blinkov Y.A.4
Journal
Publisher
MDPI AG
Number of issue
2
Language
English
Status
Published
Number
269
Volume
11
Year
2019
Organizations
  • 1 Univ Chinese Acad Sci, Sch Math Sci, Beijing 100049, Peoples R China
  • 2 Joint Inst Nucl Res, Lab Informat Technol, Dubna 141980, Russia
  • 3 RUDN Univ, Peoples Friendship Univ Russia, Inst Appl Math & Commun Technol, Moscow 117198, Russia
  • 4 Saratov NG Chernyshevskii State Univ, Fac Math & Mech, Saratov 413100, Russia
Keywords
steady Stokes flow; finite difference approximation; difference elimination; computer algebra; Janet/Grobner basis; strong consistency; modified equation; symmetry; conservativity
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