Title of article
Semi-Lagrangian semi-implicit locally one-dimensional scheme for hydrostatic atmospheric model Original Research Article
Author/Authors
Andrei Bourchtein، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
14
From page
38
To page
51
Abstract
A semi-Lagrangian semi-implicit locally one-dimensional scheme is considered for a regional atmospheric model. Vertical decoupling allows to separate the principal fastest physical components approximated by the semi-implicit method of the second order accuracy from the secondary slowest modes integrated explicitly with the first order of accuracy. Horizontal splitting is applied to the principal vertical modes in order to reduce the implicit part of equations to one-dimensional elliptic problems solved efficiently by the direct solver. This approach allows to reduce the computational cost of a single time step when compared to traditional schemes. Numerical experiments with actual atmospheric fields showed that the developed scheme is efficient and supplies the accurate forecast fields using time steps up to 40 min.
Keywords
Numerical weather prediction , Semi-Lagrangian semi-implicit scheme , Locally one-dimensional methods
Journal title
Mathematics and Computers in Simulation
Serial Year
2006
Journal title
Mathematics and Computers in Simulation
Record number
854482
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