Addresses two difficulties which arise when using a compressible code with equal order interpolation (non‐staggered grids in the finite‐difference nomenclature) to capture a steady‐state solution in the incompressible limit, i.e. at low Mach numbers. Explains that, first, numerical instabilities in the form of spurious oscillations in pressure pollute the solution and, second, the convergence to the steady state becomes extremely slow owing to bad conditioning of the different speeds of propagation. By using a stabilized method, allows the use of equal‐order interpolations in a consistent (weighted‐residual) formulation which stabilizes both the convection and the continuity terms at the same time. On the other hand, by using specially devised preconditioning, assures a rate of convergence independent of Mach number.
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1 March 1997
Research Article|
March 01 1997
A general algorithm for compressible and incompressible flow. Stability analysis and explicit time integration Available to Purchase
N. Nigro;
N. Nigro
Grupo de Tecnología Mecánica del INTEC, Universidad Nacional del Litoral and CONICET, Santa Fe, Argentina
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M. Storti;
M. Storti
Grupo de Tecnología Mecánica del INTEC, Universidad Nacional del Litoral and CONICET, Santa Fe, Argentina
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S. Idelsohn
S. Idelsohn
Grupo de Tecnología Mecánica del INTEC, Universidad Nacional del Litoral and CONICET, Santa Fe, Argentina
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Publisher: Emerald Publishing
Online ISSN: 1758-6585
Print ISSN: 0961-5539
© MCB UP Limited
1997
International Journal of Numerical Methods for Heat & Fluid Flow (1997) 7 (2-3): 141–168.
Citation
Nigro N, Storti M, Idelsohn S (1997), "A general algorithm for compressible and incompressible flow. Stability analysis and explicit time integration". International Journal of Numerical Methods for Heat & Fluid Flow, Vol. 7 No. 2-3 pp. 141–168, doi: https://doi.org/10.1108/09615539710163239
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