Numerical Analysis of Time-Accurate Solution of Nonlinear Flow Models by Implicit Finite Differences

S. K. Dey

doi:10.15388/NA.2003.8.1.15176

Articles

S. K. Dey

Eastern Illinois University, USA

Published 2003-01-25

https://doi.org/10.15388/NA.2003.8.1.15176

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Keywords

nonlinear flow
finite differences
perturbed functional iterations

How to Cite

Dey, S.K. (2003) “Numerical Analysis of Time-Accurate Solution of Nonlinear Flow Models by Implicit Finite Differences”, Nonlinear Analysis: Modelling and Control, 8(1), pp. 33–54. doi:10.15388/NA.2003.8.1.15176.

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Abstract

Implicit finite differences are often applied to solve flow models. A standard technique to solve these equations is Newton's method. lf time step is too large although the difference equation could be computationally stable, Newton's method may fail, and PFI (perturbed functional iterations) may be fruitful. This is discussed in this article applying nonlinear D-mapping analysis.

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