Application of a bounded upwinding scheme to complex fluid dynamics problems

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2013-02-01

Autores

Ferreira, V. G.
Kaibara, M. K.
Lima, G. A B
Silva, J. M.
Sabatini, M. H.
Mancera, P. F A [UNESP]
McKee, S.

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Resumo

This paper is concerned with an overview of upwinding schemes, and further nonlinear applications of a recently introduced high resolution upwind differencing scheme, namely the ADBQUICKEST [V.G. Ferreira, F.A. Kurokawa, R.A.B. Queiroz, M.K. Kaibara, C.M. Oishi, J.A.Cuminato, A.F. Castelo, M.F. Tomé, S. McKee, assessment of a high-order finite difference upwind scheme for the simulation of convection-diffusion problems, International Journal for Numerical Methods in Fluids 60 (2009) 1-26]. The ADBQUICKEST scheme is a new TVD version of the QUICKEST [B.P. Leonard, A stable and accurate convective modeling procedure based on quadratic upstream interpolation, Computer Methods in Applied Mechanics and Engineering 19 (1979) 59-98] for solving nonlinear balance laws. The scheme is based on the concept of NV and TVD formalisms and satisfies a convective boundedness criterion. The accuracy of the scheme is compared with other popularly used convective upwinding schemes (see, for example, Roe (1985) [19], Van Leer (1974) [18] and Arora & Roe (1997) [17]) for solving nonlinear conservation laws (for example, Buckley-Leverett, shallow water and Euler equations). The ADBQUICKEST scheme is then used to solve six types of fluid flow problems of increasing complexity: namely, 2D aerosol filtration by fibrous filters; axisymmetric flow in a tubular membrane; 2D two-phase flow in a fluidized bed; 2D compressible Orszag-Tang MHD vortex; axisymmetric jet onto a flat surface at low Reynolds number and full 3D incompressible flows involving moving free surfaces. The numerical simulations indicate that this convective upwinding scheme is a good generic alternative for solving complex fluid dynamics problems. © 2012.

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Advective transport, Boundedness, CBC/TVD stability, Convection modeling, Flux limiter, Free surface flows, High resolution, Monotonic interpolation, Normalized variables, Upwinding, Flux limiters, Free-surface flow, Computational fluid dynamics, Crystallography, Euler equations, Fluidized beds, Incompressible flow, Interpolation, Liquids, Microfiltration, Reynolds number, Two dimensional, Magnetohydrodynamics

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Mathematical and Computer Modelling, v. 57, n. 3-4, p. 435-459, 2013.