Numerical approximation of convective Brinkman-Forchheimer flow with variable permeability

Chinedu Nwaigwe, Jonathan Oahimire, Azubuike Weli

Numerical approximation of convective Brinkman-Forchheimer flow with variable permeability

Číslo: 1/2023
Periodikum: Applied and Computational Mechanics
DOI: 10.24132/acm.2023.767

Klíčová slova: Forchheimer flow; nonlinear suction velocity; nonlinear radiation; nonlinear Soret-Dufour effects; variable permeability; variable Soret-Dufour effects

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Anotace: This paper investigates the nonlinear dispersion of a pollutant in a non-isothermal incompressible flow of a temperature-dependent viscosity fluid in a rectangular channel filled with porous materials. The Brinkman-Forch-heimer effects are incorporated and the fluid is assumed to be variably permeable through the porous channel. External pollutant injection, heat sources and nonlinear radiative heat flux of the Rossland approximation are accounted for. The nonlinear system of partial differential equations governing the velocity, temperature and pollutant concentration is presented in non-dimensional form. A convergent numerical algorithm is formulated using an upwind scheme for the convective part and a conservative-type central scheme for the diffusion parts. The convergence of the scheme is discussed and verified by numerical experiments both in the presence and absence of suction. The scheme is then used to investigate the flow and transport in the channel. The results show that the velocity decreases with increasing suction and Forchheimer parameters, but it increases with increasing porosity.