A new characteristic approach for incompressible thermo‐flow in Cartesian and non‐Cartesian grids |
| |
Authors: | T. Adibi S. E. Razavi |
| |
Affiliation: | School of Mechanical Engineering, University of Tabriz, Tabriz, Iran |
| |
Abstract: | A virtual‐characteristic approach is developed for thermo‐flow with finite‐volume methodology in which a multidimensional characteristic (MC) scheme is applied along with artificial compressibility. To obtain compatibility equations and pseudo‐characteristics, energy equation is taken into account in the MC scheme. With this inherent upwinding of convective fluxes, no artificial viscosity is required even at high Reynolds numbers. Another remarkable advantage of the MC scheme lies in its faster convergence rate with respect to the averaging scheme that is found to exhibit substantial delays in convergence. As benchmarks, forced and mixed convections in a cavity and in flow over cylinder and between parallel plates are examined for a wide range of Reynolds, Grashof, and Prandtl numbers. The MC and averaging schemes are applied for simulation purposes. Results show the better performance of the MC scheme in forced and mixed convections. Results confirm the robustness of the MC scheme in terms of accuracy and convergence. Copyright © 2015 John Wiley & Sons, Ltd. |
| |
Keywords: | multidimensional characteristics Navier– Stokes equations artificial compressibility mixed convection finite‐volume method |
|
|