Publication Type : Journal Article
Publisher : International Journal for Numerical Methods in Fluids
Source : International Journal for Numerical Methods in Fluids, Volume 90, Number 1, p.22-56 (2019)
Url : https://onlinelibrary.wiley.com/doi/abs/10.1002/fld.4713
Keywords : Collisionless Boltzmann equation, compressible flow, Euler equations, flux-limiting approach
Campus : Coimbatore
School : School of Engineering
Department : Mechanical Engineering
Year : 2019
Abstract : Summary This paper proposes a new kinetic-theory-based high-resolution scheme for the Euler equations of gas dynamics. The scheme uses the well-known connection that the Euler equations are suitable moments of the collisionless Boltzmann equation of kinetic theory. The collisionless Boltzmann equation is discretized using Sweby's flux-limited method and the moment of this Boltzmann level formulation gives a Euler level scheme. It is demonstrated how conventional limiters and an extremum-preserving limiter can be adapted for use in the scheme to achieve a desired effect. A simple total variation diminishing criteria relaxing parameter results in improving the resolution of the discontinuities in a significant way. A 1D scheme is formulated first and an extension to 2D on Cartesian meshes is carried out next. Accuracy analysis suggests that the scheme achieves between first- and second-order accuracy as is expected for any second-order flux-limited method. The simplicity and the explicit form of the conservative numerical fluxes add to the efficiency of the scheme. Several standard 1D and 2D test problems are solved to demonstrate the robustness and accuracy.
Cite this Research Publication : Raushan Kumar and Anoop K. Dass, “A new flux-limiting approach–based kinetic scheme for the Euler equations of gas dynamics”, International Journal for Numerical Methods in Fluids, vol. 90, pp. 22-56, 2019.