The diffuse interface models, part of the family of the front capturing methods, provide an
efficient and robust framework for the simulation of multi-species flows. They allow the …

Solving compressible flows containing both smooth and discontinuous flow structures still
remains a big challenge for finite volume methods, especially on unstructured grids where …

Numerical simulations of high-speed compressible flows remain challenging in engineering
as the appearance of shock waves poses difficulties for high-resolution schemes as well as …

In this paper, mathematical models and numerical algorithm are conducted for simulating
compressible two-phase multi-component reactive flows, coupling with the finite-rate-based …

Large eddy simulation (LES) has the potential to predict turbulent combustion phenomena in
modern practical combustors. As errors from sub-grid models may be comparable to the …

This study presents the implementation and validation of a second-order accurate solver for
the 4-equation multi-fluid method in a cell-vertex context, to handle aeronautical air-assisted …

We present a numerical scheme valid in the range of highly to weakly compressible flows
using a single-fluid four equation approach together with multi-component thermodynamic …

Industries across the world are making the transition to net-zero carbon emissions, as
government policies and strategies are proposed to mitigate the impact of climate change on …

This paper presents a new thermodynamic closure formulation appropriate for the simulation
of subcritical multiphase flows, where two liquid/vapor components need to be considered …

Despite improvement over decades, there are still at least two key issues not fully solved in
Weighted Essentially Non-oscillatory (WENO) schemes. Firstly, most WENO schemes hardly …