For compressible flow simulations involving both turbulence and shockwaves, the
competing requirements render it challenging to develop high-order numerical methods …

Accurate prediction of high Reynolds number wall-bounded flows is a challenge for
turbulence modeling and numerical discretization. Moreover, complex engineering …

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 …

This work develops a new finite volume convection scheme and open-source library for
convection-dominated problems on unstructured grids. The formulated reconstruction …

Developing accurate, efficient and robust shock-capturing schemes on non-uniform grids
remains challenging particularly when facing strong non-uniformity. Thus, we extend the …

The non-polynomial THINC (tangent of hyperbola for interface capturing) scheme has been
reported to show both numerical simplicity and high fidelity for resolving contact interfaces …

In this paper, a new five-point targeted essentially non-oscillatory (TENO) scheme with
adaptive dissipation is proposed. With the standard TENO weighting strategy, the cut-off …

This paper explores strategies to transform an existing CPU-based high-performance
computational fluid dynamics solver, HyPar, for compressible flow simulations on emerging …

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 …

Abstract Implicit Large Eddy simulation (iLES) has gained substantial popularity for
modelling high-Reynolds-number turbulent flows, found across several engineering and …