An all-speed Roe-type scheme and its asymptotic analysis of low Mach number behaviour

Truly multi-dimensional all-speed schemes for the Euler equations on Cartesian grids, A shock-stable modification of the HLLC Riemann solver with reduced numerical dissipation, Anti-dissipation pressure correction under low Mach numbers for Godunov-type schemes, Entropy-stable schemes in the low-Mach-number regime: flux-preconditioning, entropy breakdowns, and entropy transfers, Compressible solver for two-phase flows with sharp interface and capillary effects preserving accuracy in the low Mach regime, Density enhancement mechanism of upwind schemes for low Mach number flows, An effective all-speed Riemann solver with self-similar internal structure for Euler system, A high-order density-based finite volume method for the computation of all-speed flows, Analysis of Godunov type schemes applied to the compressible Euler system at low Mach number, Construction of modified Godunov-type schemes accurate at any Mach number for the compressible Euler system, The momentum interpolation method based on the time-marching algorithm for all-speed flows, Entropy-based viscous regularization for the multi-dimensional Euler equations in low-Mach and transonic flows, A new Roe-type scheme for all speeds, Uniform algorithm for all-speed shock-capturing schemes, An accurate low-Mach scheme for a compressible two-fluid model applied to free-surface flows, Steady low Mach number flows: identification of the spurious mode and filtering method, Wave Structure Similarity of the HLLC and Roe Riemann Solvers: Application to Low Mach Number Preconditioning, High-fidelity solver on polyhedral unstructured grids for low-Mach number compressible viscous flow, An asymptotic-preserving all-speed scheme for the Euler and Navier-Stokes equations, An all-speed relaxation scheme for gases and compressible materials, A hybrid pressure-density-based Mach uniform algorithm for 2D Euler equations on unstructured grids by using multi-moment finite volume method, An improved Roe solver for high order reconstruction schemes, All-speed numerical methods for the Euler equations via a sequential explicit time integration, Artificial diffusion for convective and acoustic low Mach number flows. I: Analysis of the modified equations, and application to Roe-type schemes, Diffusion and dissipation in acoustic propagation simulation by convection-pressure split algorithms in all Mach number form, Adaptive forcing distance in an immersed boundary method for internal flow simulation at high Reynolds numbers, Development of Roe-type scheme for all-speed flows based on preconditioning method, A new flux splitting scheme for the Euler equations. II: E-AUSMPWAS for all speeds, Rescaling of the Roe scheme in low Mach-number flow regions, Numerical simulations of the Euler system with congestion constraint, A low dissipation method to cure the grid-aligned shock instability, HLLC+: Low-Mach Shock-Stable HLLC-Type Riemann Solver for All-Speed Flows, A low-Mach correction for multi-dimensional finite volume shock capturing schemes with application in Lagrangian frame, Low Mach number preconditioning techniques for roe-type and HLLC-type methods for a two-phase compressible flow model, Численное моделирование звукового давления для системы калибровки измерительных микрофонов типа LS, Construction of a low Mach finite volume scheme for the isentropic Euler system with porosity, Towards an Accurate and Robust Roe-Type Scheme for All Mach Number Flows, An Implicit Scheme for Moving Walls and Multi-Material Interfaces in Weakly Compressible Materials, High Order Discretely Well-Balanced Methods for Arbitrary Hydrostatic Atmospheres, Effective low-Mach number improvement for upwind schemes, On asymptotic behavior of HLL-type schemes at low Mach numbers, A low-Mach number fix for Roe's approximate Riemann solver, Mechanism of Roe-type schemes for all-speed flows and its application, The influence of cell geometry on the Godunov scheme applied to the linear wave equation, Godunov-type schemes with an inertia term for unsteady full Mach number range flow calculations, Numerical dissipation control in high order shock-capturing schemes for LES of low speed flows, Second-order entropy satisfying BGK-FVS schemes for incompressible Navier-Stokes equations, A low Mach correction able to deal with low Mach acoustics, An Asymptotic-Preserving All-Speed Scheme for Fluid Dynamics and Nonlinear Elasticity, Entropy Stable Numerical Fluxes for Compressible Euler Equations Which Are Suitable for All Mach Numbers

• On the behavior of upwind schemes in the low Mach number limit. II: Godunov type schemes.
• The importance of eigenvectors for local preconditioners of the Euler equations
• Semi-implicit extension of a Godunov-type scheme based on low Mach number asymptotics. I: One-dimensional flow
• On the behaviour of upwind schemes in the low Mach number limit
• Cancellation problem of preconditioning method at low Mach numbers
• Stability of preconditioned finite volume schemes at low Mach numbers
• Numerical study of the turbulent flow past an airfoil with trailing edge separation
• Compressible and incompressible fluids
• An algorithm for unsteady viscous flows at all speeds
• Asymptotic based preconditioning technique for low Mach number flows
• Preconditioning applied to variable and constant density flows