Use of a rotated Riemann solver for the two-dimensional Euler equations

Using piecewise-linear reconstruction to constructing a low-dissipation HLL method for numerical solution of hydrodynamics equation, Use of Jordan forms for convection-pressure split Euler solvers, Overcoming shock instability of the HLLE-type Riemann solvers, Stable and flux-conserved meshfree formulation to model shocks, A shock-stable HLLEM scheme with improved contact resolving capability for compressible Euler flows, A characteristic space-time conservation element and solution element method for conservation laws II. Multidimensional extension, Modified SLAU2 scheme with enhanced shock stability, Evaluation of rotated upwind schemes for contact discontinuity and strong shock, Diffusion regulation for Euler solvers, A 2D analysis of the influence of artificial viscosity terms on solutions of the Euler equations, An accurate, robust and efficient convection-pressure flux splitting scheme for compressible Euler flows, Development of three-dimensional rotated lattice Boltzmann flux solver for the simulation of high-speed compressible flows, A kinetic scheme with variable velocities and relative entropy, A rotated lattice Boltzmann flux solver with improved stability for the simulation of compressible flows with intense shock waves at high Mach number, Application of hybrid Riemann solvers based on HLLC and HLL for simulation of flows with gas-dynamic discontinuities, An upwind CESE scheme for 2D and 3D MHD numerical simulation in general curvilinear coordinates, A shock-stable numerical scheme accurate for contact discontinuities: applications to 3D compressible flows, A robust shock-capturing scheme based on rotated Riemann solvers., Derivation and characteristics analysis of an acoustics-convection upstream resolution algorithm for the two-dimensional Euler and Navier-Stokes equations, Simple and robust contact-discontinuity capturing central algorithms for high speed compressible flows, Very simple, carbuncle-free, boundary-layer-resolving, rotated-hybrid Riemann solvers, An entropy stable central solver for Euler equations, Reformulation of smoothed particle hydrodynamics with Riemann solver, Accurate, efficient and monotonic numerical methods for multi-dimensional compressible flows. II: Multi-dimensional limiting process, Two-dimensional Riemann solver for Euler equations of gas dynamics, An upwind local RBF-DQ method for simulation of inviscid compressible flows, An approximate two-dimensional Riemann solver for hyperbolic systems of conservation laws, A central Rankine-Hugoniot solver for hyperbolic conservation laws, Cures for numerical shock instability in HLLC solver, Constructing a multi-dimensional oscillation preventing scheme for the advection equation by a rational function, Second-order upwinding through a characteristic time-step matrix for compressible flow calculations, Development of a carbuncle-free and low-dissipation Roe-type scheme: applications to multidimensional Euler flows, Using a combination of Godunov and Rusanov solvers based on the piecewise parabolic reconstruction of primitive variables for numerical simulation of supernovae Ia type explosion, A finite volume method for the solution of convection—diffusion 2d problems by a quadratic profile with smoothing, Implementation of the HLL-GRP solver for multidimensional ideal MHD simulations based on finite volume method, A kinetic flux difference splitting method for compressible flows, Local, point-wise rotational transformations of the conservation equations into stream-wise coordinates.

• Approximate Riemann solvers, parameter vectors, and difference schemes. (Reprint)
• The Uniqueness of the Cauchy Problem for Partial Differential Equations which may have Multiple Characteristics
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