Keywords: جریان کم تعداد ماخ; Incompressible Navier-Stokes equations; Compressible Navier-Stokes equations; Low Mach number flow; Finite element method; Discontinuous Galerkin method; Fluid-structure interaction; 65N50; 65N15; 65D05;
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Keywords: جریان کم تعداد ماخ; Ghost cell method; PDE multidimensional extrapolation; Compressible Navier Stokes equations; Adaptive mesh refinement; Low Mach number flow; Supersonic flow;
Keywords: جریان کم تعداد ماخ; Turbulent premixed flames; Direct numerical simulation; Detailed chemistry; Low Mach number flow; Adaptive mesh refinement
Keywords: جریان کم تعداد ماخ; Low Mach number flow; Natural convection; Surface radiation; Heat transfer; Unsteady flow
Large Eddy Simulation of acoustic pulse propagation and turbulent flow interaction in expansion mufflers
Keywords: جریان کم تعداد ماخ; Low Mach number flow; Noise attenuation; Synthetic turbulence; Compressible Navier-Stokes; URANS; LES;
Performance of all-speed AUSM-family schemes for DNS of low Mach number turbulent channel flow
Keywords: جریان کم تعداد ماخ; All-speed AUSM-family schemes; Direct numerical simulation; Low Mach number flow; Turbulent channel flow; WENO interpolation
Semi-implicit characteristic-based boundary treatment for acoustics in low Mach number flows
Keywords: جریان کم تعداد ماخ; Characteristic-based boundary conditions; Low Mach number flow; Semi-implicit algorithm; Acoustics;
Pressure–velocity coupling for unsteady low Mach number flow simulations: An improvement of the AUSM+-up scheme
Keywords: جریان کم تعداد ماخ; Pressure–velocity coupling; Momentum interpolation method; AUSM schemes; Low Mach number flow; Pressure correction; Acoustics
Pressure–velocity coupling allowing acoustic calculation in low Mach number flow
Keywords: جریان کم تعداد ماخ; Pressure–velocity coupling; Momentum interpolation method; Low Mach number flow; Pressure correction; Acoustics
A finite element dynamical nonlinear subscale approximation for the low Mach number flow equations
Keywords: جریان کم تعداد ماخ; Thermally coupled flow; Low Mach number flow; Variational multiscale method; Dynamic subscale
A low-Mach number fix for Roe’s approximate Riemann solver
Keywords: جریان کم تعداد ماخ; Incompressible and compressible flow; Euler equations; Low Mach number flow; Roe scheme; Numerical dissipation; Asymptotic analysis
On the dissipation mechanism of upwind-schemes in the low Mach number regime: A comparison between Roe and HLL
Keywords: جریان کم تعداد ماخ; 47.11.Df; 47.11.−j; 47.15.G−; 47.15.kmIncompressible and compressible flow; Euler equations; Low Mach number flow; Roe scheme; HLL; Numerical dissipation; Asymptotic analysis
A numerical method for the simulation of low Mach number liquid–gas flows
Keywords: جریان کم تعداد ماخ; Two-phase flow; Front-tracking; Low Mach number flow; Compressibility
The influence of cell geometry on the Godunov scheme applied to the linear wave equation
Keywords: جریان کم تعداد ماخ; Compressible Euler system; Low Mach number flow; Godunov scheme; Linear wave equation; Hodge decomposition
Analysis of Godunov type schemes applied to the compressible Euler system at low Mach number
Keywords: جریان کم تعداد ماخ; Compressible Euler system; Low Mach number flow; Roe scheme; Roe–Turkel scheme; AUSM+-up scheme; Linear wave equation; Hodge decomposition
Numerical simulations of anisothermal laminar vortex rings with large density variations
Keywords: جریان کم تعداد ماخ; Numerical simulation; Anisothermal vortex ring; Low Mach number flow; Variable properties
The influence of cell geometry on the accuracy of upwind schemes in the low mach number regime
Keywords: جریان کم تعداد ماخ; 47.11.Df; 47.11.−j; 47.15.G−; 47.15.kmIncompressible and compressible flow; Euler equations; Low Mach number flow; Roe scheme; Numerical dissipation; Asymptotic analysis
Implicit preconditioned WENO scheme for steady viscous flow computation
Keywords: جریان کم تعداد ماخ; Preconditioned Navier–Stokes equations; WENO schemes; Low Mach number flow; Transonic flows; Hypersonic flow; All speeds; Spalart–Allmaras turbulence model
Linearized acoustic perturbation equations for low Mach number flow with variable density and temperature
Keywords: جریان کم تعداد ماخ; Low Mach number flow; Linearized acoustic perturbation equations; Multiple pressure variables
On a robust discontinuous Galerkin technique for the solution of compressible flow
Keywords: جریان کم تعداد ماخ; 02.60.Cb; 02.70.Dh65M60; 76N10Compressible Euler equations; Discontinuous Galerkin space discretization; Vijayasundaram numerical flux; Semi-implicit linearized numerical scheme; Stabilization of the scheme; Low Mach number flow; High speed flow