Keywords: تعداد کم ماخ; Upwind scheme; Low Mach number; Accuracy; Asymptotic analysis; Low dissipation; Reliable;
مقالات ISI تعداد کم ماخ (ترجمه نشده)
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Keywords: تعداد کم ماخ; Fractional step; Implicit-explicit schemes; Multi-scale flows; Low Mach number; Relaxation schemes; Hyperbolic equations;
Keywords: تعداد کم ماخ; Fluid pressure equation; Navier-Stokes equation; Poisson equation; Low Mach number; Artificial compressibility; Incompressible;
Keywords: تعداد کم ماخ; Air jet impingement; Laminar; Compressible-incompressible modellings; Cylinder; Radial cooling system; Low Mach number; Green aircraft;
Keywords: تعداد کم ماخ; Green separation; Membrane gas separation; Thermal transpiration; Rarefied gas; Knudsen pump; Multiscale modeling; Low Mach number;
Keywords: تعداد کم ماخ; Spectral difference method; Lattice Boltzmann equation; High order method; Incompressible flow; Low Mach number;
Keywords: تعداد کم ماخ; Channel flow; Low Mach number; Variable viscosity; TKE budget; Energy spectra
Keywords: تعداد کم ماخ; All Mach number schemes; AUSM schemes; Godunov-type schemes; Low Mach number; Momentum interpolation;
Keywords: تعداد کم ماخ; Lagrange scheme; Acoustic Riemann solver; Low Mach number; All speed; Lagrange-Remap
An improved entropy-consistent Euler flux in low Mach number
Keywords: تعداد کم ماخ; Low Mach number; Accuracy deterioration; Entropy-consistent; Preconditioning techniques; Computational fluid dynamics;
Low Mach number preconditioning techniques for Roe-type and HLLC-type methods for a two-phase compressible flow model
Keywords: تعداد کم ماخ; Two-phase compressible flows; Liquid-gas mixtures; Finite volume schemes; Riemann solvers; Low Mach number; Turkel's preconditioning; 65M08; 76T10;
Rescaling of the Roe scheme in low Mach-number flow regions
Keywords: تعداد کم ماخ; Compressible flow; Euler equations; Low Mach number; Preconditioning; Roe scheme; Roe-Turkel scheme; Entropy fix; Characteristic time-step;
AUFSR+: Low Mach number enhancement of the AUFSR scheme
Keywords: تعداد کم ماخ; Low mach number; Upwind scheme; Preconditioning; Low diffusion;
Solving low Mach number Riemann problems by a momentum interpolation method
Keywords: تعداد کم ماخ; Low Mach number; Momentum interpolation; Rhie-Chow interpolation; Riemann problem;
Stabilized high-order Galerkin methods based on a parameter-free dynamic SGS model for LES
Keywords: تعداد کم ماخ; Large eddy simulation; LES; Dynamic SGS model; Adaptive dissipation; Localized artificial viscosity; Spectral element method; Discontinuous Galerkin; Low Mach number; Stratified flows; Non-hydrostatic atmospheric flows
Accuracy improvement of axisymmetric bubble dynamics using low Mach number scaling
Keywords: تعداد کم ماخ; Bubble dynamics; Volume of fluid; Numerical sound speed; Low Mach number; Riemann solver
Hybrid aeroacoustic computation of a low Mach number non-isothermal shear layer
Keywords: تعداد کم ماخ; Computational aeroacoustics; Hybrid methods; Linearized Euler equations; Low Mach number; Non-isothermal flows; Acoustic source terms
A totally Eulerian finite volume solver for multi-material fluid flows III: The low Mach number case
Keywords: تعداد کم ماخ; Multi-material solvers; Upwind finite volume schemes; Implicit schemes; Low Mach number; Preconditioning; Kelvin–Helmholtz instability
A low Mach number solver: Enhancing applicability
Keywords: تعداد کم ماخ; Hydrodynamics; Low Mach number; Numerical method; Stellar convection; Double-diffusive convection
Adjoint algorithms for the Navier–Stokes equations in the low Mach number limit
Keywords: تعداد کم ماخ; Hydrodynamic stability; Adjoint; Low Mach number; Non-normality; Global modes
An improved high-order scheme for DNS of low Mach number turbulent reacting flows based on stiff chemistry solver
Keywords: تعداد کم ماخ; Low Mach number; Stiff; Detailed chemistry; Operator splitting; High order scheme; Variable density; DNS; Turbulent reacting flow
Simulation of unsteady compressible flow in a channel with vibrating walls - Influence of the frequency
Keywords: تعداد کم ماخ; CFD; Finite volume method; Unsteady flow; Low mach number; Viscous compressible fluid
Numerical study of thermoelectric power generation for an helicopter conical nozzle
Keywords: تعداد کم ماخ; Thermoelectric generator; Power generation; Numerical simulation; Low Mach number; Helipcopter conical nozzle; Waste heat recovery
Numerical solutions of unsteady flows with low inlet Mach numbers
Keywords: تعداد کم ماخ; CFD; Finite volume method; Unsteady flow; Low Mach number; Viscous compressible fluid;
Energy separation in the wake of a cylinder: Effect of Reynolds number and acoustic resonance
Keywords: تعداد کم ماخ; Energy separation; Acoustic excitation; Wake of cylinder; Low Mach number; Flow reversal;
A simple lattice Boltzmann scheme for combustion simulation
Keywords: تعداد کم ماخ; Lattice Boltzmann method; Combustion; Low Mach number
An implicit finite element solution of thermal flows at low Mach number
Keywords: تعداد کم ماخ; Thermal flows; Low Mach number; Finite element method; Implicit method; Stabilised finite element method
An All-Speed Roe-type scheme and its asymptotic analysis of low Mach number behaviour
Keywords: تعداد کم ماخ; All-Speed-Roe scheme; Asymptotic analysis; Shock-capturing scheme; Low Mach number; Checkerboard decoupling
On entropy generation and dissipation of kinetic energy in high-resolution shock-capturing schemes
Keywords: تعداد کم ماخ; High-resolution methods; Godunov methods; Dissipation; Kinetic energy; Entropy; Large eddy simulation; Low Mach number
High order conservative finite difference scheme for variable density low Mach number turbulent flows
Keywords: تعداد کم ماخ; High order scheme; Finite difference scheme; Low Mach number; Variable density; Energy conservation; Conservative scheme; Cylindrical coordinates; Boundary conditions; DNS; LES
A novel coupled lattice Boltzmann model for low Mach number combustion simulation
Keywords: تعداد کم ماخ; Lattice Boltzmann method; Low Mach number; Combustion
Numerical resolution of a potential diphasic low Mach number system
Keywords: تعداد کم ماخ; 35Q30; 65M12; 76T10; 80A10Diphasic flow; Low Mach number; Interface capturing; Entropy
Linearized perturbed compressible equations for low Mach number aeroacoustics
Keywords: تعداد کم ماخ; 43.28.+h; 47.11.+j; 47.27.SdComputational aeroacoustics; Low Mach number; Hybrid method; Perturbed compressible equations
Stabilised computations for viscoelastic flows under compressible implementations
Keywords: تعداد کم ماخ; Strain-rate stabilisation; High-order incremental pressure-correction; Oldroyd-B; Planar contraction; Critical Weissenberg number; Vortex activity; Low Mach number; Compressible;
A sequel to AUSM, Part II: AUSM+-up for all speeds
Keywords: تعداد کم ماخ; 47.11.+j; 47.40−x; 02.60Cb; 02.70.cUpwind scheme; Low Mach number; AUSM scheme; AUSM+-up; Positivity; Entropy-satisfying; Carbuncle phenomenon; Euler and Navier–Stokes equations
Acoustic source terms study for non-isothermal flows using an aeroacoustic hybrid approach
Keywords: تعداد کم ماخ; Acoustics; Aeroacoustic sources; Non-isothermal flow; Low Mach number; Acoustique; Sources aéroacoustiques; Ãcoulements anisothermes; Faibles nombres de Mach;
An adaptation of the low Mach number approximation for supercritical fluid buoyant flows
Keywords: تعداد کم ماخ; Fluid mechanics; Supercritical fluid; Low Mach number; Rayleigh-Bénard instability; Piston effect; Mécanique des fluides; Fluide supercritique; Faible nombre de Mach; Instabilité de Rayleigh-Bénard; Effet piston;
Numerical investigation of the air flow through a bundle of IP-SOFC modules
Keywords: تعداد کم ماخ; SOFC; Air flow; Simulation; Mass transfer; Heat transfer; Low Mach number
Computation of incompressible and weakly-compressible viscoelastic liquids flow: finite element/volume schemes
Keywords: تعداد کم ماخ; Compressible liquid flow; High-order pressure-correction; Low Mach number; Oldroyd-B; Planar contraction; Critical Weissenberg number; Vortex activity;
A compressible finite volume formulation for large eddy simulation of turbulent pipe flows at low Mach number in Cartesian coordinates
Keywords: تعداد کم ماخ; Large eddy simulation; Finite volume formulation; Compressible Navier-Stokes equations; Low Mach number;