Keywords: روش محدوده غوطه وری; Cardiovascular flow; Aortic valve; Fluid-structure interaction; Immersed-boundary method; Vortex dynamics;
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Keywords: روش محدوده غوطه وری; Immersed-boundary method; Maxwell stress tensor; Particle-wall dielectrophoretic interaction; Sharp interface method;
Keywords: روش محدوده غوطه وری; Fluid-structure interaction; Immersed-boundary method; Viscous compressible flow; Multiphase flow; Large structure deformations; Shock wave;
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Non-uniform grid; Particle channel flow; Direct forcing;
Keywords: روش محدوده غوطه وری; Immersed-boundary method; CPU-GPU hybrid computing; Stirred tank; Large eddy simulation;
Keywords: روش محدوده غوطه وری; Multiscale method; Asphaltenes; Droplet interface; Immersed-boundary method; Molecular dynamics; Anisotropic tension;
Keywords: روش محدوده غوطه وری; Electric conductivity; Immersed-boundary method; Maxwell stress tensor; Sharp interface method; Wall-induced dielectrophoresis
Keywords: روش محدوده غوطه وری; Flapping plate; Energy harvesting; Power-extraction efficiency; Fluid-structure interaction; Immersed-boundary method;
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Stratified density flows; Navier–Stokes equations; Solid–fluid interaction
Keywords: روش محدوده غوطه وری; Fluctuating hydrodynamics; Brownian motion; Inertial coupling; Immersed-boundary method; Minimally-resolved particulate flows
Keywords: روش محدوده غوطه وری; Parallel computing; Computational fluid dynamics; Fluid–solid interaction; Lattice-Boltzmann method; Immersed-Boundary method; Heterogeneous computing
An immersed-boundary method for compressible viscous flows and its application in the gas-kinetic BGK scheme
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Moving boundary; Compressible flow; Gas-kinetic scheme;
An immersed-boundary method based on the gas kinetic BGK scheme for incompressible viscous flow
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Gas-kinetic scheme; Moving objects; No-slip boundary condition
Radial basis function (RBF)-based interpolation and spreading for the immersed boundary method
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Interpolation–spreading; Radial basis functions
Fluid-structure interaction involving large deformations: 3D simulations and applications to biological systems
Keywords: روش محدوده غوطه وری; Fluid-structure interaction; Immersed-boundary method; Finite-element method; Large deformations; Biological flows; Insect flight; Vocal fold;
Force production and asymmetric deformation of a flexible flapping wing in forward flight
Keywords: روش محدوده غوطه وری; Insect flight; Forward flight; Fluid–structure interaction; Immersed-boundary method
Numerical simulation of drops inside an asymmetric microchannel with protrusions
Keywords: روش محدوده غوطه وری; Mixing; Drops; Two-phase flow; Channel flow; Immersed-boundary method; Level-set function; Complex geometries
Numerical simulation of a flexible fiber deformation in a viscous flow by the immersed boundary-lattice Boltzmann method
Keywords: روش محدوده غوطه وری; Elastic fiber; Viscous flow; Lattice-Boltzmann method; Immersed-boundary method; Unsteady simulation
On the numerical oscillation of the direct-forcing immersed-boundary method for moving boundaries
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Direct forcing; Moving boundaries; Numerical oscillations; Flapping flight
Large-eddy simulations in mixed-flow pumps using an immersed-boundary method
Keywords: روش محدوده غوطه وری; Large-eddy simulation; Finite-difference method; Immersed-boundary method; Turbomachinery flows; Mixed-flow pump
Natural convection in a square enclosure with a circular cylinder at different horizontal and diagonal locations
Keywords: روش محدوده غوطه وری; Natural convection; Immersed-boundary method; Cold square enclosure; Hot inner circular cylinder
Immersed-boundary methods for general finite-difference and finite-volume Navier–Stokes solvers
Keywords: روش محدوده غوطه وری; Incompressible Navier–Stokes equations; Immersed-boundary method; Reproducing Kernel Particle Methods
A direct-forcing embedded-boundary method with adaptive mesh refinement for fluid–structure interaction problems
Keywords: روش محدوده غوطه وری; Cartesian grids; Finite-difference method; Adaptive mesh refinement; Immersed-boundary method; Fluid–structure interaction; Large-eddy simulation
Study of heat-transfer on the surface of a circular cylinder in flow using an immersed-boundary method
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Heat convection; Flow over a cylinder
Frequency effects on lift and drag for flow past an oscillating cylinder
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Frequency effects; Oscillating cylinder; Lift and drag
An immersed-boundary method for flow–structure interaction in biological systems with application to phonation
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Elasticity; Flow–structure interaction; Bio-flow mechanics; Phonation; Laryngeal flow; Flow-induced vibration
Uniform-shear flow over a circular cylinder at low Reynolds numbers
Keywords: روش محدوده غوطه وری; Blockage effect; Circular cylinder; Immersed-boundary method; Uniform-shear flow
Turbulent flow around a wall-mounted cube: A direct numerical simulation
Keywords: روش محدوده غوطه وری; Turbulence; Direct numerical simulation; Negative turbulence production; Immersed-boundary method;
An embedded-boundary formulation for large-eddy simulation of turbulent flows interacting with moving boundaries
Keywords: روش محدوده غوطه وری; Large-eddy simulation; Immersed-boundary method; Fluid–structure interaction; Moving boundaries; Cartesian grid; Finite-difference method
Modeling rough stenoses by an immersed-boundary method
Keywords: روش محدوده غوطه وری; Numerical simulation; Stenosis; Complex geometry; Immersed-boundary method;
An immersed boundary method with direct forcing for the simulation of particulate flows
Keywords: روش محدوده غوطه وری; Immersed-boundary method; Direct interaction force; Finite-difference method; Navier-Stokes equations; Particulate flow; Sedimentation;