One-step aeroacoustics simulation using lattice Boltzmann method

Keyphrases

• Lattice Boltzmann Method 100%
• Aeroacoustic Simulation 100%
• Two Dimensional 28%
• Direct numerical Simulation 28%
• Discretized 28%
• Diatomic Gas 28%
• Acoustic Pulse 28%
• Fluid Motion 28%
• Pulse Propagation 28%
• Bhatnagar-Gross-Krook 28%
• Velocity Distribution Function 28%
• Acoustics 14%
• Function-based 14%
• Vorticity 14%
• Finite Difference Scheme 14%
• Temperature Effect 14%
• Governing Equation 14%
• Numerical Simulation Results 14%
• Rotational Degrees of Freedom 14%
• Aeroacoustics 14%
• Intrinsic Features 14%
• Mesoscopic Description 14%
• Parallel Programming 14%
• Viscosity Coefficient 14%
• Internal Energy 14%
• Boltzmann Equation 14%
• Collision Model 14%
• Compressible Navier-Stokes Equations 14%
• Particle Velocity Distribution 14%
• Two-relaxation-time 14%
• Ideal Gas Equation 14%
• Multiscale Chapman-Enskog Expansion 14%
• Gas-kinetic Scheme 14%
• Non-linear Fluids 14%
• Modified Lattice Boltzmann Method 14%

Engineering

• One Step 100%
• Lattice-Boltzmann Method 100%
• Two Dimensional 25%
• Acoustic Pulse 25%
• Diatomic Gas 25%
• Direct Numerical Simulation 25%
• Multiscale 12%
• One Dimensional 12%
• Degree of Freedom 12%
• Simulation Result 12%
• Rotational 12%
• Particle Velocity 12%
• Kinetic Theory of Gas 12%
• Boltzmann Equation 12%
• Ideal Gas Equation 12%
• Compressible Navier 12%
• Coefficient of Viscosity 12%
• Internal Energy 12%
• Temperature Dependence 12%
• Relaxation Time 12%
• Vorticity 12%
• Navier-Stokes Equation 12%
• Equations of State 12%

Physics

• Lattice-Boltzmann Method 100%
• Aeroacoustics 100%
• Direct Numerical Simulation 25%
• Distribution Function 25%
• Relaxation Time 12%
• Vorticity 12%
• Navier-Stokes Equation 12%
• Equations of State 12%
• Finite Difference Methods 12%
• Boltzmann Equation 12%
• Kinetic Theory 12%
• Internal Energy 12%
• Temperature Dependence 12%
• Ideal Gas 12%
• Degree of Freedom 12%