A unified stochastic particle method based on the Bhatnagar-Gross-Krook model for polyatomic gases and its combination with DSMC
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Publication:2088364
DOI10.1016/j.jcp.2022.111640OpenAlexW4296680270MaRDI QIDQ2088364
Patrick Jenny, Fei Fei, Yuan Hu
Publication date: 21 October 2022
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/2202.00464
Basic methods in fluid mechanics (76Mxx) Time-dependent statistical mechanics (dynamic and nonequilibrium) (82Cxx) Rarefied gas flows, Boltzmann equation in fluid mechanics (76Pxx)
Related Items (4)
Unified stochastic particle simulation of polyatomic gas flows using SPARTACUS ⋮ SPARTACUS: an open-source unified stochastic particle solver for the simulation of multiscale nonequilibrium gas flows ⋮ Unified gas-kinetic wave-particle methods. VII: Diatomic gas with rotational and vibrational nonequilibrium ⋮ A time-relaxed Monte Carlo method preserving the Navier-Stokes asymptotics
Cites Work
- An efficient particle Fokker-Planck algorithm for rarefied gas flows
- An asymptotic-preserving Monte Carlo method for the Boltzmann equation
- Fokker-Planck-DSMC algorithm for simulations of rarefied gas flows
- A solution algorithm for the fluid dynamic equations based on a stochastic model for molecular motion
- Macroscopic transport equations for rarefied gas flows. Approximation methods in kinetic theory.
- A hybrid particle approach for continuum and rarefied flow simulation
- Generation of the Chapman-Enskog distribution
- A hybrid continuum/particle approach for modeling subsonic, rarefied gas flows.
- Assessment of the cubic Fokker-Planck-DSMC hybrid method for hypersonic rarefied flows past a cylinder
- Automatic mesh refinement and parallel load balancing for Fokker-Planck-DSMC algorithm
- A Fokker-Planck model of the Boltzmann equation with correct Prandtl number for polyatomic gases
- Unified gas-kinetic scheme for diatomic molecular flow with translational, rotational, and vibrational modes
- Parallel Fokker-Planck-DSMC algorithm for rarefied gas flow simulation in complex domains at all Knudsen numbers
- A high-order-accurate unstructured mesh finite-volume scheme for the advection-diffusion equation
- Runge-Kutta methods for hyperbolic conservation laws with stiff relaxation terms
- BGK and Fokker-Planck models of the Boltzmann equation for gases with discrete levels of vibrational energy
- An ES-BGK model for polyatomic gases in rotational and vibrational nonequilibrium
- An ES-BGK model for diatomic gases with correct relaxation rates for internal energies
- On derivation and verification of a kinetic model for quantum vibrational energy of polyatomic gases in the gas-kinetic unified algorithm
- A hybrid particle approach based on the unified stochastic particle Bhatnagar-Gross-Krook and DSMC methods
- A unified stochastic particle Bhatnagar-Gross-Krook method for multiscale gas flows
- A BGK model for high temperature rarefied gas flows
- A kinetic model for a polyatomic gas with temperature-dependent specific heats and its application to Shock-wave structure
- A modular particle-continuum numerical method for hypersonic non-equilibrium gas flows
- Time Relaxed Monte Carlo Methods for the Boltzmann Equation
- On DSMC Calculations of Rarefied Gas Flows with Small Number of Particles in Cells
- Vibrational relaxation rates in the direct simulation Monte Carlo method
- COMPUTATIONAL HYPERSONIC RAREFIED FLOWS
- Rates of thermal relaxation in direct simulation Monte Carlo methods
- A Model for Collision Processes in Gases. I. Small Amplitude Processes in Charged and Neutral One-Component Systems
- The Gaussian-BGK model of Boltzmann equation with small Prandtl number
- A high-order unified stochastic particle method based on the Bhatnagar-Gross-Krook model for multi-scale gas flows
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