Lattice Boltzmann modelling of isothermal two-component evaporation in porous media
A mesoscopic lattice Boltzmann model is implemented for modelling isothermal two-
component evaporation in porous media. The model is based on the pseudopotential …
component evaporation in porous media. The model is based on the pseudopotential …
Discrete Boltzmann modeling of high-speed compressible flows with various depths of non-equilibrium
The non-equilibrium high-speed compressible flows present wealthy applications in
engineering and science. With the deepening of Thermodynamic Non-Equilibrium (TNE) …
engineering and science. With the deepening of Thermodynamic Non-Equilibrium (TNE) …
Specific-heat ratio effects on the interaction between shock wave and heavy-cylindrical bubble: Based on discrete Boltzmann method
Specific-heat ratio effects on the interaction between a planar shock wave and a two-
dimensional heavy-cylindrical bubble are studied by the discrete Boltzmann method …
dimensional heavy-cylindrical bubble are studied by the discrete Boltzmann method …
Viscous effects on morphological and thermodynamic non-equilibrium characterizations of shock–bubble interaction
ABSTRACT A two-fluid discrete Boltzmann model with a flexible Prandtl number is
formulated to study the shock–bubble interaction (SBI). This paper mainly focuses on the …
formulated to study the shock–bubble interaction (SBI). This paper mainly focuses on the …
Lagrangian steady-state discrete Boltzmann model for non-equilibrium flows at micro–nanoscale
In micro-and nanoscale channels, where the characteristic scale approaches or falls below
the mean free path between gas molecules, flow characteristics exhibit pronounced …
the mean free path between gas molecules, flow characteristics exhibit pronounced …
A numerical model for simulation of two-phase flows interaction with flexible slender bodies
This paper introduces a fluid–structure interaction (FSI) model for simulation of the coupled
dynamics between two-phase flows and elastic slender structures. This model is extended …
dynamics between two-phase flows and elastic slender structures. This model is extended …
The influences of acceleration on compressible Rayleigh–Taylor instability with non-equilibrium effects
Rayleigh–Taylor (RT) instability is a classical interface instability of great importance in
nature and engineering fields. In this paper, the influences of acceleration on the …
nature and engineering fields. In this paper, the influences of acceleration on the …
Plasma kinetics: Discrete Boltzmann modeling and Richtmyer–Meshkov instability
In this paper, a discrete Boltzmann method (DBM) for plasma kinetics is proposed and
further used to investigate the non-equilibrium characteristics in Orszag–Tang (OT) vortex …
further used to investigate the non-equilibrium characteristics in Orszag–Tang (OT) vortex …
Numerical investigation of droplet condensation and self-propelled jumping on superhydrophobic microcolumned surfaces
B Huang, X Zhang, X Li, H Zhang, F He, P Hao… - Physics of …, 2023 - pubs.aip.org
This paper investigates the processes of droplet condensation and self-propelled jumping
on microcolumn-structured superhydrophobic surfaces with various size parameters. Using …
on microcolumn-structured superhydrophobic surfaces with various size parameters. Using …
Coupled lattice Boltzmann method–discrete element method model for gas–liquid–solid interaction problems
In this paper, we propose a numerical model to simulate gas–liquid–solid interaction
problems, coupling the lattice Boltzmann method and discrete element method (LBM–DEM) …
problems, coupling the lattice Boltzmann method and discrete element method (LBM–DEM) …