Journal of Computational Physics
Lattice Boltzmann model for free-surface flow and its application to filling process in casting
Journal of Computational Physics
Numerical simulation of bubble flows by the lattice Boltzmann method
Future Generation Computer Systems - Special issue: Computational science of lattice Boltzmann modelling
Numerical simulation of bubble flows by the lattice Boltzmann method
Future Generation Computer Systems - Special issue: Computational science of lattice Boltzmann modelling
Lattice Boltzmann simulation of the dispersion of aggregated particles under shear flows
Mathematics and Computers in Simulation - Special issue: Discrete simulation of fluid dynamics in complex systems
Lattice Boltzmann simulations of contact line motion on uniform surfaces
Mathematics and Computers in Simulation - Special issue: Discrete simulation of fluid dynamics in complex systems
Numerical simulation of two-phase flows in the presence of a magnetic field
Mathematics and Computers in Simulation - Special issue: Discrete simulation of fluid dynamics in complex systems
A phase-field method for interface-tracking simulation of two-phase flows
Mathematics and Computers in Simulation - Special issue: Discrete simulation of fluid dynamics in complex systems
Lattice Boltzmann simulation of liquid-gas flows through solid bodies in a square duct
Mathematics and Computers in Simulation - Special issue: Discrete simulation of fluid dynamics in complex systems
A lattice Boltzmann model for multiphase flows with large density ratio
Journal of Computational Physics
A moving mesh interface tracking method for 3D incompressible two-phase flows
Journal of Computational Physics
Journal of Computational Physics
Journal of Computational Physics
On stability condition for bifluid flows with surface tension: Application to microfluidics
Journal of Computational Physics
ICCS '08 Proceedings of the 8th international conference on Computational Science, Part II
Fast and robust solvers for pressure-correction in bubbly flow problems
Journal of Computational Physics
International Journal of Computational Fluid Dynamics
HyPAM: A hybrid continuum-particle model for incompressible free-surface flows
Journal of Computational Physics
Journal of Computational Physics
Journal of Computational Physics
A combined lattice BGK/level set method for immiscible two-phase flows
Computers & Mathematics with Applications
On equations of state in a lattice Boltzmann method
Computers & Mathematics with Applications
Computers & Mathematics with Applications
Lattice Boltzmann simulation of bubble flows
ICCS'03 Proceedings of the 1st international conference on Computational science: PartI
Direct pore-level modeling of incompressible fluid flow in porous media
Journal of Computational Physics
Journal of Computational Physics
Lattice Boltzmann simulations of micron-scale drop impact on dry surfaces
Journal of Computational Physics
Evaluation of three lattice Boltzmann models for multiphase flows in porous media
Computers & Mathematics with Applications
Simulation of a mannequin's thermal plume in a small room
Computers & Mathematics with Applications
Lattice Boltzmann simulations of forced wetting transitions of drops on superhydrophobic surfaces
Journal of Computational Physics
Lattice Boltzmann method for the convection-diffusion equation in curvilinear coordinate systems
Journal of Computational Physics
Computers & Mathematics with Applications
Journal of Computational Physics
Hi-index | 31.52 |
A lattice Boltzmann method for two-phase immiscible fluids with large density differences is proposed. The difficulty in the treatment of large density difference is resolved by using the projection method. The method can be applied to simulate two-phase fluid flows with the density ratio up to 1000. To show the validity of the method, we apply the method to the simulations of capillary waves, binary droplet collisions, and bubble flows. In capillary waves, the angular frequencies of the oscillation of an ellipsoidal droplet are obtained in good agreement with theoretical ones. In the simulations of binary droplet collisions, coalescence collision and two different types of separating collisions, namely reflexive and stretching separations, can be simulated, and the boundaries of the three types of collisions are in good agreement with an available theoretical prediction. In the bubble flows, the effect of mobility on the coalescence of two rising bubbles is investigated. The behavior of many bubbles in a square duct is also simulated.