The dynamics of deformable liquid-filled bodies (e.g., droplets, capsules, lipid vesicles) suspended in a fluid flow is a fascinating fundamental problem with increasing relevance for technological applications, for example, in drug delivery, or designing lab-on-chip devices. In the present chapter we review two main families of lattice Boltzmann models for multicomponent flows, their mechanical properties, and transport phenomena, with special focus on their application to biofluidic problems, such as the dynamics, merging, and breakup of microfluidic droplets and the motion of deformable membranes and vesicles under geometrical confinement
Flowing matter is all around us, from daily-life vital processes (breathing, blood circulation), to ...
We present an improved lattice Boltzmann model of multi-component flow which permits practical, hydr...
During the last decade, the lattice Boltzmann (LB) method has captured an increasing attention as an...
The dynamics of deformable liquid-filled bodies (e.g., droplets, capsules, lipid vesicles) suspended...
The dynamics of deformable liquid-filled bodies (e.g. droplets, capsules, lipid vesicles) suspended ...
There are many important systems which involve the flow of dense suspensions of deformable particle...
Recent developments of the lattice Boltzmann method for large-scale haemodynamic applications are pr...
While blood at the macroscopic scale is frequently treated as a continuum by techniques such as comp...
We review recent advances on the mesoscopic modeling of water-like fluids,based on the lattice Boltz...
The lattice Boltzmann model is an innovative method to simulate gaseous or liquid flows. It successf...
We review our recent multi-component lattice Boltzmann equation method for the simulation of a large...
Colloids are ubiquitous in the food, medical, cosmetics, polymers, water purification, and pharmaceu...
Multi-component fluid flows are frequently seen in both nature and industry, such as gas-liquid flo...
We review the analysis of single and N-component lattice Boltzmann methods for fluid flow simulation...
A lattice Boltzmann method (LBM) for two-phase flows containing solid bodies with viscoelastic membr...
Flowing matter is all around us, from daily-life vital processes (breathing, blood circulation), to ...
We present an improved lattice Boltzmann model of multi-component flow which permits practical, hydr...
During the last decade, the lattice Boltzmann (LB) method has captured an increasing attention as an...
The dynamics of deformable liquid-filled bodies (e.g., droplets, capsules, lipid vesicles) suspended...
The dynamics of deformable liquid-filled bodies (e.g. droplets, capsules, lipid vesicles) suspended ...
There are many important systems which involve the flow of dense suspensions of deformable particle...
Recent developments of the lattice Boltzmann method for large-scale haemodynamic applications are pr...
While blood at the macroscopic scale is frequently treated as a continuum by techniques such as comp...
We review recent advances on the mesoscopic modeling of water-like fluids,based on the lattice Boltz...
The lattice Boltzmann model is an innovative method to simulate gaseous or liquid flows. It successf...
We review our recent multi-component lattice Boltzmann equation method for the simulation of a large...
Colloids are ubiquitous in the food, medical, cosmetics, polymers, water purification, and pharmaceu...
Multi-component fluid flows are frequently seen in both nature and industry, such as gas-liquid flo...
We review the analysis of single and N-component lattice Boltzmann methods for fluid flow simulation...
A lattice Boltzmann method (LBM) for two-phase flows containing solid bodies with viscoelastic membr...
Flowing matter is all around us, from daily-life vital processes (breathing, blood circulation), to ...
We present an improved lattice Boltzmann model of multi-component flow which permits practical, hydr...
During the last decade, the lattice Boltzmann (LB) method has captured an increasing attention as an...