This thesis is concerned with computational methods for fluid flows on the microscale, also known as microfluidics. This is motivated by current research in biological physics and miniaturization technology, where there is a need to understand complex flows involving microscale structures. Numerical simulations are an important tool for doing this. The first paper of the thesis presents a numerical method for simulating multiphase flows involving insoluble surfactants and moving contact lines. The method is based on an explicit interface tracking method, wherein the interface between two fluids is decomposed into segments, which are represented locally on an Eulerian grid. The framework of this method provides a natural setting for solving ...
On micro scale the constitutions of porous media are effected by other constitutions, so their behav...
We present a numerical method for suspensions of spheroids of arbitrary aspect ratio, which sediment...
A 3D boundary-integral/finite-volume method is presented for the simulation of drop dynamics in visc...
This thesis is concerned with computational methods for fluid flows on the microscale, also known as...
This work contains two separate but related parts: one on spectrally accurate and fast Ewald meth...
at Berkeley intended to develop a numerical method for moving interfaces in viscous fluid. The inter...
Accurate simulation of viscous fluid flows with deforming droplets creates a number of challenges. T...
Physical processes typically occur over a wide range of scales in space and time. In many instances ...
This thesis deals with the numerical study of multiscale problems arising in the modelling of proces...
A finite-element scheme based on a coupled arbitrary Lagrangian-Eulerian and Lagrangian approach is ...
This thesis deals with the numerical study of multiscale problems arising in the modelling of proces...
Boundary integral methods are advantageous when simulating viscous flow around rigid particles, due ...
We consider fast computation methods for simulation of dynamics of a collection of particles dispers...
Abstract. This paper presents a new boundary integral equation (BIE) method for simulating particula...
In this paper, we present an overview of the application of boundary integral methods in two dimensi...
On micro scale the constitutions of porous media are effected by other constitutions, so their behav...
We present a numerical method for suspensions of spheroids of arbitrary aspect ratio, which sediment...
A 3D boundary-integral/finite-volume method is presented for the simulation of drop dynamics in visc...
This thesis is concerned with computational methods for fluid flows on the microscale, also known as...
This work contains two separate but related parts: one on spectrally accurate and fast Ewald meth...
at Berkeley intended to develop a numerical method for moving interfaces in viscous fluid. The inter...
Accurate simulation of viscous fluid flows with deforming droplets creates a number of challenges. T...
Physical processes typically occur over a wide range of scales in space and time. In many instances ...
This thesis deals with the numerical study of multiscale problems arising in the modelling of proces...
A finite-element scheme based on a coupled arbitrary Lagrangian-Eulerian and Lagrangian approach is ...
This thesis deals with the numerical study of multiscale problems arising in the modelling of proces...
Boundary integral methods are advantageous when simulating viscous flow around rigid particles, due ...
We consider fast computation methods for simulation of dynamics of a collection of particles dispers...
Abstract. This paper presents a new boundary integral equation (BIE) method for simulating particula...
In this paper, we present an overview of the application of boundary integral methods in two dimensi...
On micro scale the constitutions of porous media are effected by other constitutions, so their behav...
We present a numerical method for suspensions of spheroids of arbitrary aspect ratio, which sediment...
A 3D boundary-integral/finite-volume method is presented for the simulation of drop dynamics in visc...