Add to ORKGAsymptotic methods yield an efficient leading-order model of flow along a thin curved duct. The flow consists of a primary axial component along the duct and, because of the curvature, a secondary âDean flowâ in the cross section. Such flows are used in microfluidics to sort suspended particles by size; an important application is âliquid biopsyâ, the isolation of a particular cell type within a (dilute) cell suspension. A description of the background flow, in the absence of particles, is pre-requisite to modelling the perturbation caused by a particle and the migration of the particle within the duct cross-section. I will discuss the suitability of a thin-film model for this purpose. Time permitting, I will also discuss the use of asy...
The Dean-coupled inertial migration of neutrally buoyant spherical particles that are suspended in a...
Particles suspended in fluid flow through a closed duct can focus to specific stable locations in th...
The interest of how small non-spherical particles transport behaviour when transported in pipe-flow ...
The paper describes an experimental and theoretical study of the deposition of small spherical parti...
Inertial lift is a fluid phenomena exploited in microfluidic devices to separate particles/cells bas...
International audienceControlling the transport of particles inflowing suspensions is relevan...
SUMMARY We study numerically the entire migration dynamics of spherical and oblate particles in stra...
We develop a model of the forces on a spherical particle suspended in flow through a curved duct und...
In this thesis, we study fluid flows in helical channels. The primary motivating application for thi...
We present the use of capillary driven flow over patterned surfaces to achieve cheap and simple, but...
We present an analysis of the microfluidic Dean migration of 2.5 µm particles, which do not meet f...
In this study, inertial focusing phenomenon was investigated, which can be used as a passive method ...
Shear induced diffusion can be used to induce particle migration in flow, and this may be a lead to ...
A model has been developed that can be used to predict the transport of non-spherical particles in t...
Passive particle focusing based on inertial microfluidics was recently introduced as a high-throughp...
The Dean-coupled inertial migration of neutrally buoyant spherical particles that are suspended in a...
Particles suspended in fluid flow through a closed duct can focus to specific stable locations in th...
The interest of how small non-spherical particles transport behaviour when transported in pipe-flow ...
The paper describes an experimental and theoretical study of the deposition of small spherical parti...
Inertial lift is a fluid phenomena exploited in microfluidic devices to separate particles/cells bas...
International audienceControlling the transport of particles inflowing suspensions is relevan...
SUMMARY We study numerically the entire migration dynamics of spherical and oblate particles in stra...
We develop a model of the forces on a spherical particle suspended in flow through a curved duct und...
In this thesis, we study fluid flows in helical channels. The primary motivating application for thi...
We present the use of capillary driven flow over patterned surfaces to achieve cheap and simple, but...
We present an analysis of the microfluidic Dean migration of 2.5 µm particles, which do not meet f...
In this study, inertial focusing phenomenon was investigated, which can be used as a passive method ...
Shear induced diffusion can be used to induce particle migration in flow, and this may be a lead to ...
A model has been developed that can be used to predict the transport of non-spherical particles in t...
Passive particle focusing based on inertial microfluidics was recently introduced as a high-throughp...
The Dean-coupled inertial migration of neutrally buoyant spherical particles that are suspended in a...
Particles suspended in fluid flow through a closed duct can focus to specific stable locations in th...
The interest of how small non-spherical particles transport behaviour when transported in pipe-flow ...