The Dean-coupled inertial migration of neutrally buoyant spherical particles that are suspended in a curved microscale pipe flow was experimentally investigated in the range of and . The three-dimensional positions of the particles were measured by using digital holographic microscopy. The diameter of the microtube was 350 mu m, and the ratios of the tube diameter (D) to the particle diameter (d) were D/d = 12, 23, 35, and 50. Over a critical value of the Focusing number (F (C)), the particles were initially tubular-pinched at the entrance of the curved region. The detailed structures of the Segr,-Silberberg annulus as well as its deformation attributed to secondary flow were analyzed. Diverse agglomeration patterns of particles correspondi...
The continuous separation and filtration of particles immersed in fluid flows are important interest...
Since the beginning of microfluidics, the ability to control motion of particles in microchan...
International audienceControlling the transport of particles inflowing suspensions is relevan...
The inertial migration of neutrally buoyant spherical particles suspended in a micro-scale pipe flow...
Inertial lift is a fluid phenomena exploited in microfluidic devices to separate particles/cells bas...
Inertial microfluidics has become one of the emerging topics due to potential applications such as p...
DoctorThe inertial migrations of particles and red blood cells in micro-scale flows were investigate...
We examine the effect of gravity and (rotational) inertia on the inertial focusing of spherical non-...
In this study, inertial focusing phenomenon was investigated, which can be used as a passive method ...
Colloidal suspensions of buoyancy neutral particles flowing in circular pipes focus into narrow dist...
Passive particle focusing based on inertial microfluidics was recently introduced as a high-throughp...
The behavior of confined particles in microchannels at moderate Reynolds number has received much at...
International audienceAn experimental study of the migration of dilute suspensions of particles in P...
We develop a model of the forces on a spherical particle suspended in flow through a curved duct und...
Size based separation and identification of particles in microfluidics through purely hydrodynamic m...
The continuous separation and filtration of particles immersed in fluid flows are important interest...
Since the beginning of microfluidics, the ability to control motion of particles in microchan...
International audienceControlling the transport of particles inflowing suspensions is relevan...
The inertial migration of neutrally buoyant spherical particles suspended in a micro-scale pipe flow...
Inertial lift is a fluid phenomena exploited in microfluidic devices to separate particles/cells bas...
Inertial microfluidics has become one of the emerging topics due to potential applications such as p...
DoctorThe inertial migrations of particles and red blood cells in micro-scale flows were investigate...
We examine the effect of gravity and (rotational) inertia on the inertial focusing of spherical non-...
In this study, inertial focusing phenomenon was investigated, which can be used as a passive method ...
Colloidal suspensions of buoyancy neutral particles flowing in circular pipes focus into narrow dist...
Passive particle focusing based on inertial microfluidics was recently introduced as a high-throughp...
The behavior of confined particles in microchannels at moderate Reynolds number has received much at...
International audienceAn experimental study of the migration of dilute suspensions of particles in P...
We develop a model of the forces on a spherical particle suspended in flow through a curved duct und...
Size based separation and identification of particles in microfluidics through purely hydrodynamic m...
The continuous separation and filtration of particles immersed in fluid flows are important interest...
Since the beginning of microfluidics, the ability to control motion of particles in microchan...
International audienceControlling the transport of particles inflowing suspensions is relevan...