Nonlinear dynamics of spherical particles in Poiseuille flow under creeping-flow condition.

@article{Reddig2013NonlinearDO,
  title={Nonlinear dynamics of spherical particles in Poiseuille flow under creeping-flow condition.},
  author={S Reddig and Holger Stark},
  journal={The Journal of chemical physics},
  year={2013},
  volume={138 23},
  pages={
          234902
        }
}
  • S. Reddig, H. Stark
  • Published 17 June 2013
  • Mathematics, Physics
  • The Journal of chemical physics
We study the nonlinear dynamics of spherical colloids under the influence of a pressure driven flow at vanishing Reynolds number. The colloids are confined between two parallel planar walls with a distance comparable to the particle diameter and they interact hydrodynamically via the solvent. We show that the bounded Poiseuille flow gives rise to new classes of trajectories resulting in cross-streamline migration. Two particles moving on these new trajectories exhibit either bound or unbound… 
View on PubMed
itp.tu-berlin.de
10 Citations
Background Citations
2

Figures from this paper

10 Citations

Citation Type

Citation Type

Hydrodynamic segregation in a bidisperse colloidal suspension in microchannel flow: A theoretical study.
TLDR
A phenomenological model for the particle currents based on the work of Phillips et al. is formulated and Qualitative differences between two and three dimensions reveal that collective diffusion is more relevant in two dimensions.
A flowing pair of particles in inertial microfluidics.
TLDR
This work studies the dynamics of a pair of solid particles flowing through a rectangular microchannel using lattice Boltzmann simulations and determines the inertial lift force profiles as a function of the two particle positions, their axial distance, and the Reynolds number.
Response of active Brownian particles to shear flow.
TLDR
The effect of a shear flow on the morphology and the stress of N confined active particles in interaction is investigated, where it is found that the activity as well as additional alignment interactions generally increase the response.
Colloid particle transport in a microcapillary: NMR study of particle and suspending fluid dynamics
Migration of active filaments under Poiseuille flow in a microcapillary tube.
We present a comprehensive study of active filaments confined in a cylindrical channel under Poiseuille flow. The activity drives the filament towards the channel boundary, whereas external fluid
Giant enhancement of hydrodynamically enforced entropic trapping in thin channels
Using our generalized Fick-Jacobs approach [1, 2] and extensive Brownian dynamics simulations, we study particle transport through three-dimensional periodic channels of different height. Directed
Collective waves in dense and confined microfluidic droplet arrays.
TLDR
The ability to control microfluidic droplets may allow the modulation of the refractive index of optofluidic crystals, which is a promising approach for the production of dynamically programmable metamaterials.
Control of inertial microfluidics
The young field of inertial microfluidics investigates fluid inertia to enhance the performance of microfluidic devices. The scope of inertial microfluidics expanded rapidly to cover a diverse set of
Highly accurate special quadrature methods for Stokesian particle suspensions in confined geometries
TLDR
A boundary integral method that can be used to study the motion of rigid particles in three-dimensional periodic Stokes flow with confining walls, based on a combination of upsampled quadratures and quadrature by expansion, accelerated using a precomputation scheme.
Particle pairs and trains in inertial microfluidics.
TLDR
Using lattice-Boltzmann simulations, this work thoroughly analyzes the damped displacement pulse traveling as a microfluidic phonon through a staggered train and shows how a defect strongly damps its propagation.

References

SHOWING 1-10 OF 64 REFERENCES
Hydrodynamic interactions of spherical particles in Poiseuille flow between two parallel walls
We study hydrodynamic interactions of spherical particles in incident Poiseuille flow in a channel with infinite planar walls. The particles are suspended in a Newtonian fluid, and creeping-flow
Hydrodynamic interactions suppress deformation of suspension drops in Poiseuille flow.
TLDR
Evolution of a suspension drop entrained by Poiseuille flow is studied numerically at a low Reynolds number and particle positions and velocities are evaluated by the accurate multipole method corrected for lubrication, implemented in the HYDROMULTIPOLE numerical code.
Swapping trajectories: a new wall-induced cross-streamline particle migration mechanism in a dilute suspension of spheres
Binary encounters between spherical particles in shear flow are studied for a system bounded by a single planar wall or two parallel planar walls under creeping flow conditions. We show that wall
Cross-streamline migration of a semiflexible polymer in a pressure driven flow.
TLDR
A Smoluchowski equation is derived for the center-of-mass distribution of α-actin filaments in the Poiseuille flow through a microchannel and the different contributions to the probability current that causes the bimodal distribution are analyzed.
Cooperative motion of spheres arranged in periodic grids between two parallel walls.
TLDR
This work determines the friction coefficient of the spheres when all particles move with the same velocity along a particular direction and cooperate with each other in their motion and presents the hydrodynamic friction as a function of the dimensions of the two-dimensional periodic lattice.
Dynamic simulation of sheared suspensions. I. General method
A general method is presented for simulating the dynamical behavior of a suspension of particles which interact through both hydrodynamic and nonhydrodynamic forces. In the molecular-dynamics-like
Pair-sphere trajectories in finite-Reynolds-number shear flow
The pair trajectories of neutrally buoyant rigid spheres immersed in finite-inertia simple-shear flow are described. The trajectories are obtained using the lattice-Boltzmann method to solve the
Inertial microfluidics with multi-particle collision dynamics
TLDR
This work investigates inertial focussing in microfluidic channels that gives rise to the Segré-Silberberg effect and introduces a Langevin equation for the cross-sectional motion whose steady state is the Boltzmann distribution that contains the integrated lift force as potential energy.
The swapping-trajectory effect: lattice evolution and buckling transition in wall-bounded hydrodynamic crystals
We analyze novel structural transformations in perturbed periodic square monolayers of microspheres in parabolic flow between two parallel walls. We find that a perturbed monolayer is initially
The inertial lift on a spherical particle in a plane Poiseuille flow at large channel Reynolds number
The inertial migration of a small rigid sphere translating parallel to the walls within a channel flow at large channel Reynolds numbers is investigated. The method of matched asymptotic expansions
...
1
2
3
4
5
...