Active suspensions in thin films: nutrient uptake and swimmer motion
From MaRDI portal
Publication:2878414
DOI10.1017/jfm.2013.459zbMath1294.76298OpenAlexW2157412243MaRDI QIDQ2878414
Wim-Paul Breugem, Luca Brandt, Francesco Picano, Ruth A. Lambert
Publication date: 29 August 2014
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: http://resolver.tudelft.nl/uuid:e15c9b8b-5ac0-4760-89c2-e18ca748083c
Related Items (18)
Large-scale simulation of steady and time-dependent active suspensions with the force-coupling method ⋮ Inertial torque on a squirmer ⋮ Collective dynamics and rheology of confined phoretic suspensions ⋮ Optimizing low-Reynolds-number predation via optimal control and reinforcement learning ⋮ The effect of polydispersity in a turbulent channel flow laden with finite-size particles ⋮ Clustering and increased settling speed of oblate particles at finite Reynolds number ⋮ Interface-resolved simulations of particle suspensions in Newtonian, shear thinning and shear thickening carrier fluids ⋮ Flow-induced diffusion in a packed lattice of squirmers ⋮ Hydrodynamics of micro-swimmers in films ⋮ Reduced particle settling speed in turbulence ⋮ Turbulent channel flow of a dense binary mixture of rigid particles ⋮ Inertial migration of spherical and oblate particles in straight ducts ⋮ The lift-up effect: the linear mechanism behind transition and turbulence in shear flows ⋮ Swimming of microorganisms in quasi-two-dimensional membranes ⋮ Sedimentation of finite-size spheres in quiescent and turbulent environments ⋮ Heat transfer in laminar Couette flow laden with rigid spherical particles ⋮ Hydrochemical interactions of phoretic particles: a regularized multipole framework ⋮ Role of particle-laden interfaces in shear-induced deformation of colloidal droplets
Cites Work
- A second-order accurate immersed boundary method for fully resolved simulations of particle-laden flows
- Incorporation of lubrication effects into the force-coupling method for particulate two-phase flow.
- An immersed boundary method with direct forcing for the simulation of particulate flows
- Flow patterns around heart valves: A numerical method
- Hydrodynamics of self-propulsion near a boundary: predictions and accuracy of far-field approximations
- Stirring by squirmers
- IMMERSED BOUNDARY METHODS
- Hydrodynamic interaction of two swimming model micro-organisms
- Nutrient transport and acquisition by diatom chains in a moving fluid
- Dynamics of concentrated suspensions of non-colloidal particles in Couette flow
- Development of coherent structures in concentrated suspensions of swimming model micro-organisms
- Contact Mechanics
- Low‐Reynolds‐number flow between converging spheres
- Hydrodynamic Phenomena in Suspensions of Swimming Microorganisms
- Nutrient Uptake by a Self-Propelled Steady Squirmer
- Optimal feeding is optimal swimming for all Péclet numbers
- Collective Hydrodynamics of Swimming Microorganisms: Living Fluids
- Low-Reynolds-number swimming in a capillary tube
- A spherical envelope approach to ciliary propulsion
- Average nutrient uptake by a self-propelled unsteady squirmer
- On the squirming motion of nearly spherical deformable bodies through liquids at very small reynolds numbers
- Lattice-Boltzmann simulations of particle-fluid suspensions.
This page was built for publication: Active suspensions in thin films: nutrient uptake and swimmer motion
