Complex Creeping Fluids: Numerical Methods and Theory

Videos from CMO Workshop

, Northwestern University
- 10:00
Complex dynamics of soft microparticles in flow and electric fields
Watch video | Download video: 201710020900-Vlahovska.mp4 (208M)
, Stanford
- 11:00
Computing the Dynamics of Suspended Particles in Complex Fluids: From Fracking Fluids to Swimming Worms
Watch video | Download video: 201710021029-Shaqfeh.mp4 (116M)
, New Jersey Institute of Technology
- 11:35
A target specific QBX method for the accurate computation of boundary integrals with nearly touching interfaces
Watch video | Download video: 201710021104-Siegel.mp4 (117M)
, Georgia Tech
- 12:11
LBM-based method for simulation of cellular blood flow with nanoscale proteins
Watch video | Download video: 201710021137-Aidun.mp4 (127M)
, KTH Royal Institute of Technology
- 14:25
Quadrature by expansion in integral equation methods for Stokes flow
Watch video | Download video: 201710021400-afKlinteberg.mp4 (101M)
, Florida State University
- 15:00
Granular Erosion in Stokes Flow
Watch video | Download video: 201710021433-Moore.mp4 (102M)
, University of Texas at Austin
- 15:54
A Boundary Integral Equation Formulation for Vesicle Electrohydrodynamics
Watch video | Download video: 201710021530-Wu.mp4 (87M)
, Simons Foundation & New York University
- 10:06
Computational methods and models for biomechanics problems in the cell
Watch video | Download video: 201710030902-Shelley.mp4 (247M)
, University of Texas at Austin
- 11:09
Parallel Simulation of Concentrated Vesicle Suspensions in 3D
Watch video | Download video: 201710031032-Malhotra.mp4 (136M)
, KTH Royal Institute of Technology
- 12:25
Integral equation based methods for surfactant laden drops in two and three dimensions
Watch video | Download video: 201710031143-Tornberg.mp4 (154M)
, Florida State University
- 14:22
Contact-Free Rigid Body Motion Using Boundary Integral Equations
Watch video | Download video: 201710031400-Bystricky.mp4 (109M)
, NJIT
- 14:59
A soft porous drop in linear flows
Watch video | Download video: 201710031428-Young.mp4 (124M)
, CNRS
- 10:01
Blood: flow, swimming and patterns
Watch video | Download video: 201710040901-Misbah.mp4 (247M)
, University of Bayreuth
- 11:12
Margination dynamics of drug delivery agents in blood flow using Lattice-Boltzmann and Boundary-Integral simulations
Watch video | Download video: 201710041031-Gekle.mp4 (183M)
, New York University
- 11:48
Contact-aware simulations of particulate Stokesian suspensions
Watch video | Download video: 201710041113-Zorin.mp4 (141M)
, University of Wisconsin-Madison
- 10:08
Theory of margination in blood and other multicomponent suspensions
Watch video | Download video: 201710050901-Graham.mp4 (270M)
, UC San Diego
- 11:01
Active hydrodynamics of interphase chromatin: coarse-grained modeling and simulations
Watch video | Download video: 201710051030-Saintillan.mp4 (171M)
, University of Washington
- 11:33
A stabilized fast multipole method for fluid flow
Watch video | Download video: 201710051105-Askham.mp4 (108M)
, University of Texas
- 14:33
Deformability-based red blood cell separation using a microfluidic device
Watch video | Download video: 201710051400-Kabacaoglu.mp4 (129M)
, University at Buffalo
- 15:10
Three-Dimensional Multicomponent Vesicles -- Modeling, Results, and Extensions
Watch video | Download video: 201710051435-Salac.mp4 (139M)
, New York University
- 15:56
A Fluctuating Boundary Integral Method for Brownian Suspensions
Watch video | Download video: 201710051515-Bao.mp4 (154M)
, University of Michigan
- 09:56
Integral Equation Methods for Rigid Objects in 3D Stokes Flow: A Tutorial
Watch video | Download video: 201710060902-Veerapaneni.mp4 (195M)
, Flatiron Institute, Simons Foundation
- 11:05
Resolving collisions in Stokes suspensions with an efficient and stable potential-free constrained optimization algorithm
Watch video | Download video: 201710061029-Yan.mp4 (138M)
, University of Colorado Boulder
- 11:38
Fast direct integral equation solvers for fluid applications
Watch video | Download video: 201710061109-Gillman.mp4 (89M)