Chaining of weakly interacting particles suspended in viscoelastic fluids

Chaining of weakly interacting particles suspended in viscoelastic fluids

An asymptotic theory based on multipole expansions is presented for multiparticle interactions in unbounded, weakly viscoelastic, creeping flows. The theory accounts for non-Newtonian sphere–sphere interactions that are of order O ( D e ( a / R ) 2 ) , where De is the Deborah number, a the sphere ra...

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Veröffentlicht in:Journal of non-Newtonian fluid mechanics 2007-12, Vol.147 (3), p.175-188
Hauptverfasser: Phillips, Ronald J., Talini, Laurence
Format: Artikel
Sprache:eng
Schlagworte:
Exact sciences and technology
Fluid dynamics
Fundamental areas of phenomenology (including applications)
Hydrodynamic interactions
Laminar flows
Laminar suspensions
Multiparticle simulation
Non-newtonian fluid flows
Particle chaining
Physics
Sedimentation
Shear flow
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Zusammenfassung:An asymptotic theory based on multipole expansions is presented for multiparticle interactions in unbounded, weakly viscoelastic, creeping flows. The theory accounts for non-Newtonian sphere–sphere interactions that are of order O ( D e ( a / R ) 2 ) , where De is the Deborah number, a the sphere radius and R is the sphere–sphere separation. Analytic expressions are derived for the non-Newtonian correction to the multisphere mobility matrix for non-neutrally buoyant sedimenting spheres, and for neutrally buoyant spheres suspended in a shear flow. It is shown that these expressions give rise to particle chaining in simulations of interacting spherical particles.
ISSN:0377-0257
1873-2631
DOI:10.1016/j.jnnfm.2007.08.007