Variational upper bound on the renormalized mean sedimentation speed in concentrated suspensions of identical randomly arranged spheres
Document Type
Article
Publication Date
1-1-1993
Abstract
An upper bound on the renormalized mean sedimentation speed in a concentrated suspension of identical randomly arranged spheres is derived. A random-periodic model, which interpolates between random suspensions and periodic suspensions, is the basis of the renormalization method. A variational principle, the hydrodynamic analogue of Thomson's theorem of electrostatics, is the basis for the bound on the sedimentation speed. Advantages of the methodology presented include (i) the definite sign of the error in the upper bound viewed as an estimate of the sedimentation speed, (ii) a clear separation of modeling and computational issues, and (iii) a path for systematic improvement of the bound.
Identifier
0027844765 (Scopus)
Publication Title
SIAM Journal on Applied Mathematics
External Full Text Location
https://doi.org/10.1137/0153075
ISSN
00361399
First Page
1613
Last Page
1635
Issue
6
Volume
53
Recommended Citation
Luke, Jonathan H., "Variational upper bound on the renormalized mean sedimentation speed in concentrated suspensions of identical randomly arranged spheres" (1993). Faculty Publications. 17077.
https://digitalcommons.njit.edu/fac_pubs/17077
