The Resistance and Mobility Functions of Two Equal Spheres in Low Reynolds Number Flow.
Abstract
The resistance and mobility functions which completely characterize the linear relations between the force, torque and stresslet and the translational and rotational velocities of two spheres in low-Reynolds-number flow have been calculated using a boundary collocation techniques. The ambient velocity field is assumed to be a superposition of a uniform stream and a linear (vorticity and rate-of-strain) field. This is the first compilation of accurate expressions for the entire set of functions. Our calculations are in agreement with earlier results for which such results are available. Our technique is successful at all sphere-sphere separations except at the almost-touching (gaps of less than .005 diameter) configuration. New results for the stresslet functions have been sued to determine Batchelor and Green's (1972) order c square coefficient in the bulk-stress (7.1 instead of 7.6). The two-sphere functions have also been used to determine the motion of a rigid dumbbell in a linear field. We also show that certain functions have extrema. The source (FORTRAN) code is furnished in the appendix.
Document Details
- Document Type
- Technical Report
- Publication Date
- Aug 01, 1984
- Accession Number
- ADA147301
Entities
People
- R. T. Mifflin
- Seungchan Kim
Organizations
- University of Wisconsin–Madison