Add to ORKGA general method for computing the hydrodynamic interactions among an infinite suspension of particles, under the condition of vanishingly small particle Reynolds number, is presented. The method follows the procedure developed by O'Brien (1979) for constructing absolutely convergent expressions for particle interactions. For use in dynamic simulation, the convergence of these expressions is accelerated by application of the Ewald summation technique. The resulting hydrodynamic mobility and/or resistance matrices correctly include all far-field non-convergent interactions. Near-field lubrication interactions are incorporated into the resistance matrix using the technique developed by Durlofsky, Brady & Bossis (1987). The method is rigorous,...
A general method is presented for simulating the dynamical behavior of a suspension of particles whi...
Coarse Particle sedimentation is studied by using an algorithm with no adjustable parameters based o...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 1990.Includes...
A general method for computing the hydrodynamic interactions among an infinite suspension of particl...
A general method for computing the hydrodynamic interactions among N suspended particles, under the ...
A new implementation of the conventional Stokesian Dynamics (SD) algorithm, called accelerated Stoke...
A new implementation of the conventional Stokesian Dynamics (SD) algorithm, called accelerated Stoke...
A new method is described for incorporating close-field, lubrication forces between pairs of particl...
A new method is described for incorporating close-field, lubrication forces between pairs of particl...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2019Catal...
In this work we investigate numerically the dynamics of sheared suspensions in the limit of vanishin...
Since its development, Stokesian Dynamics has been a leading approach for the dynamic simulation of ...
A method is proposed for computing the low-Reynolds-number hydrodynamic forces on particles comprisi...
Particles suspended or dispersed in a fluid medium occur in a wide variety of natural and man-made s...
A general method is presented for simulating the dynamical behavior of a suspension of particles whi...
A general method is presented for simulating the dynamical behavior of a suspension of particles whi...
Coarse Particle sedimentation is studied by using an algorithm with no adjustable parameters based o...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 1990.Includes...
A general method for computing the hydrodynamic interactions among an infinite suspension of particl...
A general method for computing the hydrodynamic interactions among N suspended particles, under the ...
A new implementation of the conventional Stokesian Dynamics (SD) algorithm, called accelerated Stoke...
A new implementation of the conventional Stokesian Dynamics (SD) algorithm, called accelerated Stoke...
A new method is described for incorporating close-field, lubrication forces between pairs of particl...
A new method is described for incorporating close-field, lubrication forces between pairs of particl...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2019Catal...
In this work we investigate numerically the dynamics of sheared suspensions in the limit of vanishin...
Since its development, Stokesian Dynamics has been a leading approach for the dynamic simulation of ...
A method is proposed for computing the low-Reynolds-number hydrodynamic forces on particles comprisi...
Particles suspended or dispersed in a fluid medium occur in a wide variety of natural and man-made s...
A general method is presented for simulating the dynamical behavior of a suspension of particles whi...
A general method is presented for simulating the dynamical behavior of a suspension of particles whi...
Coarse Particle sedimentation is studied by using an algorithm with no adjustable parameters based o...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 1990.Includes...