On the Computer Simulation of the Deformation and Breakup of Colloidal Aggregates in Shear Flow

## Abstract Three‐dimensional numerical simulation of the deformation and breakup of an isolated liquid drop suspended in immiscible viscous fluid under shear flow was performed with diffuse interface method. The governing equations of the model were described by Navier– Stokes– Cahn– Hilliard equa

A modified discrete element method in which the hydrodynamic contribution is taken into account is proposed to simulate the deformation and breakup process of coagulated particles in two-dimensional shear and elongational flows. The simulation was performed for aggregates of various sizes, constitut

## Abstract The structure and orientation of semiflexible chain molecules in a shear flow field were studied by Brownian dynamics simulation. Molecules in the size range 200 nm to 1 μm were modeled as chains of spherical subunits with parameters chosen to mimic the size and persistence length of B‐

A particle size analyzer together with a video camera has been used to investigate the structure of the aggregates during the process of aggregation and breakup of particles in a shear flow induced by means of a Couette-flow system. Three different values for the shear rate have been used (25, 32, a

Among other results it was found that the dynamics of the In the volume fraction range (0.005,0.08), we have obtained aggregation also exhibited scaling behavior (8)(9)(10)(11)(12). the temporal evolution of the structure factor S(q), in extensive It is currently believed that there are two limitin