The effect of finite boundaries on the motion of particles in non-Newtonian fluids

There are various viscometric flow models available at present to determine the mechanical properties of incompressible non-Newtonian fluids. In most of these, measurement of the normal stresses is quite a challenge. We introduce a new viscometric flow model and derive a theory for the measurement o

Techniques developed are applicable to the design of industrial melters when the melted material is a time-independent non-Newtonian liquid of Power Law type. Average heat transfer coefficients are presented in terms of characteristic parameters relevant to the melting of solid slabs on an inclined

## Ah&r&- The accuracy of a formula for calculating velocity gradient at the wag for power-law fluids is investigated by obtaining the exact numerical solution of the boundary-layer equations for Howarth's flow. In general, the formula is found to be quite accurate for the pseudo-plastic cases, n

This work investigated the extent of the wall effects on the free falling velocity of fluid spheres in quiescent Newtonian and pseudoplastic non-Newtonian media. The terminal velocity has been measured as a function of the physical properties of the both dispersed and continuous phases, and of falli