The effect of surfactant on the rise of a spherical bubble at high Reynolds and Peclet numbers

Steady irrotational flow of inviscid liquid of density ρ l around a spherical gas bubble which lies on the axis of a cylindrical pipe is investigated using the analysis of Smythe (Phys. Fluids 4 (1961) 756). The bubble radius b = qa is assumed small compared to the pipe radius a, and the interfacial

When fluctuating temperature field is considered to be super imposed on a general field of eddy turbulence, the early period decay phenomena in regard to velocity, temperature and velocity-temperature are guided by three dynamical equations that are obtained here in a straightforward manner. The equ

This paper contains a critical review of available methodology for dealing with the motion of non-spherical particles at higher Reynolds numbers in the Eulerian-Lagrangian methodology for dispersed flow. First, an account of the various attempts to classify the various shapes and the efforts towards

A numerical investigation of the flow field inside and around a deformed drop translating in another quiescent liquid contaminated by surfactant soluble in continuous phase but not soluble in dispersed phase is presented in this paper. The finite difference method was used to solve numerically the c