Numerical simulation of liquid-liquid turbulent flow in a stirred tank with an explicit algebraic stress model

A two-phase explicit algebraic stress model (EASM) is employed to simulate liquid-liquid turbulent flow in stirred tanks based on an Eulerian-Eulerian approach. This model is validated by comparing with the reported experimental data and other predicted results by the k-ɛ model. Mean and fluctuating velocities and the distribution of the dispersed phase holdups are predicted and discussed. The results show that the EASM can give a reasonable description of the liquid-liquid flow in stirred tanks. However, the present two-phase EASM shows moderate improvement comparing with the k-ɛ model.