Add to ORKGThe various existing models for predicting the maximum stable drop diameterd max in turbulent stirred dispersions have been reviewed. Variations in the basic framework dictated by additional complexities such as the presence of drag reducing agents in the continuous phase, or viscoelasticity of the dispersed phase have been outlined. Drop breakage in the presence of surfactants in the continuous phase has also been analysed. Finally, the various approaches to obtaining expressions for the breakage and coalescence frequencies, needed to solve the population balance equation for the number density function of the dispersed phase droplets, have been discussed
The existing models of drop breakage in stirred turbulent dispersions are applicable only to purely ...
The influence of ionic surfactant (SDS) on the drop size distribution in stirred liquid-liquid dispe...
The value of the average drop size in a stirred liquid-liquid dispersion is required for the analysi...
The various existing models for predicting the maximum stable drop diameterd max in turbulent stirr...
The various existing models for predicting the maximum stable drop diameter dmax in turbulent stirre...
A model of drop breakage in turbulent stirred dispersions based on interaction of a drop with eddies...
A model of drop breakage in turbulent stirred dispersions based on interaction of a drop with eddies...
A model of drop breakage in turbulent stirred dispersions based on interaction of a drop with eddies...
Abstract. The evolution of drop size distribution in agitated vessel after impeller speed reduction ...
The maximum stable drop sizes, $^dmax,$ formed in turbulent stirred dispersions were found to increa...
The maximum stable drop sizes, $^dmax,$ formed in turbulent stirred dispersions were found to increa...
The maximum stable drop sizes, dmax, formed in turbulent stirred dispersions were found to increase ...
A model of breakage of drops in a stirred vessel has been proposed to account for the effect of rheo...
The existing models of drop breakage in stirred turbulent dispersions are applicable only to purely ...
The existing models of drop breakage in stirred turbulent dispersions are applicable only to purely ...
The existing models of drop breakage in stirred turbulent dispersions are applicable only to purely ...
The influence of ionic surfactant (SDS) on the drop size distribution in stirred liquid-liquid dispe...
The value of the average drop size in a stirred liquid-liquid dispersion is required for the analysi...
The various existing models for predicting the maximum stable drop diameterd max in turbulent stirr...
The various existing models for predicting the maximum stable drop diameter dmax in turbulent stirre...
A model of drop breakage in turbulent stirred dispersions based on interaction of a drop with eddies...
A model of drop breakage in turbulent stirred dispersions based on interaction of a drop with eddies...
A model of drop breakage in turbulent stirred dispersions based on interaction of a drop with eddies...
Abstract. The evolution of drop size distribution in agitated vessel after impeller speed reduction ...
The maximum stable drop sizes, $^dmax,$ formed in turbulent stirred dispersions were found to increa...
The maximum stable drop sizes, $^dmax,$ formed in turbulent stirred dispersions were found to increa...
The maximum stable drop sizes, dmax, formed in turbulent stirred dispersions were found to increase ...
A model of breakage of drops in a stirred vessel has been proposed to account for the effect of rheo...
The existing models of drop breakage in stirred turbulent dispersions are applicable only to purely ...
The existing models of drop breakage in stirred turbulent dispersions are applicable only to purely ...
The existing models of drop breakage in stirred turbulent dispersions are applicable only to purely ...
The influence of ionic surfactant (SDS) on the drop size distribution in stirred liquid-liquid dispe...
The value of the average drop size in a stirred liquid-liquid dispersion is required for the analysi...