peer reviewedThe present work presents CFD simulations of hydrodynamics, mixing and mass transfer in a surface-aerated baffled stirred tank. The modelling of the multiphase flow is realized via an Euler-Euler approach. Three closure models are tested for the resolution of the RANS equations. When fully-developed flow field is reached, gas-liquid transfer is implemented with a local mass transfer coefficient estimated by the eddy cell model, and the temporal evolution of dissolved gas concentration is predicted.Hydrodynamic and mixing quantities as well as mass transfer parameters for the different turbulence models are compared with experimental data available for the same ge...
Solid liquid stirred tanks are commonly used in the minerals industry for operations like concentrat...
ABSTRACT In the present work the predictive capabilities of CFD techniques as applied to solid-liqui...
Numerical simulations of turbulent immiscible liquid-liquid mixing processes in cylindrical stirred ...
Computational fluid dynamics (CFD) provides a method for investigating the highly complex fluid flow...
Computational fuid dynamics (CFD) is an increasingly important tool for carrying out realistic simu...
ABSTRACT: Multiphase impeller stirred tank reactors enhance mixing of reacting species used in a var...
Includes bibliographical references (p. 67-70).Stirred tanks agitated with Rushton turbines are comm...
A strategy based on the Reynolds averaged two-fluid model is proved to be effective for the simulati...
The turbulent flow and macro-mixing processes in gas liquid liquid stirred vessels agitated by a R...
Stirred tanks are typically used in many reactions. The quality of mixing generated by the impellers...
This paper presents the mathematical modelling and numerical simulation of the turbulent, two-phase ...
In many chemical and biochemical processes, it is fundamental to accurately predict flow dynamics wi...
Research Doctorate - Doctor of Philosophy (PhD)This thesis describes a study in which the aim was to...
A Computational Fluid Dynamics (CFD) technique has been applied to simulate the gas-liquid phase in ...
A numerical modelling method is presented for gas–liquid flow in mechanically stirred tanks. In this...
Solid liquid stirred tanks are commonly used in the minerals industry for operations like concentrat...
ABSTRACT In the present work the predictive capabilities of CFD techniques as applied to solid-liqui...
Numerical simulations of turbulent immiscible liquid-liquid mixing processes in cylindrical stirred ...
Computational fluid dynamics (CFD) provides a method for investigating the highly complex fluid flow...
Computational fuid dynamics (CFD) is an increasingly important tool for carrying out realistic simu...
ABSTRACT: Multiphase impeller stirred tank reactors enhance mixing of reacting species used in a var...
Includes bibliographical references (p. 67-70).Stirred tanks agitated with Rushton turbines are comm...
A strategy based on the Reynolds averaged two-fluid model is proved to be effective for the simulati...
The turbulent flow and macro-mixing processes in gas liquid liquid stirred vessels agitated by a R...
Stirred tanks are typically used in many reactions. The quality of mixing generated by the impellers...
This paper presents the mathematical modelling and numerical simulation of the turbulent, two-phase ...
In many chemical and biochemical processes, it is fundamental to accurately predict flow dynamics wi...
Research Doctorate - Doctor of Philosophy (PhD)This thesis describes a study in which the aim was to...
A Computational Fluid Dynamics (CFD) technique has been applied to simulate the gas-liquid phase in ...
A numerical modelling method is presented for gas–liquid flow in mechanically stirred tanks. In this...
Solid liquid stirred tanks are commonly used in the minerals industry for operations like concentrat...
ABSTRACT In the present work the predictive capabilities of CFD techniques as applied to solid-liqui...
Numerical simulations of turbulent immiscible liquid-liquid mixing processes in cylindrical stirred ...