Tesis doctoral de Alfredo Guardo Zabaleta
An understanding of the heat and mass transfer phenomena in a porous media implies the study of the fluid transport model within the void space; this fact is of fundamental importance to many chemical engineering systems such as packed bed extraction or catalytic reaction equipment. Experimental and theoretical studies of flow through such systems often treat the porous medium as an effectively homogeneous system and concentrate on the bulk properties of the flow. Such an approach neglects completely the complexities of the flow within the void space of the porous medium, reducing the description of the problem to macroscopic average or effective quantities. The details of this local flow process may, however, be the most important factor influencing the behavior of a given physical process occurring within the system, and are crucial to understanding the detailed mechanisms of, for example, heat and mass dispersion and interface transport. computational fluid dynamics as a simulation tool allows obtaining a more approached view of the fluid flow and heat and mass transfer mechanisms in fixed bed equipment, through the resolution of 3d reynolds averaged transport equations, together with a turbulence model when needed. In this way, this tool permit to obtain mean and fluctuating flow and temperature values in any point of the bed. the goal of this project is to use commercial available cfd codes for solving fluid flow and heat and mass transfer phenomena in two and three-dimensional models of packed beds, developing a modeling strategy applicable to the design of packed bed chemical reaction and extraction equipment. Supercritical extraction and supercritical catalytic reaction processes will be taken as reference processes due to the complexity of the transport phenomena involved within this processes, and to the availability of experimental data in this field, obtained in the supercritical fluids research group of this university. The experimental data priory ob
Datos académicos de la tesis doctoral «Computational fluid dynamics studies in heat and mass transfer phenomena in packed bed extraction and reaction equipment: special attention to supercritical fluids technology«
- Título de la tesis: Computational fluid dynamics studies in heat and mass transfer phenomena in packed bed extraction and reaction equipment: special attention to supercritical fluids technology
- Autor: Alfredo Guardo Zabaleta
- Universidad: Politécnica de catalunya
- Fecha de lectura de la tesis: 01/03/2007
Dirección y tribunal
- Director de la tesis
- María Angeles Larrayoz Iriarte
- Tribunal
- Presidente del tribunal: eduard Egusquiza estevez
- eduardo Blanco marigorta (vocal)
- Cocero alonso María José (vocal)
- thomas Gamse (vocal)