DADES IDENTIFICATIVES | 2018_19 |
Assignatura | ENGINYERIA DE REACTORS | Codi | 20705223 | |||||
Ensenyament |
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Cicle | 2n | |||||
Descriptors | Crèd. | Tipus | Curs | Període | ||||
6 | Optativa | 2Q |
Competències | Resultats d'aprenentage | Continguts |
Planificació | Metodologies | Atenció personalitzada |
Avaluació | Fonts d'informació | Recomanacions |
Tema | Subtema |
The equations of change of mass, energy and momentum | Review of the fundamental microscopic balances of mass, energy and momentum, and their application to reactor design. Numerical solution of the microscopic balances: introduction to COMOSL multiphisics |
Homogeneous reactors | Application of the equations of change to homogeneous reactors: Tubular reactors in turbulent and laminar flow Reduction to ideal flow reactor: plug flow and perfectly mixed reactors. |
Reactions in heterogeneous systems: application to solid catalysts and reactive membranes | Interfacial mass and energy transport in heterogeneous catalysts. Mass and energy transfer coefficients. Internal transport and reaction inside porous materials: catalyst pellets and catalytic membranes. Definition of internal effectiveness factors and global effectiveness factors and analytical solutions in simple situations. Numerical solution of generalized systems with multiple simultaneous reactions. |
Design of biphasic catalytic reactors (S-G and S-L) | Packed bed catalytic reactor Fluidized bed reactor Monoliths and catalytic-wall reactors |
Design of multiphasic catalytic reactors (GLS) | A generalized model for GLS catalytic reactors. Application to bubble column slurry reactors and trickle-bed reactors. Stirred tank slurry reactors. GLS reactors based on catalyst monoliths |
Introduction to process intensification through reactor design | Reactive distillation. Membrane reactors. Microfluidics and microreactors |