|
Tipus A
|
Codi |
Competències Específiques |
| |
Comú |
| |
Professionalitzador |
| |
Recerca |
|
Tipus B
|
Codi |
Competències Transversals |
| |
Comú |
|
Tipus C
|
Codi |
Competències Nuclears |
| |
Comú |
| Objectius |
Competències |
| 1) Obtain the skills to analytically derive exact solutions to common problems in transport phenomena. |
|
|
|
| 2) Write and solve the momentum balance equation to determine velocity profiles, average velocity, volumetric/mass flow rate, pressure drop, friction loss, resultant forces and shaft work in simple flow systems. |
|
|
|
| 3) Write and solve the energy balance equations to determine temperature profiles and heat flow rates in media through which heat is being transferred. |
|
|
|
| 4) Write and solve the component continuity equations to determine concentration profiles and mass transfer rates in systems through which mass is being transferred. |
|
|
|
| 1) Obtain the skills to analytically derive exact solutions to common problems in transport phenomena.
|
|
|
|
| 2) Write and solve the momentum balance equation to determine velocity profiles, average velocity, volumetric/mass flow rate, pressure drop, friction loss, resultant forces and shaft work in simple flow systems.
|
|
|
|
| 3) Write and solve the energy balance equations to determine temperature profiles and heat flow rates in media through which heat is being transferred.
|
|
|
|
| 4) Write and solve the component continuity equations to determine concentration profiles and mass transfer rates in systems through which mass is being transferred.
|
|
|
|
| 1) Obtain the skills to analytically derive exact solutions to common problems in transport phenomena.
|
|
|
|
| 2) Write and solve the momentum balance equation to determine velocity profiles, average velocity, volumetric/mass flow rate, pressure drop, friction loss, resultant forces and shaft work in simple flow systems.
|
|
|
|
| 3) Write and solve the energy balance equations to determine temperature profiles and heat flow rates in media through which heat is being transferred.
|
|
|
|
| 4) Write and solve the component continuity equations to determine concentration profiles and mass transfer rates in systems through which mass is being transferred.
|
|
|
|
| Tema |
Subtema |
| PART I |
Laws of conservation:
Systems, infinitesimal volumes of control and elements. Hypothesis of continuity. Sources, wells and chemical reaction.
Constituent equations:
Newton’s Law of viscosity, Fourier’s Law and Fick’s Law. Differential heat and matter balances in static systems. Differentials heat and matter and angular momentum balances in systems of flux of fluids. Determination of temperature profiles, concentration and speed in conventional systems of simple geometry.
|
| PART II |
Design of an excellent equipment in the fields of the new technologies from the first principles treated in the first part of the subject. The students will be able to choose "case study" of the scope of the bioengineering, environmental engineering and engineering of the materials. Also other fields related to mini-systems of flow, or without chemical reaction will be able to be considered. |
| Metodologies :: Proves |
| |
Competències |
(*) Hores a classe |
Hores fora de classe |
(**) Hores totals |
| Activitats Introductòries |
|
0 |
0 |
0 |
| |
| Sessió Magistral |
|
0 |
0 |
0 |
| Resolució de problemes, exercicis a l'aula ordinària |
|
0 |
0 |
0 |
| |
| Atenció personalitzada |
|
0 |
0 |
0 |
| |
| Proves pràctiques |
|
0 |
0 |
0 |
| |
(*) En el cas de docència no presencial, són les hores de treball amb suport vitual del professor.
(**) Les dades que apareixen a la taula de planificació són de caràcter orientatiu, considerant l’heterogeneïtat de l’alumnat |
Metodologies
| |
Descripció |
| Activitats Introductòries |
Presentació de l'assignatura. |
| Sessió Magistral |
Expositive classes. |
| Resolució de problemes, exercicis a l'aula ordinària |
Group problems. |
| |
Descripció |
Pes |
| Resolució de problemes, exercicis a l'aula ordinària |
Activitats en grup. |
25% |
| Proves pràctiques |
Proves parcials (25%).
Proves finals (50%). |
75% |
| |
|
Altres comentaris i segona convocatòria |
|
|
| Bàsica |
|
-
Incropera F P and DeWitt D P "Fundamentals of heat and mass transfer" John Wiley & Sons, 1996.
-
Kundu P K "Fluid Mechanics" Academic Press, 1990.
-
Fox R and McDonald A T "Introduction to fluid mechanics" John Wiley & Sons, 1994. |
| Complementària |
|
-
Bird R B, Stewart W. E y Lightfoot E N "Transport phenomena", Wiley and Sons, 1960 (Spanish translation: "Fenómenos de transporte" Reverté, 1982).
-
Welty J R, Wicks C E y Wilson R E "Fundamentals of momentum, heat and mass transfer" John Wiley, 1984 (Spanish translation: "Fundamentos de transferencia de momento calor y masa" Limusa, 1989). |
|