University Rovira y Virgili 
Educational guide Escola Tècnica Superior d`Enginyeria Química 
english 
Enginyeria Ambiental (2006) 
Subjects 
TRANSPORT PHENOMENA 
Learning aims 
IDENTIFYING DATA  2007_08 
Subject  TRANSPORT PHENOMENA  Code  205141222  
Study programme 

Cycle  2nd  
Descriptors  Credits  Type  Year  Period  
3  Optativa  Only annual 
Competences  Learning aims  Contents 
Planning  Methodologies  Personalized attention 
Assessment  Sources of information  Recommendations 
Objectives  Competences  
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. 