Universidad Pública de Navarra - Nafarroako Univertsitate Publikoa
Public University of Navarre
| Course code: 252601 | Subject title: HEAT TRANSFER | ||||
| Credits: 3 | Type of subject: Mandatory | Year: 3 | Period: 2º S | ||
| Department: Ingeniería | |||||
| Lecturers: | |||||
| DIEGUEZ ELIZONDO, PEDRO MARIA (Resp) [Mentoring ] | ARAIZ VEGA, MIGUEL [Mentoring ] | ||||
| CATALAN ROS, LEYRE [Mentoring ] | |||||
Methodology
| Methodology-Activity | On-site hours | Off-site hours |
| A-1 Lectures | 20 | |
| A-2 Practical sessions | 10 | |
| A-3 Discussions and seminar | ||
| A-4 Assigned work development | ||
| A-5 Reading materials | ||
| A-6 Self-study | 40 | |
| A-7 Exams and assessment | ||
| A-8 Tutoring | ||
| Total | 30 | 40 |
Evaluation
| Methodology - Activity | Weight (%) |
| Short-answer exam | 0 |
| Long- answer exam | 100 |
| Multiple-choice exam | 0 |
| Oral presentation | 0 |
| Teamwork projects | 0 |
| Reports of experimental work | 0 |
There will be one ordinary final exam which include a theoretical part as well as a practical one. Those students who have not passed the subject before or those who want to get a better mark could sit for an extraordinary final exam, with the same structure. These exams could include some long-answer theoretical and practical questions, or several shot-answer questions (that could be multiple choice as well).
It would be necessary to get a 5 out of 10, in order to pass the subject.
Only those who have not attended any of the final exams could appear as ¿No presentado¿ in the minute of the subject
Agenda
Chapter 1: Introduction
- Conduction heat transfer
- Convection heat transfer
- Radiation heat transfer
- Units and dimensions
Chapter 2: Steady one-dimensional heat conduction
- Plane wall
- Insulation and thermal resistance concept
- Heat conduction in cylinders and spheres
- Overall coefficient of heat transfer
- Critical Radius in insulation
- Heat flux sources
- Conduction-convection combined
- Finned surfaces
Chapter 3: Transient heat conduction
Chapter 4: Fundamentals of convection
- Laminar boundary layer in a flat plate
- Heat and Momentum transfer in the boundary layer
- Nusselt and Prandtl numbers
- Thermal Boundary Layer
Chapter 5: Forced convection
- Empirical relations for internal flows
- External forced convection
Chapter 6: Natural convection
- Equation of motion in the boundary layer
- The Grashof and Rayleigh numbers
- Empirical relations for free convection
Chapter 7: Fundamentals of thermal radiation
- Thermal radiation
- Radiation laws
- Radiative properties
- Solar radiation
Chapter 8: Radiation heat transfer
- The View Factor
- View Factor relations
- Radiation heat transfer: black surfaces
- Radiation shields