- Docente: Michele Celli
- Credits: 3
- Language: Italian
- Teaching Mode: Traditional lectures
- Campus: Bologna
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Corso:
First cycle degree programme (L) in
Energy Engineering (cod. 0924)
Also valid for Second cycle degree programme (LM) in Energy Engineering (cod. 0935)
Learning outcomes
Students will learn to solve numerically basic heat and mass transfer problems.
Course contents
Students will acquire a basic knowledge the balance equations governing heat and mass transfer and of the main numerical methods employed to solve the balance equations. The procedure to obtain dimensionless balance equations will be presented. An introduction to the main numerical methods employed for solving heat and mass transfer problems will be presented.
Student will solve numerically, by using personal computers of the computer laboratory, the following type of problems: one/two dimensional stationary/transient conduction, forced convection in ducts and thermal entrance regions.
The dimensionless balance equations will be solved by employing MATLAB (© MathWorks) first by means of the graphical interface PdeTool and then by writing a simple code.
MATLAB licences are free for the students of Università di Bologna.
Readings/Bibliography
Lecture notes.
Arpaci V.S. Larsen P.S. CONVECTION HEAT TRANSFER PRENTICE-HALL INC. ENGLEWOOD CLIFFS 1984.
Teaching methods
The first few classes of the course will be focused on the balance equations typical of heat and mass transfer problems and on the numerical methods that will be employed to solve them.
During the second, and more consistent part of the course, students will solve a number of basic problems of heat and mass transfer in the computer laboratory under the supervision of the professor.
Assessment methods
The exam consists of solving numerically a basic heat and mass transfer problem, similar to those presented during the course, by employing one of the personal computers present inside the computer laboratory. The student has also to answer one or more written questions. The student cannot employ lecture notes or any other support.
The student will pass the exam if he/she proves to be able of
- obtaining the dimensionless form of the local balance equation, the dimensionless form of the auxiliary conditions, and the dimensionless form of the geometry
- solving numerically the problem in its dimensionless form and handling the solution obtained
Teaching tools
MATLAB may be downloaded at the page:
http://www.unibo.it/en/services-and-opportunities/studying-and-beyond/discounts-for-computer-tablet-and-software-1/matlab
Office hours
See the website of Michele Celli
SDGs
This teaching activity contributes to the achievement of the Sustainable Development Goals of the UN 2030 Agenda.