Number of hours
- Lectures 8.25
- Projects -
- Tutorials 8.25
- Internship -
- Laboratory works -
- Written tests 2.0
ECTS
ECTS 0.0
Goal(s)
- Describe the spontaneous evolution of a closed and open thermodynamic system
- Study the evolution of a system contained condensed phases (liquid and / or solid solutions)
- Give the basics of thermodynamic description of equilibrium binary phase diagrams
Fiqiri HODAJ
Content(s)
Chapter 1 Basic concepts and tools of thermodynamics
- Evolution of a closed and open thermodynamic system
- Phase equilibria in a closed, isothermal and isobaric system
- Driving force for phase transformation in a one-component system
Chapter 2 Thermodynamics of mixtures and chemical reactions
-Partial molar quantities. Euler and Gibbs-Duhem equations
- Activity and activity coefficient. Thermodynamic models fro solutions (diluted, ideal and regular solutions)
- Change of reference state
- Chemical transformations involving liquid and solid solutions
Chapter 3 Phase equilibria in a binary system - phase diagrams
- Total miscibility in liquid and solid state
- Total miscibility in the liquid state and partial in the solid state
- Partial miscibility in the liquid state
- Solid state phase transformations
Basics of thermodynamics, principles of thermodynamics, thermodynamic functions and variables
- In presence
Session 1 : Written exam, 2h, the only permitted document: 1 page A4 double-sided handwritten, calculator allowed
Session 2 : Written exam, 2h, the only permitted document: 1 page A4 double-sided handwritten, calculator allowed
- Confinement:
Session 1: Written exam, 2h, documents and calculator allowed, monitored by zoom
Session 2: Written exam, 2h, documents and calculator allowed, monitored by zoom
The course exists in the following branches:
- Curriculum - Prépa - Semester 4
- Curriculum - Prépa SHN - Semester 4
Course ID : 2CMTPC1
Course language(s):
You can find this course among all other courses.
P. Papon, J. Leblond, Thermodynamique des états de la matière, Editions Hermann, 1990.
P. Desré, F. Hodaj, Thermodynamique des matériaux - équilibres de phases et métastabilité, EDP Sciences, 2010.
D.R. Gaskell, Introduction to the thermodynamics of materials, 4th edition, Taylor & Francis, 2003.