Instrumentation for process technology
Level of the qualification framework
Niveau 7 (2e cycle-MA/MC/MA60)
Study programme(s) featuring the teaching unit
M-IRMAE-P - Master en ingénieur civil en chimie et science des matériaux – Option Process technology (4 crédits, obligatoire)
Contribution of the teaching unit to the programme profile
To Get students to follow the modern instrumentation problems in fluid physics theory into practice.
Enable students to understand and have a critical analysis on the respective performances of modern methods of optical metrology in fluid physics.
Objectives of the teaching unit (and/or specific learning outcomes
To lead the students to follow modern problems of thermodynamics from theory to experiment and applications. To provide an overview of the optical methods for fluid physics.
Contents of the teaching unit
- Thermodynamics of irrersible processes, theory of mixtures
- Introduction to geometrical optics
- Introduction to wave optics
- Interferometry for metrology in fluid physics and processing methods
- Exercices and experimental demonstration
- Optical metrology based on interferometry and geometrical optics
Teaching method and learning activities
Magistral courses, seminars, exercices and experimental demonstration and practicals
References, Bibliography and recommended reading
- Eugene Hecht, Alfred Zajac, “Optics”, Addison-Wesley Publishing Company, (1982)
- Joseph W. Goodman, “introduction to Fourier Optics”, McGraw-Hill, (1988)
- Joseph Shamir, “Optical Systems and processes”, SPIE Optical Engineering Press, (1999)
- Joseph W. Goodman, “Statistical Optics”, Wiley, (1984)
- Max Born, Emil Wolf, “Principles of Optics”, Pergamon Press (1959)
- M. Nazarathy, J. Shamir “Fourier Optics described by operator algebra”, J. Opt. Soc. Am. 70, 150-159 (1980)
- Prigogine, D. Kondepudi, Thermodynamique, Odile Jacob