Lehrinhalte
1) Balance equations for multiphase fluid systems with interfacial mass; interface momentum and energy balance
2) Mass transfer across fluidic interfaces: chemical potential, interfacial jump conditions
3) Thermodynamically consistent modeling of dynamic three phase contact lines
Literatur
I. Müller: Thermodynamics, Pitman 1985
J.C. Slattery, L. Sagis, E.-S. Oh: Interfacial Transport Phenomena (2nd ed.),Springer 2006.
D.A. Edwards, H. Brenner, D.T. Wasan: Interfacial Transport Processes and Rheology, Butterworth-Heinemann 1991.
Voraussetzungen
recommended: Analysis, Ordinary Differential Equations. Mathematical Modeling of fluid interfaces I
Online-Angebote
moodle
1) Balance equations for multiphase fluid systems with interfacial mass; interface momentum and energy balance
2) Mass transfer across fluidic interfaces: chemical potential, interfacial jump conditions
3) Thermodynamically consistent modeling of dynamic three phase contact lines
Literatur
I. Müller: Thermodynamics, Pitman 1985
J.C. Slattery, L. Sagis, E.-S. Oh: Interfacial Transport Phenomena (2nd ed.),Springer 2006.
D.A. Edwards, H. Brenner, D.T. Wasan: Interfacial Transport Processes and Rheology, Butterworth-Heinemann 1991.
Voraussetzungen
recommended: Analysis, Ordinary Differential Equations. Mathematical Modeling of fluid interfaces I
Online-Angebote
moodle
- Lecturer: Dieter Bothe
- Lecturer: Tobias Tolle
Semester: WT 2020/21
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