Studienhandbuch | KV Multiphase Flows in Energy Technologies

Inhalt

Workload	Education level	Study areas	Responsible person	Hours per week	Coordinating university
3 ECTS	M1 - Master's programme 1. year	^(*)Maschinenbau	Michael Krieger	2 hpw	Johannes Kepler University Linz

Detailed information

Original study plan

Master's programme Mechanical Engineering 2025W

Learning Outcomes

Competences
Students are able to describe different modeling approaches to multiphase flows and to apply them to basic problems in energy technologies.

Skills	Knowledge
Specifically, they can classify different types of multiphase flows (K2/3) describe the fundamentals and the basic equations of different modelling approaches (K2/3) describe the flow phenomena of the selection of multiphase flows covered in this lecture (K2/3) independently perform basic calculations of multiphase flows (K5) describe the relevancy of different kinds of multiphase flows for sustainable energy technologies (K2/3)	Multiphase flows are described in the context of different examples in the field of energy technologies, like flow in packed beds bubble reactors fluidized beds CO2 capturing particle deposition (for the example of solar panels)

Criteria for evaluation

Written assignment, written and/or oral exam

Methods

Lecture using blackboard and by means of slides, development of practical examples

Language

German

Study material

Ch. E. Brennen: Fundamentals of Multiphase Flow. Cambridge University Press, 2005
C. T. Crowe, J. D. Schwarzkopf, M. Sommerfeld, Y. Tsuji: Multiphase Flows with Droplets and Particles. CRC Press, 2011
R. Clift, J. R. Grace, M. E. Weber: Bubbles, Drops, and Particles. Dover Publications, 2013
N.I. Kolev: Multiphase Flow Dynamics 1. Springer, 2007

Changing subject?

On-site course
Maximum number of participants	35
Assignment procedure	Assignment according to priority