Studienhandbuch | VL Simulation methods in fluid power

Inhalt

^(*) Unfortunately this information is not available in english.

Workload	Education level	Study areas	Responsible person	Hours per week	Coordinating university
3 ECTS	M - Master's programme	Mechatronics	Bernhard Manhartsgruber	2 hpw	Johannes Kepler University Linz

Detailed information

Original study plan

Master's programme Mechatronics 2025W

Learning Outcomes

Competences
Students know the most important mathematical models used in fluid power. They are able to abstract models from circuit schematics and data sheets of fluid power systems and componentes. They gain an insight into the topic of computationally efficient implementation of wave propagation problems.

Skills	Knowledge
Derivation of higher order difference quotients for all differential operators found in the Navier-Stokes equations (k3) Semi-discretization of partial differential equation systems - Method of Lines (k3) Tuning of time integration algorithms to the spectral structure of the semi-discretization (k6) Optimization of computation time by domain decomposition and parallel computation (k6) 3D compuational fluid dynamics with OpenFOAM (k3)	Recapitulation of basics from fluid mechanics with a focus on weakly compressible liquids in high pressure applications. Condensation of simpler models from the general three-dimensional formulation: Lubrication gap theory with Reynolds equation and elasto hydro-dynamics of journal bearings as examples for a spatially two-dimensional theory. Wave propagation in transmission lines as a spatially one-dimensional problem with expansion to frequency dependent friction (1.5D theory, Zielke-Suzuki method).

Criteria for evaluation

Submission of a project work as well as evaluation of two intermediate presentations thereof.

Methods

Lecture accompanied by presentation slides on video projector.

Language

^(*)Deutsch, Englisch bei Bedarf

Study material

extensive lecture notes

Changing subject?

Corresponding lecture

^(*)MEMWAKVSMFT: KV Simulationsmethoden in der Fluidtechnik (3 ECTS)

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