Studienhandbuch | VL Simulation methods in fluid power

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[ 481VANTSFTV22 ] VL Simulation methods in fluid power

Versionsauswahl

^(*) 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 2023W
Objectives	Knowledge of the most important mathematical models used in the field of fluid power and knowledge of the implementation of these models. Ability to abstract mathematical models from circuit schematics and data sheets of fluid power systems and components. Insight into the issue of computational efficiency of implementation especially with regard to wave propagation problems.
Subject	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?	No
Corresponding lecture	^(*)MEMWAKVSMFT: KV Simulationsmethoden in der Fluidtechnik (3 ECTS)

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