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| Detailed information |
| Original study plan |
Master's programme Mechatronics 2022W |
| Objectives |
After successfully dealing with the contents of the course, students are able to
- apply different measurement methods of experimental fluid mechanics (particle image velocimetry, constant temperature anemometry, acoustic doppler velocimetry, etc.),
- to calibrate the necessary test setups accordingly, to evaluate the sources of error that occur and, if necessary, to carry out an error analysis,
- to analyze the results of point and area measurements and to understand the differences between mean and instantaneous flow fields and the resulting forces on bodies in the flow
The level of mathematical modeling and analysis of the mentioned topics is comparable to the level of the textbooks: Eckelmann: Einführung in die Strömungsmesstechnik, Teubner 1997 und Nitsche / Brunn: Strömungsmesstechnik, Springer 2006.
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| Subject |
- fundamental principles for measuring pressure, velocity and heat transfer in liquids and gases
- advanced measurement techniques (hot wire anemometry, particle image velocimetry, acoustic doppler velocimetry etc.)
- properties of laminar and turbulent flow fields
- bluff body aerodynamics
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| Criteria for evaluation |
Preparation, participation, measurement reports
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| Methods |
Guided experiments, independent hands-on measurements, script for self-study preparation
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| Language |
(*)Deutsch / English |
| Study material |
Tropea et al.: Springer Handbook of Experimental Fluid Mechanics, Springer, 2007.
H. Eckelmann: Einführung in die Strömungsmesstechnik, Teubner, 1997.
W. Nitsche, A. Brunn: Strömungsmesstechik, Springer, 2006.
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| Changing subject? |
No |
| Further information |
Previous attendance and successful completion of the lecture "Fundamentals of Thermofluiddynamics" recommended
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| Corresponding lecture |
(*)481WTMKTFDP12: PR Thermofluiddynamik Labor (4,5 ECTS)
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