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| Detailed information |
| Original study plan |
Master's programme Mechatronics 2025W |
| Learning Outcomes |
Competences |
| 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
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| Skills |
Knowledge |
| - Understand measurement principles in fluid mechanics (K2)
- Plan and cunduct measurements in experimental fluid mechanics (K3)
- Interpret and analyse results, estimate measurement uncertainties (K4)
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- Physical understanding of measurement principles for pressure, velocity and temperature
- Programming skills in Matlab/Python to set up measurements using analog-digital converters and to process the results
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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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