41312 Basic Fluid Mechanics (B.Sc: 5 ETCS)
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| Description |
To give a theoretical background for formulation and solution of flow problems within mechanical and energy engineering.
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| Teacher |
Knud Erik Meyer |
| Course base |
41312 |
41315 Applied CFD (M.Sc: 5 ETCS)
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| Description |
The course give an introduction to the theory of Computational Fluid Dynamics (CFD) and focus on the practical application of the commercial CFD package STAR-CCM+.
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| Teacher |
Jens Honore Walther
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| Course base |
41315
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41323 Advanced Fluid Mechanics (M.Sc: 10 ECTS)
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| Description |
To accomplish an analytical and physical understanding of flows aiming at analysing practical and theoretical flow configurations.
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| Teacher |
Clara Marika Velte |
| Course base |
41323 |
41822 Experimental fluid mechanics (M.Sc: 5 ETCS)
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| Description |
To give an introduction to measuring techniques for determining velocity, flow, pressure, temperature etc. for fluids under stationary as well as nonstationary conditions.
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| Teacher |
Knud Erik Meyer, Clara Marika Velte, Robert Flemming Mikkelsen
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| Course base |
41822 |
41390 Experimental fluid dynamics and data interpretation (Ph.D: 5 ETCS)
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| Description |
To qualify the participants to select and use fluid measurements for their own projects, to perform advanced analysis of measured data and to evaluate the quality of data measured by other researchers.
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| Teacher |
Knud Erik Meyer, Clara Marika Velte
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| Course base |
41390 |
41391 High Performance Computing: FORTRAN, OpenMP and MPI (Ph.D: 5 ETCS)
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| Description |
The current and the future supercomputers consist of a cluster of computers (nodes) each with multiple processing cores (dual, quad, multicore) that share the memory of the node. The goal of the course it to outline strategies for porting and writing efficient, portable, maintainable code for such hybrid computer archictectures.
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| Teacher |
Jens Honore Walther
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| Course base |
41391 |
41392 Journal club in fluid mechanics (Ph.D: 5 ETCS)
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| Description |
To bring the student in a position to better understand and critically relate to research within the field of fluid mechanics. To improve the student's ability to communicate and discuss scientific standpoints.
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| Teacher |
Jens Honore Walther, Knud Erik Meyer
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| Course base |
41392 |