Institut für Physik |
6 KP |
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Modulteile |
Semesterveranstaltungen Sommersemester 2020 |
Prüfungsleistung |
Seminar
(Specialization Laser & Optics ) |
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5.04.4079 - Advanced computational fluid dynamics and wind turbine aerodynamics
Mittwoch: 14:00 - 16:00, wöchentlich (ab 15.04.2020), Ort: W16A 004 Termine am Mittwoch, 05.02.2020, Mittwoch, 12.02.2020, Mittwoch, 19.02.2020, Mittwoch, 26.02.2020, Mittwoch, 04.03.2020, Mittwoch, 11.03.2, 020, Mittwoch, 18.03.2020, Mittwoch, 25.03.2020, Mittwoch, 01.04.2020, Mittwoch, 08.04.2020 14:00 - 16:00 ...(mehr), Ort: W33 0-003
The aim is that the students learn how to approach all kinds of real numerical problems in CFD and solve them. Everyone is supposed to be set up to date on the current problems and challenges of CFD in aerodynamics and their solutions.
Content:
CFD wake modeling, grid generators and computational stability, developing fluid structure interaction solvers, detached eddy simulations (DES), turbulent inflow field generation
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Seminar
(Specialization Renewable Energies ) |
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5.04.4079 - Advanced computational fluid dynamics and wind turbine aerodynamics
Mittwoch: 14:00 - 16:00, wöchentlich (ab 15.04.2020), Ort: W16A 004 Termine am Mittwoch, 05.02.2020, Mittwoch, 12.02.2020, Mittwoch, 19.02.2020, Mittwoch, 26.02.2020, Mittwoch, 04.03.2020, Mittwoch, 11.03.2, 020, Mittwoch, 18.03.2020, Mittwoch, 25.03.2020, Mittwoch, 01.04.2020, Mittwoch, 08.04.2020 14:00 - 16:00 ...(mehr), Ort: W33 0-003
The aim is that the students learn how to approach all kinds of real numerical problems in CFD and solve them. Everyone is supposed to be set up to date on the current problems and challenges of CFD in aerodynamics and their solutions.
Content:
CFD wake modeling, grid generators and computational stability, developing fluid structure interaction solvers, detached eddy simulations (DES), turbulent inflow field generation
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Seminar
(Acoustics ) |
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5.04.4079 - Advanced computational fluid dynamics and wind turbine aerodynamics
Mittwoch: 14:00 - 16:00, wöchentlich (ab 15.04.2020), Ort: W16A 004 Termine am Mittwoch, 05.02.2020, Mittwoch, 12.02.2020, Mittwoch, 19.02.2020, Mittwoch, 26.02.2020, Mittwoch, 04.03.2020, Mittwoch, 11.03.2, 020, Mittwoch, 18.03.2020, Mittwoch, 25.03.2020, Mittwoch, 01.04.2020, Mittwoch, 08.04.2020 14:00 - 16:00 ...(mehr), Ort: W33 0-003
The aim is that the students learn how to approach all kinds of real numerical problems in CFD and solve them. Everyone is supposed to be set up to date on the current problems and challenges of CFD in aerodynamics and their solutions.
Content:
CFD wake modeling, grid generators and computational stability, developing fluid structure interaction solvers, detached eddy simulations (DES), turbulent inflow field generation
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Seminar
(Biomedical Physics Choose one topic ) |
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5.04.4079 - Advanced computational fluid dynamics and wind turbine aerodynamics
Mittwoch: 14:00 - 16:00, wöchentlich (ab 15.04.2020), Ort: W16A 004 Termine am Mittwoch, 05.02.2020, Mittwoch, 12.02.2020, Mittwoch, 19.02.2020, Mittwoch, 26.02.2020, Mittwoch, 04.03.2020, Mittwoch, 11.03.2, 020, Mittwoch, 18.03.2020, Mittwoch, 25.03.2020, Mittwoch, 01.04.2020, Mittwoch, 08.04.2020 14:00 - 16:00 ...(mehr), Ort: W33 0-003
The aim is that the students learn how to approach all kinds of real numerical problems in CFD and solve them. Everyone is supposed to be set up to date on the current problems and challenges of CFD in aerodynamics and their solutions.
Content:
CFD wake modeling, grid generators and computational stability, developing fluid structure interaction solvers, detached eddy simulations (DES), turbulent inflow field generation
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Hinweise zum Modul |
Teilnahmevoraussetzungen |
Acc. selected course |
Prüfungsleistung Modul |
Assignments may consist of case studies, practical reports, or reviews of recent research Material is introduced through lectures, laboratories, and directed reading and research. Students are given guidance on how to manage their learning, and at each stage in their development they are expected to take responsibility for their own learning. Acc. selected course |
Kompetenzziele |
The acquisition of knowledge and the strategy for understanding the subject topics is achieved through taught lectures, supervised laboratory sessions, tutorials, seminars, practical demonstrations and personal study presentations on coursework assignments. This module enables the students to emphasize on a field of specialisation in Engineering Physics at the cutting edge of research. |
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