Computational Fluid Dynamics in Process Engineering (VL)
Untertitel:
This course is part of the module: Molecular Modeling and Computational Fluid Dynamics, Numerical Simulation and, Numerical Simulation and Lagrangian Transport, Selected Topics of Energy, Selected Topics of Energy Systems - Option A, Selected Topics of En
Exercises: Example on CFD - analytically/numerically
Leistungsnachweis:
630 - Molecular Modeling and Computational Fluid Dynamics<ul><li>630 - Molecular Modeling and Computational Fluid Dynamics: mündlich</li></ul><br>631 - Numerical Simulation and<ul><li>631 - Numerical Simulation and: written or oral</li></ul><br>670 - Selected Topics of Energy<ul><li>601 - Steam Turbines in Energy, Environmental and Power Train Engineering: Klausur schriftlich</li><li>611 - Fuel Cells, Batteries, and Gas Storage: New Materials for Energy Production and Storage: Klausur schriftlich</li><li>615 - Reliability in Engineering Dynamics: written</li><li>620 - Hydrogen Technology: Klausur schriftlich</li><li>621 - Computational Fluid Dynam: written or oral</li><li>680 - Offshore Wind Parks: mündlich</li><li>715 - Turbines and Turbo Compressors: written or oral</li><li>720 - Internal Combustion Engines II: mündlich</li><li>725 - Wind Turbine Plants: Klausur schriftlich</li><li>755 - Basics of Nuclear Power P: written</li><li>800 - Auxiliary Systems on Board of Ships: mündlich</li><li>800 - Gas Distribution Systems: mündlich</li><li>800 - Selected Topics of Experimental and Theoretical Fluiddynamics: mündlich</li><li>800 - Special Topics in Fluid: written or oral</li><li>805 - Steam Turbines in Renewab: written or oral</li><li>805 - System Simulation: written or oral</li><li>810 - Turbulent Flows: DNS and Modelling: mündlich</li></ul><br>671 - Selected Topics of Energy<ul><li>601 - Steam Turbines in Energy, Environmental and Power Train Engineering: Klausur schriftlich</li><li>611 - Fuel Cells, Batteries, and Gas Storage: New Materials for Energy Production and Storage: Klausur schriftlich</li><li>615 - Reliability in Engineering Dynamics: written</li><li>620 - Hydrogen Technology: Klausur schriftlich</li><li>621 - Computational Fluid Dynam: written or oral</li><li>680 - Offshore Wind Parks: mündlich</li><li>715 - Turbines and Turbo Compressors: written or oral</li><li>720 - Internal Combustion Engines II: mündlich</li><li>725 - Wind Turbine Plants: Klausur schriftlich</li><li>755 - Basics of Nuclear Power P: written</li><li>800 - Auxiliary Systems on Board of Ships: mündlich</li><li>800 - Gas Distribution Systems: mündlich</li><li>800 - Selected Topics of Experimental and Theoretical Fluiddynamics: mündlich</li><li>800 - Special Topics in Fluid: written or oral</li><li>805 - Steam Turbines in Renewab: written or oral</li><li>805 - System Simulation: written or oral</li><li>810 - Turbulent Flows: DNS and Modelling: mündlich</li></ul><br>m906 - Numerical Simulation and Lagrangian Transport<ul><li>631 - Numerical Simulation and: written or oral</li></ul><br>tm1052 - Computational Fluid Dynamics in Process Engineering<ul><li>621 - Computational Fluid Dynam: written or oral</li></ul>
ECTS-Kreditpunkte:
2
Weitere Informationen aus Stud.IP zu dieser Veranstaltung
Hund, P. (2021). Modellierung eines elektrischen Netzes zur Demonstration des Einflusses von virtueller Trägheit durch umrichterbasierte Energieanlagen.
Hund, P. (2021). Koordinierte Bereitstellung von virtueller Trägheit durch erneuerbare umrichterbasierte Energieanlagen in Verteilnetzen mithilfe von künstlicher Intelligenz.
Möller, P. (2021). Erfassung der Knotenspannung in Niederspannungsnetzen auf Basis von dezentralen Messeinrichtungen mithilfe von Machine learning.
Plant, R. (2021). Estimation of Power System Inertia in an Inverter-Dominated Distribution Grid Using Machine Learning.
2020
Dressel, M. (2020). Modellierung der Zustandsschätzung eines elektrischen Netzes mit Hilfe von Graph neuronalen Netzen.
Schmidt, M. (2020). Vorhersage von zuverlässig bereitstellbarer Regelleistung aus Erneuerbaren Energien mithilfe von neuronalen Netzen.