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Nebeninhalt

Empfohlene Literatur

• J.H. Ferziger and M. Peric, Computational Methods for Fluid Dynamics. Springer, 1996.
• C. Hirsch, Numerical Computation of Internal and External Flows, Vol. I and II. John Wiley & Sons, 1990.
• P. Wesseling, Principles of Computational Fluid Dynamics. Springer, 2001.
• J. Donea and A. Huerta, Finite Element Methods for Flow Problems. John Wiley & Sons, 2003.
• R. Löhner, Applied CFD Techniques: An Introduction based on Finite Element Methods. John Wiley & Sons, 2008.
• D. Kuzmin and J. Hämäläinen, Finite Element Methods for Compuational Fluid Dynamics: A Practical Guide. Siam, 2014

Spezialvorlesung

Einführung in Computational Fluid Dynamics (Introduction to CFD)

Nummer
012600, SS20
Dozentinnen und Dozenten
Veranstaltungstyp
Spezialvorlesung, 2+1
Ort und Zeit
M/1011 Di 10:00 2h
Modul-Zugehörigkeit (ohne Gewähr)
DPL:B:-:2 – Mathematik, Diplom (auslaufend)
MAMA:-:7:MAT-708 – Introduction to Computational Fluid Dynamcis
TMAMA:-:7:MAT-708 – Introduction to Computational Fluid Dynamcis
WIMAMA:-:7:MAT-708 – Introduction to Computational Fluid Dynamcis
DPL:A:-:- – Mathematik für andere Fächer (Service)
DPL:F:-:1 – Mathematik für andere Fächer (Service)
Sprechstunde zur Veranstaltung
by arrangement
Beginn der Veranstaltung
findet als Blockveranstaltung ab Juni 2020 statt
Erforderliche Voraussetzungen
some background in physics, calculus and numerical methods
Inhalt

Lecture content: This introductory course deals with mathematical modeling and numerical simulation of various flow phenomena which play an important role in everyday life and are subject to extensive research in both academia and industry. The flow models to be considered give rise to partial differential equations which express the conservation of mass, momentum and energy. Their derivation, mathematical behavior, and the choice of boundary conditions will be presented before proceeding to the numerical solution tools, the main topic of this course. An introduction to classical finite difference, finite volume, and finite element methods will be given and the properties of the resulting schemes will be analysed in detail. The limitations of standard discretization techniques will be exposed and a number of state-of-the-art numerical algorithms (stabilized and high-resolution schemes for convection-dominated flows, nonlinear iteration schemes, projection / Schur Complement methods for the incompressible Navier-Stokes equations, operator-splitting tools and iterative solution of strongly coupled PDE systems) will be introduced to give a flavor of modern CFD tools available for a numerical investigation of complex applications.

Bemerkungen

Link zu den Modulbeschreibungen im Service (AR-308)
Hinweis: Das Modul ist auch für den Master-Studiengang Data Science und weitere Studiengänge (A&R, PSE, MB) geeignet.

Empfohlene Literatur
• J.H. Ferziger and M. Peric, Computational Methods for Fluid Dynamics. Springer, 1996.
• C. Hirsch, Numerical Computation of Internal and External Flows, Vol. I and II. John Wiley & Sons, 1990.
• P. Wesseling, Principles of Computational Fluid Dynamics. Springer, 2001.
• J. Donea and A. Huerta, Finite Element Methods for Flow Problems. John Wiley & Sons, 2003.
• R. Löhner, Applied CFD Techniques: An Introduction based on Finite Element Methods. John Wiley & Sons, 2008.
• D. Kuzmin and J. Hämäläinen, Finite Element Methods for Compuational Fluid Dynamics: A Practical Guide. Siam, 2014

Nummer der Übung
012601
Übungsgruppen