|
Computational Material Science and Process Simulation 2 (CMPS2)7.5 ECTS (englische Bezeichnung: Computational Material Science and Process Simulation 2)
Modulverantwortliche/r: Michael Engel Lehrende:
Manuel Münsch, Paolo Moretti
Startsemester: |
WS 2017/2018 | Dauer: |
1 Semester | Turnus: |
jährlich (WS) |
Präsenzzeit: |
90 Std. | Eigenstudium: |
135 Std. | Sprache: |
Englisch |
Lehrveranstaltungen:
-
-
Numerische Methoden der Thermofluiddynamik
(Vorlesung, 2 SWS, Manuel Münsch, Do, 08:15 - 09:45, KS I)
-
Multi-scale Simulation Methods I (Lecture)
(Vorlesung, 1 SWS, Paolo Moretti, Mo, 14:15 - 15:45, CIP Pool WW; First lecture on 30.10.2017. There will be NO MuSim1 L/T during the first two weeks. Instead there will a PYTHON course each week (you only have to take part in one of them). Please sign up for the Python courses at StudOn!)
-
Multi-scale Simulation Methods I (Tutorial)
(Übung, 1 SWS, Paolo Moretti, Mo, 14:15 - 15:45, CIP Pool WW; siehe Bemerkungen zur entsprechenden Vorlesung / please see the comments for the lecture)
Inhalt:
The "Multiscale Simulation Methods" lectures provide a broad overview of simulation methods operating on length scales from the atomistic to the continuum scale. Simulation methods introduced include Molecular Dynamics, equilibrium and kinetic Monte Carlo simulation, mesoscopic methods such as e.g. Dislocation Dynamics and the Phase Field method, and continuum-level modeling of materials behavior in Finite Element simulations. The introduction of methods operating on different scales is complemented by a discussion of multiscale approaches, i.e. the linking of models operating on different scales. For most of the tutorials ‘Python’ will be used as programming language, which is very similar to MATLAB and will be introduced in a short course during the first part of the tutorial.
Numerical Fluid Mechanics:
Governing equations and models in fluid mechanics
Steady problems: the Finite-Difference Method
Steady problems: the Finite-Volume Method
Unsteady problems: methods of time integration
Advection-diffusion problems
Solution of the incompressible Navier-Stokes equations
Grids and their properties
Boundary conditions
Lernziele und Kompetenzen:
"Multiscale Simulation Methods"
This course is accompanied by practicals where the students will have the opportunity to numerically implement ‘one-scale’ models in a hands-on manner. This will be complemented by examples of information passing between different scales and the construction of simple multiscale models.
"Numerical Fluid Mechanics"
The lecture enables the students to simulate transport problems with computer programs. To achieve this the governing equations and modeling aspects are thoroughly discussed, helping the student to decide what level of modeling is needed in a given application to attain acceptable results.
Special attention is paid to the Finite-Volume Method, which is the most widespread in the simulation of fluid mechanical problems and is the core of software packages such as ANSYS-CFX and OPENFOAM.
Literatur:
- Computational Methods for Fluid Dynamics (Springer, 3rd edition), J.H. Ferziger and M. Peric
Studien-/Prüfungsleistungen:
Numerical Fluid Mechanics I (Prüfungsnummer: 1931)
(englischer Titel: Numerical Fluid Mechanics I)
- Prüfungsleistung, mündliche Prüfung, Dauer (in Minuten): 15, benotet
- Anteil an der Berechnung der Modulnote: 0.0 %
- Prüfungssprache: Englisch
- Erstablegung: WS 2017/2018, 1. Wdh.: SS 2018
Multiscale Simulation Methods I (Prüfungsnummer: 1932)
(englischer Titel: Multiscale Simulation Methods I)
- Prüfungsleistung, mündliche Prüfung, Dauer (in Minuten): 15, benotet
- Anteil an der Berechnung der Modulnote: 0.0 %
- Prüfungssprache: Englisch
- Erstablegung: WS 2017/2018, 1. Wdh.: SS 2018
|
|
|
|
UnivIS ist ein Produkt der Config eG, Buckenhof |
|
|