### PO 2018 ###
### Studiengang und Semester
5BaSES
### Modulbezeichnung
Energy systems simulation
### Art
Pflichtfach
### ECTS-Punkte
10
### Studentische Arbeitsbelastung
120,180
### Voraussetzungen (laut Prüfungsordnung)
### Empfohlene Voraussetzungen
Mathematik 1 und Mathematik 2
### Pruefungsform und -dauer
Klausur 1,5h oder mündliche Prüfung, mündliche Präsentation und schriftliche Dokumentation
### Lehrmethoden und Lernmethoden
Vorlesung, Studentische Arbeit
### Modulverantwortlicher
I. Herraez
### Qualifikationsziele
The students understand the benefits and implicit limitations of modelling and simulation. They are familiar with the basic concepts behind a wide range of dynamic model types and they are aware of their respective advantages and disadvantages. The students are in a position to implement simple models in Matlab/Octave, run simulations with them as well as to critically analyse the results. They can produce graphical representations of numerical results and assess the uncertainty of the simulations.
In addition, on a super system level, they can model, simulate and analyze a local energy system with its producers (fluctuating and non-fluctuating), consumers and prosumers.
### Lehrinhalte
Concept of system, basics of system dynamics, types of models, modelling methods, fundamentals of programming, programming in Matlab/Octave, control statements, plotting graphs, numerical solving of mathematical models, modelling and simulating with Anylogic ©.
### Literatur
* Quarteroni, A.: Scientific computing with Matlab and Octave, Springer, 2010.
* Grigoryev , Ilya: AnyLogic 7 in Three Days: A quick Course in Simulation Modelling, CreateSpace Independent Publishing Platform, 2014
### Titel der Lehrveranstaltung
Introduction to modelling and simulation
### Dozent
I. Herráez
### SWS
4
### Titel der Lehrveranstaltung
Simulation of energy systems
### Dozent
A. Pechmann
### SWS
4