### PO 2024 ###
### Studiengang und Semester
5BEEEE, 6BaIBS
### Modulbezeichnung
Photovoltaics
### Art
Pflichtfach
### Modulsprache
English
### ECTS-Punkte
5
### Studentische Arbeitsbelastung
60, 90
### Voraussetzungen (laut Prüfungsordnung)
### Empfohlene Voraussetzungen
Elektrotechnik
### Pruefungsform und -dauer
Vorlesung: Klausur 1,5h oder mündliche Prüfung oder Test am Rechner (Prüfungsleistung); Praktikum: experimentelle Arbeit oder Test am Rechner (Studienleistung)
### Lehrmethoden und Lernmethoden
Vorlesung, Praktikum
### Modulverantwortlicher
I. Herraez
### Qualifikationsziele
The students understand the physical and working principles of solar thermal as well as photovoltaic energy systems. They are capable to select and size the components required for the mentioned types of technologies. They are in a position to assess the performance and potential of those renewable energy systems. They are also able to design efficient hybrid energy systems combining different technologies and energy sources.
### Lehrinhalte
Solar resource, thermal and electrical energy demand, components of solar thermal and photovoltaics systems, physics of solar energy utilization, performance analysis, efficiency of solar collectors and photovoltaic cells, design and sizing of solar thermal and photovoltaic systems, combination of solar energy systems with heat pumps.
### Literatur
* Eicker, U.:  Energy Efficient Buildings with Solar and Geothermal Resources, Wiley, 2014.
* Arno Smets, Klaus Jager, Olindo Isabella. Solar Energy: The Physics and Engineering of Photovoltaic Conversion, Technologies and Systems, UIT Cambridge LTD, 2016

### Titel der Lehrveranstaltung
Vorlesung "Photovoltaics"
### Dozent
I. Herraez
### SWS
2
### Titel der Lehrveranstaltung
Praktikum "Photovoltaics"
### Dozent
I. Herraez
### SWS
2