Disruptive functions and technology for angle-based integrated grid operation in converter-dominated power systems with predominantly renewable energy supply
DisrupSys
Disruptive functions and technology for angle-based integrated grid operation in converter-dominated power systems with predominantly renewable energy supply
Federal Ministry for Economic Affairs and Climate Action (BMWK); Duration: 2021 to 2024
The course Microsystems Technology (lecture only, 4 ECTS)/Microsystems Technology in Theory and Practice (lecture plus practical course, 6 ECTS) addresses three subjects:
Processing technology for the fabrication of microsystems,
device technology including operating principles and applications of micro sensors and actuators,
and system integration technology.
Students will learn how to fabricate microsystems and how to use the devices in e.g. measurement technology or medical engineering. The practical course (obligatory for ETMS, IMPMM, MEDMS, IIWMS, and IWIMS) provides the opportunity to transfer the theoretical knowledge into practice.
Pre-requisites:
Basics in physics, chemistry and semiconductor
ECTS credit points:
4 (leture only)/6 (with PBL)
Stud.IP informationen about this course:
Home institute: E-7 Mikrosystemtechnik
Registered participants in Stud.IP: 144
Documents: 55
Supervised Theses
ongoing
completed
2023
Babendererde, A. (2023). Regelung eines Umrichters zum Anschluss eines Wasserstoffspeicherkraftwerks an die Höchstspannungsebene.
2022
Lim, I. (2022). Modelling and Integration of a Hydrogen Storage Power Plant in the 10-Machine New-England Power System.
Lindner, J. (2022). Primärregelungskonzepte für einen Batteriepufferspeicher eines Wasserstoffspeicherkraftwerkes.
Rieckborn, N. (2022). Modellierung des Umwandlungsprozesses eines Wasserstoffspeicherkraftwerks.