Podkategorie
Kursy
- Trainer/in: Dara Gelli
- Trainer/in: Niklas Kießling
- Trainer/in: Robert Müller
- Trainer/in: Fontina Petrakopoulou
Willkommen bei Kraftwerkstechnik!
Dieser Kurs vermittelt vertiefte Kenntnisse zur energetischen, wirtschaftlichen und ökologischen Analyse und Optimierung von Kraftwerksprozessen – von konventionellen fossilen bis hin zu erneuerbaren Energieträgern. Aufbauend auf Grundlagen der Thermodynamik und Energietechnik lernen die Studierenden, Kraftwerksprozesse mathematisch und physikalisch zu beschreiben, zu simulieren und zu optimieren. Durch Übungsaufgaben, Flipped-Classroom-Elemente und mögliche Exkursionen wird eine aktive Auseinandersetzung mit realen Anlagen und aktuellen Herausforderungen der Energieversorgung gefördert.
- Trainer/in: Sergio Tomasinelli
Welcome to Advanced Energy Systems: Technical Aspects and Simulation Methods!
This course explores novel renewable energy networks and technologies, covering hydrogen-based systems, Power-to-X, innovative storage solutions such as CAES and liquid CO₂ storage, Power-to-Heat applications, and phase change materials. Through lectures, guided exercises, and hands-on simulation work in TRNSYS and/or MATLAB, students build practical skills in dynamic modeling and performance evaluation, culminating in an individual project focused on one of the course's key technologies.
- Trainer/in: Fontina Petrakopoulou
- Trainer/in: Sergio Tomasinelli
Welcome to the Energy Engineering Simulation Lab!
This module is based on the learning content of the Energy Engineering I course. The focus is on the simulation of various energy conversion plants. Methods for setting up process simulations, solving mass and energy balances, and calculating thermodynamic material data are discussed. Various commercial and open-source simulation programs for use in energy technology (e.g. Ebsilon Professional and TESPy) are presented and used by students.
- Trainer/in: Fontina Petrakopoulou
- Trainer/in: Sergio Tomasinelli
This course explores the interdependencies between energy, water, and climate systems, examining resource use in fossil-fuel and renewable energy production, energy demands in water supply and treatment, and the effects of climate change on resource availability. Through case studies, numerical simulations, and project work, students develop practical strategies for sustainable and resilient resource management.
- Trainer/in: Maryam Karami
- Trainer/in: Fontina Petrakopoulou
- Trainer/in: Sergio Tomasinelli
hintergrund_twl2025.png- Trainer/in: Abdulrazak Al Sharaa
- Trainer/in: Klara-Hermine Emma Fomm
- Trainer/in: Fontina Petrakopoulou
- Trainer/in: Sergio Tomasinelli
- Trainer/in: Moritz Philipp Josef Walter