An overview of the courses, opens an external URL in a new window as well as bachelor and master theses, opens an external URL in a new window offered and supervised by our research group can be found in TISS.

Bachelor's and Master's Theses at NES

We address practical questions related to the long-term transformation of the electrical energy system towards 100% renewable generation. Our focus is on the complex challenges involved in the design and operation of the electrical grid during and after the energy transition.

If you are interested in writing a thesis in our research area, please feel free to contact us, indicating your preferred topic area as well as information about your academic background. If we have available supervision capacity, we will then provide you with a proposal for a topic and a possible starting date.

To support your Bachelor’s or Master’s thesis, we provide LaTeX templates for both the exposé and the thesis itself. During the course of your thesis work, you will present your interim and final results at our regularly held NES seminars for Bachelor’s and Master’s students, where you will exchange ideas with our team and other students about your research project. Bachelor’s theses require one presentation; Master’s theses require both an interim and a final presentation. Please inquire about the current seminar schedule at the start of your thesis and take these presentations into account when planning your work timeline.

We welcome the interest of committed and motivated students. The following primary contacts are available for our research topics:

Grid and System Operation Concepts:               Klara Krkalović

Ancillary Services:                                               Tobias Steiner

System Dynamics and Stability:                        Javad Rezaei

Energy Management Systems:                           Dr. Ibrahim Brahmia

Grid-Compatible Generation Dispatch:​​​​​​​              Katharina Kastberger

Grid and System Modeling:​​​​​​​                                 Dr. Thomas Kaufmann

Network reconstruction and Resilience:            Marbod Kollnig

Grid Planning, FACTS, HVDC, Adequacy:​​​​​​​           Prof. Dr. Bernd Klöckl