WOLF-I project

Welcome to the WOLF-I project page. This project focuses on studying and analyzing the role of IBRs in the damping of inter-area oscillations. Our goal is to understand the dynamics of these oscillations and develop strategies and tools to mitigate their impact on power systems.

Objective 🎯	Expected Outcome 🚀	Target Audience 🫵	Partners 🤝	Additional Information 👩‍🎓
To understand the dynamics of inter-area oscillation, focusing mainly in scenarios with high penetration of IBRs (inverted-based resources).	Develop strategies and tools to mitigate the impact of inter-area oscillations on power systems.	TSOs (Transmission system operators)	RTE France IIT Comillas CRESYM	Research conducted over a 4-year PhD program (Dec23-Nov27).

Stay tuned to this page for the latest updates on the WOLF-I project. We will be posting regular updates on our progress, including new findings, publications, and software releases. Whether you are a researcher, industry professional, or just interested in the field of power systems, this page will provide you with valuable insights into our work.

Posts

Small-Signal Stability of Multimachine Systems: Linear Model of Two-Area Four-Generator System.

Small-Signal Stability of Multimachine Systems: A Step-by-Step Guide. Generator represented by the detailed model.

What are inter-area oscillations and why are they important?

Small-Signal Stability of Multimachine Systems: Linear Model of Two-Area Four-Generator System. The simplest one.

Small-Signal Stability of Multimachine Systems: A Step-by-Step Guide. Reference frame transformation.

Small-Signal Stability of Multimachine Systems: A Step-by-Step Guide. Generator represented by the classical model.

Small-Signal Stability of Multimachine Systems: A Step-by-Step Guide. Representation of static loads.

Small-Signal Stability of Multimachine Systems: A Step-by-Step Guide. Integrating Individual Dynamic Models into a Global Model.

Openmod : Introducing our research project!