University:
Delft University of Technology
Country:
Netherlands
Deadline:
2025-08-01
Fields:
Electrical Engineering, Power Systems Engineering, Computer Science, Control Engineering, Energy SystemsAre you passionate about shaping the future of electrical power systems and eager to contribute to the transition toward more sustainable energy networks? Do you envision your research making a tangible impact on the reliability, efficiency, and stability of tomorrow’s power grids? If so, the postdoctoral position in the MITIGATE-HARM project at TU Delft may be the perfect next step in your academic career.
About The University Or Research Institute
Delft University of Technology (TU Delft) stands as one of the world’s premier institutions for science, engineering, and design. Renowned for its pioneering work in fields ranging from the Dutch waterworks to cutting-edge biotechnology, TU Delft is internationally recognized for excellence in research, education, and innovation. The university’s Faculty of Electrical Engineering, Mathematics, and Computer Science is home to the Department of Electrical Sustainable Energy, which addresses critical technical, scientific, and societal challenges associated with the global transition to sustainable energy systems. Located in Delft, the Netherlands, TU Delft provides a vibrant academic environment, state-of-the-art laboratories, and a collaborative culture that encourages interdisciplinary problem-solving.
Research Topic and Significance
The MITIGATE-HARM project focuses on developing advanced control and protection concepts for multi-terminal High Voltage Direct Current (HVDC) power systems. As the integration of renewable energy sources and power electronics in modern grids increases, so does the complexity of ensuring their stable and reliable operation. Harmonic instabilities and resonances in hybrid power systems (HPS) present significant challenges to grid planners and operators. This project directly addresses these challenges by enabling harmonic stability assessment and proposing robust mitigation strategies. The outcomes will not only advance the planning and interoperability of HVDC grids but also contribute to the wider adoption of clean, sustainable energy technologies, making this research highly relevant to both scientific advancement and societal needs.
Project Details
This is a 2-3 year postdoctoral appointment, expected to begin on December 1, 2025, under the supervision of Dr. Aleksandra Lekić, Associate Professor. The successful candidate will join the Intelligent Electrical Power Grids (IEPG) section within the Faculty of Electrical Engineering, Mathematics, and Computer Science. The IEPG group, led by Prof. Dr. Peter Palensky, is dedicated to advancing the reliability, efficiency, and safety of future power systems through innovative research in power technologies and smart controls. The Department of Electrical Sustainable Energy offers extensive facilities, including a large ESP laboratory, high voltage and DC grids testing environments, and one of the largest academic Real-Time Digital Simulation (RTDS) infrastructures for AC and DC protection and monitoring.
The MITIGATE-HARM Project Entails
– Developing a mathematical framework for identifying instabilities and resonances within the HPS.– Proposing and implementing mitigation measures to ensure stable power system operation.– Incorporating these solutions into the Harmony toolbox using C++ programming (see: https://cresym.eu/harmony/).– Engaging in real-world collaborations with Transmission System Operators (TSOs) and academic partners.
Candidate Profile
The Ideal Candidate For This Postdoctoral Position Will Possess
– A completed Ph.D. in a highly technical discipline (such as electrical engineering, computer science, or a closely related field), with outstanding academic performance.– Excellent knowledge of electrical power systems and power electronics, particularly in the context of HVDC systems.– Proven experience in modeling and simulation of power electronic-based power systems, including the identification and mitigation of resonances and instabilities.– Strong programming skills in C++ and MATLAB; experience with PSCAD simulation is an advantage.– Deep understanding of power electronic device operation and control strategies for HVDC applications.– Proficiency in English (reading, writing, speaking, and listening).– Independence, motivation, eagerness to learn, and a collaborative mindset.– A strong desire to link real-world challenges with academic research and contribute to the energy transition.
Application Process
Applications are invited until August 1, 2025. Interested candidates should apply via the TU Delft application portal (https://careers.tudelft.nl/job/Delft-Postdoc-Mitigate-Harmonics-in-Power-Electronics-based-Power-Systems-2628-CD/825013002/) by uploading the following documents:– CV, including a list of academic and/or industry references.– A list of grades from qualifying degrees (BSc, MSc).– A cover letter detailing motivation and alignment with the job requirements.The selection process will involve an initial interview, with short-listed candidates invited for a second round.
Conclusion
If you are driven by the ambition to advance power system research and eager to contribute to the sustainable energy transition, seize this opportunity to join TU Delft’s world-class research community. Apply before August 1, 2025, and take a significant step forward in your academic and professional journey. For more opportunities in related fields, continue to explore and stay connected to the latest openings.
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