University:
Delft University of Technology (TU Delft)
Country:
Netherlands
Deadline:
2025-08-01
Fields:
Electrical Engineering, Power Systems, Power Electronics, Computer Science, Applied MathematicsAre you driven to contribute to the stability and reliability of tomorrow’s electrical power grids? Do you want to apply your expertise in power electronics, control systems, and advanced programming to solve real-world challenges at the forefront of the energy transition? If so, a remarkable postdoctoral opportunity awaits you at Delft University of Technology.
About The University Or Research Institute
Delft University of Technology (TU Delft), located in the Netherlands, is recognized globally for its excellence in engineering, science, and design. As the institution behind the world-renowned Dutch waterworks and a leader in biotechnology, TU Delft has a longstanding tradition of pioneering impactful research and innovation. The university is committed to addressing pressing societal challenges in energy, climate, mobility, health, and digital society, producing graduates and researchers who are entrepreneurial problem-solvers. Within TU Delft, the Faculty of Electrical Engineering, Mathematics, and Computer Science fosters an environment of interdisciplinary collaboration and innovation, making it an ideal setting for advanced research in intelligent electrical power grids.
Research Topic and Significance
The postdoctoral position is embedded within the MITIGATE-HARM project, which targets the critical issue of harmonics in power electronics-based power systems, particularly in multi-terminal high-voltage direct current (HVDC) grids. As the global energy landscape shifts toward renewable integration and more complex grid topologies, the stability, efficiency, and interoperability of hybrid power systems (HPS) have become paramount. Harmonics and resonances, often introduced by power electronic devices, can undermine system reliability and pose significant operational risks. This research aims to develop mathematical frameworks for identifying and mitigating such instabilities, ensuring the safe and stable operation of future power grids. The outcomes will directly inform the planning and design of next-generation HVDC grids, supporting the ongoing energy transition.
Project Details
This Is a 2–3 Year Postdoctoral Appointment, Anticipated To Start On December 1, 2025. The Successful Candidate Will Join The Intelligent Electrical Power Grids (IEPG) Group, Led By Prof. Dr. Peter Palensky, And Will Be Supervised By Dr. Aleksandra Lekić, Associate Professor. The IEPG Group Is Dedicated To Advancing The Future Of Electrical Power Systems Through Research On Reliability, Efficiency, Stability, And Smart Grid Controls. The MITIGATE-HARM Project, Conducted In Collaboration With Transmission System Operators (TSOs) And Academic Partners, Focuses On– Developing mathematical frameworks for identifying instabilities and resonances in hybrid power systems.– Proposing and evaluating mitigation measures to enhance wideband passivity and stability.– Implementing these solutions in C++ and integrating them into the Harmony toolbox (https://cresym.eu/harmony/).The research will involve both theoretical and practical aspects, including modeling, simulation, and software development, with the goal of enabling stable and efficient operation of advanced HVDC grids.
Candidate Profile
Ideal applicants for this postdoctoral position should possess the following qualifications and attributes:– A completed Ph.D. in a highly technical discipline such as electrical engineering, computer science, or a closely related field, with outstanding academic performance.– Deep knowledge of electrical power systems and power electronics, particularly in the context of power electronic devices, control, simulation, and modeling.– Demonstrated experience in modeling and simulation of power electronics-based power systems, including the identification and mitigation of resonances and instabilities.– Strong programming skills in C++ and MATLAB; familiarity with PSCAD simulation is considered an asset.– Excellent command of English in reading, writing, speaking, and listening.– Independence, self-motivation, and a strong eagerness to learn and collaborate with colleagues and external partners.– A passion for linking research to real-world challenges and contributing to the global energy transition.
Application Process
Are You Interested In This Vacancy? Please Apply No Later Than 1 August 2025 Via The Application Button And Upload The Following Documents– Your CV with a list of (academic and/or industry) references.– A list of grades of your qualifying degrees (BSc, MSc).– A cover letter with details about your motivation and compliance to the job requirements.More information and the application portal can be found at:https://careers.tudelft.nl/job/Delft-Postdoc-Mitigate-Harmonics-in-Power-Electronics-based-Power-Systems-2628-CD/825013002/
Conclusion
This postdoctoral opportunity at TU Delft offers a unique platform for researchers eager to make a tangible impact on the future of power systems. If you are passionate about advancing the stability and intelligence of electrical grids and meet the outlined requirements, you are strongly encouraged to apply. Stay informed about similar academic and research positions by following updates in your field.
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