Professor, Instituto Superior Técnico/University of Lisbon, Portugal
Paulo José da Costa Branco is a Professor Catedrático at the Department of Electrical and Computer Engineering (DEEC) of the Instituto Superior Técnico (IST), Universidade de Lisboa (UL). His research focuses on electromagnetism, power systems, and energy efficiency.
Profile
Education
Paulo Branco holds a degree in Electrical Engineering from the Universidade Federal do Rio de Janeiro (UFRJ) (1988), a Master’s degree in Electrical Engineering from COPPE/UFRJ (1990), and a Ph.D. in Electrical and Computer Engineering from IST/UL (1998). He also obtained a Habilitation in Electrical and Computer Engineering from IST/UL (2013).
Experience
Paulo Branco has over 33 years of experience in teaching and research. He has been a Professor at IST since 1992 and has supervised several Ph.D. and Master’s theses. He has also participated in various national and international research projects.
Awards and Honors
Paulo Branco has received several awards and honors, including being ranked among the top 2% of scientists worldwide in the field of Electrical Engineering (2020 and 2021). He is also a member of the IEEE Council on Superconductivity and the IEEE Power and Energy Society.
Research Focus
Paulo Branco’s research focuses on electromagnetism, power systems, and energy efficiency. His current research interests include the application of superconducting materials, energy storage systems, and power electronics.
Publication Top Notes
1. Identifying Critical Failures in PV Systems Based on PV Inverters’ Monitoring Unit: A Techno-Economic Analysis 🌞
2. Electromechanical Analysis of HTS Cage Rotors for Induction-Synchronous Machines 🤖
3. Operational Analysis of an Axial and Solid Double-Pole Configuration in a Permanent Magnet Flux-Switching Generator 💡
4. Energy Efficiency and Stability of Micro-Hydropower PAT-SEIG Systems for DC Off-Grids 🌊
5. Energy Transition in Urban Water Infrastructures towards Sustainable Cities 🌆
6. A Distributed Equivalent-Permeability Model for the 3-D Design Optimization of Bulk Superconducting Electromechanical Systems ❄
7. Fuzzy-Based Failure Modes, Effects, and Criticality Analysis Applied to Cyber-Power Grids 💻
8. Large-Power Transformers: Time Now for Addressing Their Monitoring and Failure Investigation Techniques 🚨
9. Sensorless Switched Reluctance Machine and Speed Control: A Study to Remove the Position Encoder at High Speed of Operation 🚀
10. DISTRIBUTION TRANSFORMER WINDING FAULTS DETECTION AND MONITORING 🔍