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19M021SSE - Energy storage for power systems

Course specification
Course title Energy storage for power systems
Acronym 19M021SSE
Study programme Electrical Engineering and Computing
Module Applied Mathematics, Audio and Video Technologies, Biomedical and Environmental Engineering, Biomedical and Nuclear Engineering, Computer Engineering and Informatics, Electronics and Digital Systems, Energy Efficiency, Information and Communication Technologies, Microwave Engineering, Nanoelectronics and Photonics, Power Systems - Networks and Systems, Power Systems - Renewable Energy Sources, Power Systems - Substations and Power Equipment, Signals and Systems, Software Engineering
Type of study master academic studies
Lecturer (for classes)
Lecturer/Associate (for practice)
Lecturer/Associate (for OTC)
ESPB 6.0 Status elective
Condition No prerequisites.
The goal Provide students to understand the principles and technologies for energy storage in power systems.
The outcome Enabling students for using the systems and technologies for energy storage in power systems. Make students capable to design various systems for energy storage.
Contents
Contents of lectures Introduction to energy storage systems. Energy storage and renewable energy sources. Storage for electric vehicles. Battery energy storage. Fuel cells. Hydrogen and synthetic fuels. Thermal energy storage. Mechanical energy storage. Capacitor bank storage.
Contents of exercises Analysis of the operation of a hybrid microgrid using computed-aided simulation. Individual work with students during their project works.
Literature
  1. Andrej G. Ter-Gazaran, Energy Storage for Power Systems, IET Publishing, 2nd edition 2011. (Original title)
  2. J. Mikulović, Ž. Đurišić, Solarna energetika, Akademska misao, 2019. (Original title)
  3. V. S. Bagotsky, Fundamentals of electrochemistry, John Wiley & Sons, 2006 (Original title)
  4. M. Boudellal, Power-to-Gas Renewable Hydrogen Economy for the Energy Transition 2nd Edition, De Gruyter, Berlin/Boston, 2023 (Original title)
  5. F. Barnes, J. Levine, “Large Energy Storage Systems Handbook”, CRC Press, Taylor & Francis Group, 2011. (Original title)
Number of hours per week during the semester/trimester/year
Lectures Exercises OTC Study and Research Other classes
2 2 1
Methods of teaching Classical lectures and presentations. Practices include computer-aided simulations, project work and laboratory exercises.
Knowledge score (maximum points 100)
Pre obligations Points Final exam Points
Activites during lectures Test paper 60
Practical lessons Oral examination
Projects
Colloquia
Seminars 40