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VIŠER

School of Electrical and Computer Engineering of Applied Studies

Belgrade

Smart Grids Course code: 317108 | 8 ECTS credits

Basic information
Level of Studies: Master applied studies
Year of Study: 1
Semester: 2
Requirements: Basic knowledge of electric power systems, distributed power sources, power convertors, distributed power networks, real time control systems, industrial communication protocols and software tools enable successful lecture tracking.
Goal: The main objective of the course is to present concepts and topics that are relevant to smart grid technologies.
Outcome: Students will be trained to apply theoretical and practical knowledge in the field of smart grids, Also, students will be able to integrate new electrical power technologies with information and communication technologies.
Contents of the course
Theoretical instruction:
  1. Introductory lecture. Course program, organization and subject content. Basic concepts from smart grids.
  2. Vision, goals and strategies for the development of smart grids.
  3. Elements and structure of smart grids with the characteristics of energy, management, computing and communication subsystems.
  4. Smart grids in the production and transmission of power electricity.
  5. Smart grid in electrical distribution system.
  6. Renewal of the distribution system operation within the framework of the development of smart grids.
  7. Consumer management in smart grids.
  8. Integration of distributed sources and power electricity storage.
  9. Colloquium.
  10. Integration of intelligent devices with consumers. Integration of sensors, micro networks and advanced software tools.
  11. Advanced analysis and use of data from smart grids. Calculations, application and design of data management tools.
  12. Application of modern information and communication technologies in infrastructure of smart grids. Management elements: aspects of energy management in smart grids; intelligent SCADA systems; demonstration projects; case studies.
  13. Economic analysis of smart grid. Sustainability. Implications for the environment.
  14. Examples of good practice. Final considerations.
  15. Colloquium
Practical instruction (Problem solving sessions/Lab work/Practical training):
  1. Practical classes are followed by a lecture program.
Textbooks and References
  1. JP EPS, Funkcionalni zahtevi i tehničke specifikacije AMI/MDM sistema, Beograd, 2014.
  2. James Momoh, Smart Grid Fundamentals of Design and Analysis, Wiley, 2012.
  3. Clark W. Gellings. The Smart Grid: Enabling Energy Efficiency and Demand Response, The Fairmont Press, 2009.
  4. Ali Keyhani, Muhammad Marwali: Smart Power Grids, Springer 2011.
  5. M. Begović, Electric Transmission Systems and Smart Grids, Springer 2013.
  6. C. Wang, J. Wu, J. Ekanayake, N. Jenkins: Smart Electricity Distribution Networks, CRC Press 2016.
Number of active classes (weekly)
Lectures: 4
Practical classes: 3
Other types of classes: 0
Grading (maximum number of points: 100)
Pre-exam obligations
Points
activities during lectures
5
activities on practial excersises
5
seminary work
0
colloquium
20
Final exam
Points
Written exam
70
Oral exam
0