Academy of Technical and
Art Applied Studies Belgrade

Simulation of Railway Power Supply Systems Course code: 218032 | 8 ECTS credits

Basic information
Level of Studies: Undergraduate applied studies
Year of Study: 2
Semester: 4
Requirements:
Goal: The goal of the course is to educate students about the application of software tools in computer-aided design, as well as in contemporary creating railway power supply systems by software tools based on databases.
Outcome: After exam passed, students should be able to use modern software tools for modeling, simulations and technical calculations, as well as for efficient project creating.
Contents of the course
Theoretical instruction:
  1. Mathematical models of main components railway power supply systemselectrical machines based on partial differential equations and lumped parameters
  2. Nonlinear dynamic models of a transformer.
  3. Nonlinear dynamic models of a overhead contaclines and protection.
  4. Nonlinear dynamic models of a DC machine.
  5. Nonlinear dynamic models of an induction machine.
  6. Nonlinear dynamic models of an electromotive power.
  7. Nonlinear dynamic models of railway power supply systems.
  8. Display of the model in a computer-friendly format
  9. Analytical software tools - application in analysis and design.
  10. Linking finite element based models to the Matlab/Simulink environment
  11. Application of mathematical optimization in design and simulation of railway power supply systems (Applications on optimal power flow, unit commitment, optimal bidding
Practical instruction (Problem solving sessions/Lab work/Practical training):
  1. Numerical and simulation examples follow theoretical instruction.
Textbooks and References
  1. Ban, Ž., Matuško, J., Petrović, I., „Primjena programskog sustava Matlab za rješavanje tehničkih problema“, Graphis, Zagreb, 2010.
  2. Nikolovski, S., Barić, T., Marić, P., „Programski paketi za analizu i simulaciju rada elektroenergetskog sustava”, Elektrotehnički fakultet Sveučilišta J.J
  3. Ožegović, M., Ožegović, K., „Električne energetske mreže III”, FESB, Split, 1997.
  4. Anderson, P.M., Fouad, A.A., „Power System Control and Stability”, John Wiley & Sons Inc , 2002.
  5. Karnopp, D.C., Margolis, D.L., Rosenberg, R.C.: „System Dynamics: Modeling and Simulation of Mechatronic Systems”, John Wiley & sons, Inc, 2000.
Number of active classes (weekly)
Lectures: 3
Practical classes: 3
Other types of classes: 0
Grading (maximum number of points: 100)
Pre-exam obligations
Points
activities during lectures
0
activities on practial excersises
0
seminary work
0
colloquium
0
Final exam
Points
Written exam
0
Oral exam
0