Czech

Not applicable.

The subject knowledge on the level of Bachelor´s degree in electrical engineering is requested. It includes mainly the following issues: fundamental electric variables and units, fundamental laws for electric circuits and fundamental methods of circuit analysis, sinusoidal signals, calculation with phasors, electric power in single-phase and three-phase power system, calculation with both real and complex expressions and numbers, elementary functions.

The course is evaluated by student’s activity in the lessons and it is finished by exam valuation.
Students can obtain:
up to 40 points from tutorial lessons (projects of numerical and PS-based exercise)
up to 60 points from the exam (practical and theoretical part).
When verifying knowledge, there is so-called required knowledge, based on the entry knowledge of the course. Details are specified by a regulation issued by the lecturer responsible for the course and updated every year.
Evaluation of particular activities and conditions for course completion are specified by a regulation issued by the lecturer responsible for the course and updated for every academic year.

The content and forms of  instruction in the evaluated course are specified by a regulation issued by the lecturer responsible for the course and updated for every academic year. 

Knowledge of fundamental mathematical model for steerage interconnected electrical power systems, especially: Power flow and voltage regulation calculation, frequency control, economical power production, appreciation of reliability electrical power systems and dispatcher drive.
The students pass out the course are able to:
- use nodal voltage method with elimination of balance node for power system load flow calculation as linear problem
- explain and apply Gauss-Seidl, Newton-Raphson and simplified Newton iteration methods for power system load flow calculation as nonlinear problem
- apply methodology of economical allocation of power generation
- describe frequency control means in power system
- explain transmitted power control method in interconnected power systems
- name and describe reactive power sources and appliances
- explain voltage control with using reactive power

Not applicable.

Not applicable.

Haluzík, E.: Řízení provozu elektrizačních soustav, skriptum VUT v Brně, 1983, 126s.
Kolcun M., Griger V: Riadenie prevádzky elektrizačných sústav ISBN 80-89061-76-1 Mercury-Smékal 2003
Kolcun, M., Chladný, V., Varga, L.: Počítačová analýza elektrizačnej sústavy, TU Košice 2006, ISBN 80-8073-453-4

Arrillaga J.,Arnold C.P.:Computer analysis of pow.syst.,John Wiley 1992
Stagg G.W.,El-Abiad A.H.:Computer methods in pow.syst.analysis,McGraw Hill 1968