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Lecturer(s)
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Síťař Vladislav, Ing. Bc. Ph.D.
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Course content
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1. Power line parameters; longitudinal and transverse parameters; electric current in the ground 2. DC steady state power distribution system; simple DC distribution; node DC networks 3. Alternating distribution system; multiphase systems; component system 4. Distributed distribution system with longitudinal parameters in steady state; simple three-phase distribution; node networks with three-phase wiring 5. Distributed distribution system with spatially distributed parameters in steady state 6. Transition events 7. Short-circuit phenomena in electromagnetic systems 8. Impedance and replacement schemes of system parts; synchronous generators; engines; transformers; outdoor and cable lines 9. Practical calculation of short-circuit currents 10. Effects of short-circuit currents 11. Open and short-circuit wiring
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Learning activities and teaching methods
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unspecified
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Learning outcomes
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In the course students will be acquainted with questions concerning the distribution of electricity in steady state. The course emphasizes the principles of electrical parameters and calculates steady state transmission lines. In the exercises, basic calculations are performed to complete the lectures.
Student - will be able to explain the electrical parameters of the line, - can describe their impact on electricity transmission, - can characterize DC network parameters - can characterize AC network parameters - after completing the course the student will be able to make basic calculations of distribution systems in steady state.
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Prerequisites
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unspecified
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Assessment methods and criteria
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unspecified
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Recommended literature
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MAYER, D. Elektrodynamika v energetice; BEN Praha 2005; ISBN 80-7300-164-0. ISBN 80-7300-164-0.
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REISS, L., MALÝ K., PAVLÍČEK, Zd., NĚMEČEK, F. Teoretická elektroenergetika I; ALFA Bratislava 1977.
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Šípal J. Podklady k přednáškám.
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