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ECTS:
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4
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Lecturers in charge:
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Prof. dr. sc.
Zlatko Maljković
Doc. dr. sc.
Igor Erceg
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Lecturers:
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dipl. ing.
Martina Kutija - Exercises
dipl. ing.
Stjepan Stipetić - Exercises
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Take exam:
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Studomat
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English level:
1,0,0
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All teaching activities will be held in Croatian. However, foreign students in mixed groups will have the opportunity to attend additional office hours with the lecturer and teaching assistants in English to help master the course materials. Additionally, the lecturer will refer foreign students to the corresponding literature in English, as well as give them the possibility of taking the associated exams in English.
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Load:
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| Lecture type | Total |
| Lectures |
30 |
| Exercises |
8 |
* Load is given in academic hour (1 academic hour = 45 minutes)
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Description:
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Synchronous generator as an object of control. Parallel operation of synchronous generator.
Excitation control systems with static and rotating exciters. Systems with independent and
self-excitation. Brushless excitation systems. Criterions for selection of the type and
parameters of excitation systems. Digital voltage control of synchronous generators.
Multiparameter excitation control and its influence on stability of the power system. Group
control of synchronous generator excitation systems. Electromechanical oscillations. Static
and transient stability. Torsional oscillations. Asynchronous operation of turbogenerators
and hydrogenerators. Critical speeds of the power generator. Autonomous operation of a
synchronous generator. Pumped-storage power generators. Synchronous motors,
characteristics, types of initial startup.
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Literature:
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- Sinkroni strojevi; Zvonimir Sirotić, Zlatko Maljković; Element; 1996; ISBN: 953-6098-94-6
- Dinamika električnih strojeva; Martin Jadrić, Božidar Frančić; Graphis; 2004; ISBN: 953-96399-2-1
- Synchronous Generators; Ion Boldea; CRC Taylor & Francis; 2005; ISBN: 978-0-8493-5725-1
- Analysis of Synchronous Machines; Thomas A. Lipo; CRC Taylor & Francis; 2008; ISBN: 9781439880678
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2. semester
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course for
profile
Electrical Engineering Systems and Technologies
course for
profile
Electrical Power Engineering
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