410-6030/02 – Electrical Power Engineering (ELEN)

Gurantor department	Department of Electrical Power Engineering	Credits	20
Subject guarantor	prof. Ing. Stanislav Rusek, CSc.	Subject version guarantor	prof. Ing. Stanislav Rusek, CSc.
Study level	postgraduate	Requirement	Compulsory
Year		Semester	winter + summer
		Study language	English
Year of introduction	2025/2026	Year of cancellation
Intended for the faculties	FEI	Intended for study types	Doctoral

Instruction secured by
Login	Name	Tuitor	Teacher giving lectures
GON72	prof. Ing. Radomír Goňo, Ph.D.
NOV27	doc. Ing. Tomáš Novák, Ph.D.
RUS40	prof. Ing. Stanislav Rusek, CSc.

Extent of instruction for forms of study
Form of study	Way of compl.	Extent
Full-time	Examination	26+0
Part-time	Examination	26+0
Distance	Examination	10+0

Subject aims expressed by acquired skills and competences

Be able to application of mathematic method to solve of electrical networks. To know theory of transient phenomenon. Be able explain asymmetrical and non-harmonic curves problems in electrical networks. To understand basic solving of maintenance of electrical networks. To understand basic problems of electromagnetic field (Maxwell equation). To be able to apply the procedures of theory to selected applications in electrical power engineering. Be able to characterize sources of electricity generation.

Teaching methods

Lectures
Individual consultations
Project work
Other activities
Field trip

Summary

Subject deals with evaluation of steady - state operation of HV and UHV networks including analyse of special states. Further it includes problems of transient processes, unbalance of three - phase networks, harmonic curves, analyses of basic problems of electromagnetic fields and reliability in electric power engineering. The course also includes issues of power generation in traditional and alternative sources and selected chapters from applications in the power industry.

Compulsory literature:

Power system analysis, Nagsarkar, T. K., Sukhija, M. S. - New Delhi : Oxford University Press, 2014, xxx, 736 s., ISBN: 978-0-19-809633-7 Line loss analysis and calculation of electrical power system, Wu, Anguan, Ni, Baoshan - Singapore : Wiley, 2016, xviii, 361 s., ISBN: 978-1-118-86709-9 Weedy, B.M. Electric power systems. Wiley, 2012, 496 stran. ISBN 978-0-470-68268-5. Wu, A., Ni, B. Line loss analysis and calculation of electrical power system. Wiley, 2016, 361 stran. ISBN: 978-1-118-86709-9. Nagsarkar, T. K., Sukhija, M. S. Power system analysis. Oxford University Press, 2014, 736 stran. ISBN: 978-0-19-809633-7. Degeneff, R.C., Hesse M.H. Principles of power engineering analysis. CRC Press, 2012. ISBN 978-1-4398-9231-2. Mayergoyz, I.D., Mcavoy, P. Fundamentals of electric power engineering. World Scientific, 2015. ISBN 978-981-4616-58-4.

Recommended literature:

Learning text for combined forms of study GÖNEN, Turan. Electric power distribution engineering. 3rd ed. Boca Raton: CRC Press, c2014. ISBN 978-1-4822-0700-2. GRIGSBY, Leonard L. (ed.). Electric power generation, transmission, and distribution. 3rd ed. Electric power engineering handbook. Boca Raton: CRC Press, c2012. ISBN 978-1-4398-5628-4.

Additional study materials

Study supports in the EduDocs system

Way of continuous check of knowledge in the course of semester

Expert discussion, oral examination with the participation of at least 2 teachers

E-learning

Consultation through MS Teams.

Other requirements

There are not defined other requirements for student.

Prerequisities

Subject has no prerequisities.

Co-requisities

Subject has no co-requisities.

Subject syllabus:

Lectures: Linear circuits with distributed parameters - Basic Thomson equations - Applications to steady-state three-phase lines - Wave nature of lines - Wave reflections and their consequences Transient processes in electrical circuits - basics of transient processes (dc, ac) - application to power systems - short circuits in a three-phase system with ideal voltage sources - short circuits in a three-phase system with synchronous machines Asymmetries and nonharmonic waveforms in three-phase networks - theory of component systems - symmetrical components of multiphase systems - single-phase appliances and their symmetrization - mathematical harmonic analysis Electricity generation - generation in conventional energy sources - generation in alternative energy sources Applications in the electric power industry - spectral properties and light propagation, light-technical properties of materials - general energy propagation equation

Conditions for subject completion

Part-time form (validity from: 2025/2026 Winter semester)

Task name	Type of task	Max. number of points (act. for subtasks)	Min. number of points	Max. počet pokusů
Examination	Examination			3

Mandatory attendence participation:

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Conditions for subject completion and attendance at the exercises within ISP:

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Occurrence in study plans

Academic year	Programme	Form	Study language	Tut. centre	Type of duty
2026/2027	(P0713D060004) Electrical Power Engineering	P	English	Ostrava	Compulsory	study plan
2026/2027	(P0713D060004) Electrical Power Engineering	K	English	Ostrava	Compulsory	study plan
2026/2027	(P0713D060004) Electrical Power Engineering	D	English	Ostrava	Compulsory	study plan
2025/2026	(P0713D060004) Electrical Power Engineering	P	English	Ostrava	Compulsory	study plan
2025/2026	(P0713D060004) Electrical Power Engineering	K	English	Ostrava	Compulsory	study plan

Occurrence in special blocks

Block name	Academic year	Form of study	Study language	Year	W	S	Type of block	Block owner

Assessment of instruction

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