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Special Course of Scientific Research in the Field of Specialty, Part 2
Major: Electrical Energetics, Electrical Engineering and Electromechanics
Code of subject: 7.141.06.O.031
Credits: 5.00
Department: Electric Power Engineering and Control Systems
Lecturer: candidate of Technical Sciences, docent Andrii Kozovyi
Semester: 3 семестр
Mode of study: денна
Learning outcomes: 1. Ability to demonstrate knowledge and understanding of scientific and mathematical principles necessary to solve engineering problems and perform research in the fields of electrical engineering, electrical engineering and electromechanics;
2. To choose methods and model phenomena and processes in dynamic systems, as well as analyze the results.
3. To apply information and communication technologies and programming skills to solve typical engineering problems;
4. To apply knowledge and understanding to solve the problems of synthesis and analysis of system elements characteristic of the chosen specialization;
5. To perform experimental research independently and apply research skills on professional topics;
6. To apply a systematic approach, integrating knowledge from other disciplines and taking into account non-technical aspects, while solving engineering problems of the chosen specialization and conducting research;
7. To evaluate the expediency and possibility of application of new methods and technologies in the problems of synthesis of electric power, electrotechnical and electromechanical systems;
8. To argue the choice of methods for solving a specialized problem, critically evaluate the results and to assert the decisions made.
Required prior and related subjects: • Electromagnetic compatibility;
• Mathematical modeling of electrotechnical systems and their elements;
• Special subject for scientific research of a specialty, part 1.
Summary of the subject: Analysis of transients of power systems. Problems of analysis of transients of electric power systems. Mathematical model of the analysis of transients of electric power systems in the method of contour coordinates. Mathematical model of analysis of transients of power systems in the method of nodal coordinates. Mathematical models of objects of power systems and control systems. Investigation of the stability of power systems. Tasks of stability research of power systems and peculiarities of their modeling. Methods of studying static and dynamic stability. Investigation of static stability of power systems. Investigation of the dynamic stability of power systems. Features of simulation of long electromechanical transients in power systems.
Assessment methods and criteria: • written reports on laboratory, oral questioning (30%)
• final control - exam: written and oral form (70%)
Recommended books: 1. Кириленко О.В., Сегеда М.С., Буткевич О.Ф., Мазур Т.А. Математичне моделювання в електроенергетиці: Підручник / – Львів: Вид-во нац. ун-ту «Львівська політехніка», 2010. – 608 с.
2. Кириленко О.В., Сегеда М.С., Буткевич О.Ф., Мазур Т.А. Математичне моделювання в електроенергетиці: Підручник / – Львів: 2-е видання. Вид-во нац. ун-ту «Львівська політехніка», 2013. – 608 с.
3. Стійкість енергосистем. Керівні вказівки. СОУ-Н МЕВ 40.1-00100227-68:2012. Київ.: Міністерство енергетики та вугільної промисловості України. – 2012. – 29 с.
3. Перхач В.С. Математичні задачі електроенергетики – 3-е вид., перероб. і доп. – Львів: Вища шк., 1989. – 464 с.
4. G. Andersson «Modelling and analysis of electric power systems», ETH Zurich, september, 2008, 173 p.
5. Сегеда М.С. Математичне моделювання в електроенергетиці: Навч. посібник / Мін. освіти і науки України; Національний університет “Львівська політехніка” – Львів: Видавництво Національного університету “Львівська політехніка”, 2002. – 300 с.
6. Сегеда М.С. Електричні мережі та системи: Підручник 3-е видання, доп. та перероблене / – Львів: Вид.-во Нац. ун.-ту “Львівська політехніка”, 2015. – 540 с.
7. Clark K., Nicholas W. Miller, and Juan J. Sanchez-Gasca. «Modeling of GE wind turbinegenerators for grid studies», GE Energy 4, 2010. – 92 p.
8.Clark K., Nicholas W. Miller, and Reigh Walling. «Modeling of GE solar photovoltaic plants for grid studies», General Electric International Inc., Schenectady, NY 12345, 2010. – 36 p.
9. IEEE Recommended Practice for Excitation System Models for Power System Stability Studies. IEEE Std 421.5™-2005
Special Course of Scientific Research in the Field of Specialty, Part 2
Major: Electrical Energetics, Electrical Engineering and Electromechanics
Code of subject: 7.141.09.O.051
Credits: 5.00
Department: Electric Power Engineering and Control Systems
Lecturer: candidate of Technical Sciences, docent Andrii Kozovyi
Semester: 3 семестр
Mode of study: денна
Learning outcomes: 1. Ability to demonstrate knowledge and understanding of scientific and mathematical principles necessary to solve engineering problems and perform research in the fields of electrical engineering, electrical engineering and electromechanics;
2. To choose methods and model phenomena and processes in dynamic systems, as well as analyze the results.
3. To apply information and communication technologies and programming skills to solve typical engineering problems;
4. To apply knowledge and understanding to solve the problems of synthesis and analysis of system elements characteristic of the chosen specialization;
5. To perform experimental research independently and apply research skills on professional topics;
6. To apply a systematic approach, integrating knowledge from other disciplines and taking into account non-technical aspects, while solving engineering problems of the chosen specialization and conducting research;
7. To evaluate the expediency and possibility of application of new methods and technologies in the problems of synthesis of electric power, electrotechnical and electromechanical systems;
8. To argue the choice of methods for solving a specialized problem, critically evaluate the results and to assert the decisions made.
Required prior and related subjects: • Electromagnetic compatibility;
• Mathematical modeling of electrotechnical systems and their elements;
• Special subject for scientific research of a specialty, part 1.
Summary of the subject: Analysis of transients of power systems. Problems of analysis of transients of electric power systems. Mathematical model of the analysis of transients of electric power systems in the method of contour coordinates. Mathematical model of analysis of transients of power systems in the method of nodal coordinates. Mathematical models of objects of power systems and control systems. Investigation of the stability of power systems. Tasks of stability research of power systems and peculiarities of their modeling. Methods of studying static and dynamic stability. Investigation of static stability of power systems. Investigation of the dynamic stability of power systems. Features of simulation of long electromechanical transients in power systems.
Assessment methods and criteria: • written reports on laboratory, oral questioning (30%)
• final control - exam: written and oral form (70%)
Recommended books: 1. Кириленко О.В., Сегеда М.С., Буткевич О.Ф., Мазур Т.А. Математичне моделювання в електроенергетиці: Підручник / – Львів: Вид-во нац. ун-ту «Львівська політехніка», 2010. – 608 с.
2. Кириленко О.В., Сегеда М.С., Буткевич О.Ф., Мазур Т.А. Математичне моделювання в електроенергетиці: Підручник / – Львів: 2-е видання. Вид-во нац. ун-ту «Львівська політехніка», 2013. – 608 с.
3. Стійкість енергосистем. Керівні вказівки. СОУ-Н МЕВ 40.1-00100227-68:2012. Київ.: Міністерство енергетики та вугільної промисловості України. – 2012. – 29 с.
3. Перхач В.С. Математичні задачі електроенергетики – 3-е вид., перероб. і доп. – Львів: Вища шк., 1989. – 464 с.
4. G. Andersson «Modelling and analysis of electric power systems», ETH Zurich, september, 2008, 173 p.
5. Сегеда М.С. Математичне моделювання в електроенергетиці: Навч. посібник / Мін. освіти і науки України; Національний університет “Львівська політехніка” – Львів: Видавництво Національного університету “Львівська політехніка”, 2002. – 300 с.
6. Сегеда М.С. Електричні мережі та системи: Підручник 3-е видання, доп. та перероблене / – Львів: Вид.-во Нац. ун.-ту “Львівська політехніка”, 2015. – 540 с.
7. Clark K., Nicholas W. Miller, and Juan J. Sanchez-Gasca. «Modeling of GE wind turbinegenerators for grid studies», GE Energy 4, 2010. – 92 p.
8.Clark K., Nicholas W. Miller, and Reigh Walling. «Modeling of GE solar photovoltaic plants for grid studies», General Electric International Inc., Schenectady, NY 12345, 2010. – 36 p.
9. IEEE Recommended Practice for Excitation System Models for Power System Stability Studies. IEEE Std 421.5™-2005
Special Course of Scientific Research in the Field of Specialty, Part 2
Major: Electrical Energetics, Electrical Engineering and Electromechanics
Code of subject: 7.141.10.O.071
Credits: 5.00
Department: Electric Power Engineering and Control Systems
Lecturer: candidate of Technical Sciences, docent Andrii Kozovyi
Semester: 3 семестр
Mode of study: денна
Learning outcomes: 1. Ability to demonstrate knowledge and understanding of scientific and mathematical principles necessary to solve engineering problems and perform research in the fields of electrical engineering, electrical engineering and electromechanics;
2. To choose methods and model phenomena and processes in dynamic systems, as well as analyze the results.
3. To apply information and communication technologies and programming skills to solve typical engineering problems;
4. To apply knowledge and understanding to solve the problems of synthesis and analysis of system elements characteristic of the chosen specialization;
5. To perform experimental research independently and apply research skills on professional topics;
6. To apply a systematic approach, integrating knowledge from other disciplines and taking into account non-technical aspects, while solving engineering problems of the chosen specialization and conducting research;
7. To evaluate the expediency and possibility of application of new methods and technologies in the problems of synthesis of electric power, electrotechnical and electromechanical systems;
8. To argue the choice of methods for solving a specialized problem, critically evaluate the results and to assert the decisions made.
Required prior and related subjects: • Electromagnetic compatibility;
• Mathematical modeling of electrotechnical systems and their elements;
• Special subject for scientific research of a specialty, part 1.
Summary of the subject: Analysis of transients of power systems. Problems of analysis of transients of electric power systems. Mathematical model of the analysis of transients of electric power systems in the method of contour coordinates. Mathematical model of analysis of transients of power systems in the method of nodal coordinates. Mathematical models of objects of power systems and control systems. Investigation of the stability of power systems. Tasks of stability research of power systems and peculiarities of their modeling. Methods of studying static and dynamic stability. Investigation of static stability of power systems. Investigation of the dynamic stability of power systems. Features of simulation of long electromechanical transients in power systems.
Assessment methods and criteria: • written reports on laboratory, oral questioning (30%)
• final control - exam: written and oral form (70%)
Recommended books: 1. Кириленко О.В., Сегеда М.С., Буткевич О.Ф., Мазур Т.А. Математичне моделювання в електроенергетиці: Підручник / – Львів: Вид-во нац. ун-ту «Львівська політехніка», 2010. – 608 с.
2. Кириленко О.В., Сегеда М.С., Буткевич О.Ф., Мазур Т.А. Математичне моделювання в електроенергетиці: Підручник / – Львів: 2-е видання. Вид-во нац. ун-ту «Львівська політехніка», 2013. – 608 с.
3. Стійкість енергосистем. Керівні вказівки. СОУ-Н МЕВ 40.1-00100227-68:2012. Київ.: Міністерство енергетики та вугільної промисловості України. – 2012. – 29 с.
3. Перхач В.С. Математичні задачі електроенергетики – 3-е вид., перероб. і доп. – Львів: Вища шк., 1989. – 464 с.
4. G. Andersson «Modelling and analysis of electric power systems», ETH Zurich, september, 2008, 173 p.
5. Сегеда М.С. Математичне моделювання в електроенергетиці: Навч. посібник / Мін. освіти і науки України; Національний університет “Львівська політехніка” – Львів: Видавництво Національного університету “Львівська політехніка”, 2002. – 300 с.
6. Сегеда М.С. Електричні мережі та системи: Підручник 3-е видання, доп. та перероблене / – Львів: Вид.-во Нац. ун.-ту “Львівська політехніка”, 2015. – 540 с.
7. Clark K., Nicholas W. Miller, and Juan J. Sanchez-Gasca. «Modeling of GE wind turbinegenerators for grid studies», GE Energy 4, 2010. – 92 p.
8.Clark K., Nicholas W. Miller, and Reigh Walling. «Modeling of GE solar photovoltaic plants for grid studies», General Electric International Inc., Schenectady, NY 12345, 2010. – 36 p.
9. IEEE Recommended Practice for Excitation System Models for Power System Stability Studies. IEEE Std 421.5™-2005
Special Course of Scientific Research in the Field of Specialty, Part 2
Major: Electrical Energetics, Electrical Engineering and Electromechanics
Code of subject: 7.141.11.O.091
Credits: 5.00
Department: Electromechatronics and Computerized Electromechanical Systems
Semester: 3 семестр
Mode of study: денна