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Power system stability
Major: Electrical energetics, electrical engineering and electromechanics
Code of Subject: 6.141.01.E.73
Credits: 6
Department: Electric Power Engineering and Control Systems
Lecturer: Professor, Doctor of Technical Sciences Varetsky Yuriy
Semester: 7 семестр
Mode of Study: заочна
Learning outcomes:
• understanding causes of electromechanical transients origins in power systems ;
• knowledge of fundamentals of theory and analysis of power system stability;
• knowledge of modern methods of research and assessment of power system stability;
• knowledge of principles of control means selecting for securing power system stability;
• ability to use modern methods for power system stability assessment and to evaluate the results;
• ability to use collected knowledge for power system stability tasks formulation and their solutions on the base of known methods .
• knowledge of fundamentals of theory and analysis of power system stability;
• knowledge of modern methods of research and assessment of power system stability;
• knowledge of principles of control means selecting for securing power system stability;
• ability to use modern methods for power system stability assessment and to evaluate the results;
• ability to use collected knowledge for power system stability tasks formulation and their solutions on the base of known methods .
Required prior and related subjects:
• Theoretical Fundamentals of Electrical Engineering,
• Electrical Machines,
• Electric Power Grid.
• Electromagnetic Transients
• Theoretical Fundamentals of Electrical Engineering,
• Electrical Machines,
• Electric Power Grid.
• Electromagnetic Transients
Summary of the subject:
Power system stability concern. Power system steady state stability and criteria of its estimations. Transient stability of power system. Asynchronous operation. Stability of load nodes. Methods of stability analysis. Means of improvement of power system stability and control
Recommended Books:
1. Venikon V.A. Electromechanical transients in electrical systems. M. Vyzshaja shkola, 1985. 415 p. (in Russian).
2. Zdanov P.S. Electrical systems stability issues. M., Energia, 1979. - 455 p. (in Russian).
3. Transients in power supply systems.: Textbook for institutions of higher education/ G.G. Pivniak, etc., - Dnipropetrovsk:, 2002. (in Ukrainian).
2. Zdanov P.S. Electrical systems stability issues. M., Energia, 1979. - 455 p. (in Russian).
3. Transients in power supply systems.: Textbook for institutions of higher education/ G.G. Pivniak, etc., - Dnipropetrovsk:, 2002. (in Ukrainian).
Assessment methods and criteria:
• written reports on laboratory, course work, oral questioning (30%)
• final control - exam: written and oral form (70%)
• final control - exam: written and oral form (70%)
Power system stability
Major: Electrical energetics, electrical engineering and electromechanics
Code of Subject: 6.141.02.E.87
Credits: 6
Department: Electric Power Engineering and Control Systems
Lecturer: Professor, Doctor of Technical Sciences Varetsky Yuriy
Semester: 7 семестр
Mode of Study: заочна
Learning outcomes:
• understanding causes of electromechanical transients origins in power systems ;
• knowledge of fundamentals of theory and analysis of power system stability;
• knowledge of modern methods of research and assessment of power system stability;
• knowledge of principles of control means selecting for securing power system stability;
• ability to use modern methods for power system stability assessment and to evaluate the results;
• ability to use collected knowledge for power system stability tasks formulation and their solutions on the base of known methods .
• knowledge of fundamentals of theory and analysis of power system stability;
• knowledge of modern methods of research and assessment of power system stability;
• knowledge of principles of control means selecting for securing power system stability;
• ability to use modern methods for power system stability assessment and to evaluate the results;
• ability to use collected knowledge for power system stability tasks formulation and their solutions on the base of known methods .
Required prior and related subjects:
• Theoretical Fundamentals of Electrical Engineering,
• Electrical Machines,
• Electric Power Grid.
• Electromagnetic Transients
• Theoretical Fundamentals of Electrical Engineering,
• Electrical Machines,
• Electric Power Grid.
• Electromagnetic Transients
Summary of the subject:
Power system stability concern. Power system steady state stability and criteria of its estimations. Transient stability of power system. Asynchronous operation. Stability of load nodes. Methods of stability analysis. Means of improvement of power system stability and control
Recommended Books:
1. Venikon V.A. Electromechanical transients in electrical systems. M. Vyzshaja shkola, 1985. 415 p. (in Russian).
2. Zdanov P.S. Electrical systems stability issues. M., Energia, 1979. - 455 p. (in Russian).
3. Transients in power supply systems.: Textbook for institutions of higher education/ G.G. Pivniak, etc., - Dnipropetrovsk:, 2002. (in Ukrainian).
2. Zdanov P.S. Electrical systems stability issues. M., Energia, 1979. - 455 p. (in Russian).
3. Transients in power supply systems.: Textbook for institutions of higher education/ G.G. Pivniak, etc., - Dnipropetrovsk:, 2002. (in Ukrainian).
Assessment methods and criteria:
• written reports on laboratory, course work, oral questioning (30%)
• final control - exam: written and oral form (70%)
• final control - exam: written and oral form (70%)