Subject: Advanced Methods of Power Systems Monitoring and Control (17.DE513 )
Study programmes of the course:
| Type of studies | Title |
|---|---|
| Doctoral Academic Studies | Power, Electronic and Telecommunication Engineering (Year: 2, Semester: Winter) |
Discussing the main areas of implementation of the system of monitoring and management (SMM), including off-line and real-time applications. Acquiring knowledge and comprehension of the dynamics of power systems, the interaction between different elements of power systems and their individual and combined impact on different aspects of a power system stability. Encouraging students to use skills and knowledge acquired through the study of mathematics and the general control theory for solving engineering problems in power systems, and to promote a multidisciplinary approach to solving engineering problems.
At the end of the course, students will be able to: - Identify the main components and characteristics of SMM and understanding of the practical implementation. - Application of Phasor Measurement Units and communication technologies for the design of SMM's. - Understanding the reasons and the need to implement a SMM. - - Understanding the fundamental concepts, principles and theory of the dynamic behavior of the individual elements of the power system. - Proper understanding of the overall dynamic behavior of the power system, as well as the methods and techniques used to provide dynamic performance of power system capacity. - Designing SMM's needed to provide and improve the security, stability and reliability of the power system. - Verification requirements for SMM in the optimization and improvement of security, stability and reliability of the power system. - Develop a small power system model for the study of dynamic power system behavior and perform simple dynamic studies o
Explaining the needs of power systems for introducing SMM. Fundamentals of Phasor Measurement Technology. Designing and planning of SMM. SMM application in off-line and real-time. Typical examples and standardization of SMM. Power system stability. Basic concept of stability. Types of stability of power systems. Basic concepts and definitions of power system stability, detailed modelling of synchronous machines and some associated control systems. Modelling of synchronous generators, excitation system, turbines and different regulators. Modelling requirements and techniques for solving problems of small and large disturbances. Providing and improving the power system stability. Dynamic performances of isolated distribution networks for various types of distributed energy sources. Part of the course is conducted through individual research and study work in the field of decision-making and optimization. Study and research work includes active following of the primary scientific sources, organization and carrying out of experiment and statistical data processing, numeric simulations, scientific paper writing in the field of the doctoral thesis.
Lectures; Consultations.
| Authors | Title | Year | Publisher | Language |
|---|---|---|---|---|
| 2006 | English | |||
| 2006 | English | |||
| 2010 | English | |||
| 1997 | English | |||
| 2000 | English |
| Course activity | Pre-examination | Obligations | Number of points |
|---|---|---|---|
| Project | Yes | Yes | 50.00 |
| Written part of the exam - tasks and theory | No | Yes | 50.00 |
Assoc. Prof. Popović Željko
Associate Professor
Lectures
Faculty of Technical Sciences
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© 2024. Faculty of Technical Sciences.