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Full Description
Accurate knowledge of electromagnetic power system transients is crucial to the operation of an economic, efficient and environmentally friendly power systems network without compromising on the reliability and quality of electrical power supply. Electromagnetic transient (EMT) simulation has therefore become a universal tool for the analysis of power system electromagnetic transients in the range of nanoseconds to seconds, and is the backbone for the design and planning of power systems, as well as for the investigation of problems.
In this fully revised and updated new edition of this classic book, a thorough review of EMT simulation is provided, with many simple examples included to clarify difficult concepts. Topics covered include analysis of continuous and discrete systems; state variable analysis; numerical integrator substitution; the root-matching method; transmission lines and cables; transformers and rotating plant; control and protection; power electronic systems; frequency-dependent network equivalents; steady-state assessment; mixed time-frame simulation; transient simulation in real-time; and applications.
Contents
Chapter 1: Definitions objectives and background
Chapter 2: Analysis of continuous and discrete systems
Chapter 3: State variable analysis
Chapter 4: Numerical integrator substitution
Chapter 5: The root-matching method
Chapter 6: Transmission lines and cables
Chapter 7: Transformers and rotating plant
Chapter 8: Control and protection
Chapter 9: Power electronic systems
Chapter 10: Frequency-dependent network equivalents
Chapter 11: Steady-state assessment
Chapter 12: Mixed time-frame simulation
Chapter 13: Transient simulation in real-time
Chapter 14: Applications
Appendix A: System identification techniques
Appendix B: Numerical integration
Appendix C: Test systems data
Appendix D: Developing difference equations
Appendix E: MATLAB® code examples
