Power systems electromagnetic transients simulation

Accurate knowledge of electromagnetic power system transients is crucial to the operation of an economic, efficient and environmentally-friendly power system network, without compromising on the reliability and quality of the electrical power supply. Simulation has become a universal tool for the analysis of power system electromagnetic transients and yet is rarely covered in-depth in undergraduate programmes. It is likely to become core material in future courses. The primary objective of this book is to describe the application of efficient computational techniques to the solution of electromagnetic transient problems in systems of any size and topology, involving linear and nonlinear components. The text provides an in-depth knowledge of the different techniques that can be employed to simulate the electromagnetic transients associated with the various components within a power system network, setting up mathematical models and comparing different models for accuracy, computational requirements, etc. Written primarily for advanced electrical engineering students, the text includes basic examples to clarify difficult concepts. Considering the present lack of training in this area, many practising power engineers, in all aspects of the power industry, will find the book of immense value in their professional work.

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 applications Chapter 12: Mixed time-frame simulation Chapter 13: Transient simulation in real time Appendices