Advances in Power System Modelling, Control and Stability Analysis
Institution of Engineering and Technology (Verlag)
978-1-83953-575-8 (ISBN)
Power systems are becoming increasingly complex as well as flexible, able to integrate distributed renewable generation, EV, and additional loads. This expanded and updated second edition covers the technologies needed to operate modern power grids.
Initial chapters cover power system modelling, telegrapher equations, power flow analysis, discrete Fourier transformation and stochastic differential equations. Ensuing chapters deal with power system operation and control, power flow, real-time control and state estimation techniques for distribution systems as well as shipboard systems. The final chapters describe stability analysis of power systems and cover voltage stability, transient stability, time delays, and limit cycles. New content for the second edition includes four new chapters on recent modelling, control and stability analysis of power electronic converters and electric vehicles.
This new edition is an essential guide to technologies for operating modern flexible power systems for PhD students, early-career researchers and practitioners in the field.
Federico Milano is a professor at the University College Dublin, Ireland. He has authored 8 books and about 250 scientific papers. He was elevated to IEEE fellow in 2016, IET fellow in 2017, and IEEE PES distinguished lecturer in 2020. He has been an associate editor of several international journals published by IEEE, IET, and other publishers, including the IEEE Transactions of Power Systems. In 2022, he became Co-Editor in Chief of the IET Generation, Transmission & Distribution.
Part I: Modelling
Chapter 1: Telegrapher's equations for field-to-transmission line interaction
Chapter 2: Reliable solutions of uncertain optimal power flow problems by affine arithmetic
Chapter 3: DFT-based synchrophasor estimation processes for Phasor Measurement Units applications: algorithms definition and performance analysis
Chapter 4: Modeling power systems with stochastic processes
Chapter 5: Detailed modeling of inverter-based resources
Chapter 6: Isomorphism-based simulation of modular multilevel converters
Part II: Control
Chapter 7: Optimization methods for preventive/corrective control in transmission systems
Chapter 8: Static and recursive PMU-based state estimation processes for transmission and distribution power grids
Chapter 9: Real-time applications for electric power generation and voltage control
Chapter 10: Optimal control processes in active distribution networks
Chapter 11: Control of converter interfaced generation
Chapter 12: Combined voltage - frequency control with power electronics-based devices
Chapter 13: Smart transformer control of the electrical grid
Chapter 14: On the interactions between plug-in electric vehicles and the power grid
Part III: Stability Analysis
Chapter 15: Time-domain simulation for transient stability analysis
Chapter 16: Voltage security in modern power systems
Chapter 17: Small-signal stability and time-domain analysis of delayed power systems
Chapter 18: Shooting-based stability analysis of power system oscillations
Chapter 19: Stability assessment in advanced DC microgrids
Chapter 20: Scanning methods for stability analysis of inverter-based resources
Part IV: Appendices
Appendix A: Stochastic process fitting procedure
Appendix B: Modeling correlated stochastic processes
Appendix C: Data of lines, loads and distributed energy resources
Appendix D: Proofs and tools for DDAEs
Appendix E: Numerical aspects of the probe-insertion technique
| Erscheinungsdatum | 02.11.2022 |
|---|---|
| Reihe/Serie | Energy Engineering |
| Verlagsort | Stevenage |
| Sprache | englisch |
| Maße | 156 x 234 mm |
| Themenwelt | Technik ► Elektrotechnik / Energietechnik |
| ISBN-10 | 1-83953-575-X / 183953575X |
| ISBN-13 | 978-1-83953-575-8 / 9781839535758 |
| Zustand | Neuware |
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