Advances in Power System Modelling, Control and Stability Analysis
Published on 8. August 2016
Book
Hardback
496 pages
978-1-78561-001-1 (ISBN)
Description
Advances in Power System Modelling, Control and Stability Analysis captures the variety of new methodologies and technologies that are changing the way modern electric power systems are modelled, simulated and operated.
The book is divided into three parts. Part 1 presents research works on power system modelling and includes applications of telegrapher equations, power flow analysis with inclusion of uncertainty, discrete Fourier transformation and stochastic differential equations. Part 2 focuses on power system operation and control and presents insights on optimal power flow, real-time control and state estimation techniques. Finally, Part 3 describes advances in the stability analysis of power systems and covers voltage stability, transient stability, time delays, and limit cycles.
A rich mix of theoretical aspects with practical considerations, as well as benchmarks test systems and real-world applications makes this book essential reading for researchers and students in academia and industry in electric power systems modelling and control.
The book is divided into three parts. Part 1 presents research works on power system modelling and includes applications of telegrapher equations, power flow analysis with inclusion of uncertainty, discrete Fourier transformation and stochastic differential equations. Part 2 focuses on power system operation and control and presents insights on optimal power flow, real-time control and state estimation techniques. Finally, Part 3 describes advances in the stability analysis of power systems and covers voltage stability, transient stability, time delays, and limit cycles.
A rich mix of theoretical aspects with practical considerations, as well as benchmarks test systems and real-world applications makes this book essential reading for researchers and students in academia and industry in electric power systems modelling and control.
More details
Series
Language
English
Place of publication
Stevenage
United Kingdom
Target group
College/higher education
Professional and scholarly
Dimensions
Height: 240 mm
Width: 161 mm
Thickness: 31 mm
Weight
906 gr
ISBN-13
978-1-78561-001-1 (9781785610011)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
Book
11/2022
2nd Edition
Institution of Engineering and Technology
€175.50
Shipment within 3-4 weeks
Person
Federico Milano is a Professor in Power Systems Control and Protections at the University College Dublin School of Electrical and Electronic Engineering. His research interests include power systems modelling, control and stability analysis, distributed and renewable generation, bifurcation theory, and parallel computing. He is an IEEE Fellow and an editor of several journals including IET Generation, Transmission & Distribution and IEEE Transactions on Power Systems. He also chaired the IEEE PES Task Force on Free & Open Source Software.
Content
Part I: Modelling
Chapter 1: Telegrapher's equations for field-to-transmission line interaction
Chapter 2: An affine arithmetic-based methodology for uncertain power flow and optimal power flow analyses
Chapter 3: DFT-based synchrophasor estimation processes for Phasor Measurement Units applications: algorithms definition and performance analysis
Chapter 4: Modelling power systems with stochastic processes
Part II: Control
Chapter 5: Optimization methods for preventive/corrective control in transmission systems
Chapter 6: Static and recursive PMU-based state estimation processes for transmission and distribution power grids
Chapter 7: Real-time applications for electric power generation and voltage control
Chapter 8: Optimal control processes in active distribution networks
Part III: Stability Analysis
Chapter 9: Time-domain simulation for transient stability analysis
Chapter 10: Voltage security in modern power systems
Chapter 11: Small-signal stability and time-domain analysis of delayed power systems
Chapter 12: Shooting-based stability analysis of power system oscillations
Part IV: Appendices
Appendix A: Outlines of stochastic calculus
Appendix B: Data of lines, loads and distributed energy resources
Appendix C: Proofs and tools for DDAEs
Appendix D: Numerical aspects of the probe-insertion technique
Chapter 1: Telegrapher's equations for field-to-transmission line interaction
Chapter 2: An affine arithmetic-based methodology for uncertain power flow and optimal power flow analyses
Chapter 3: DFT-based synchrophasor estimation processes for Phasor Measurement Units applications: algorithms definition and performance analysis
Chapter 4: Modelling power systems with stochastic processes
Part II: Control
Chapter 5: Optimization methods for preventive/corrective control in transmission systems
Chapter 6: Static and recursive PMU-based state estimation processes for transmission and distribution power grids
Chapter 7: Real-time applications for electric power generation and voltage control
Chapter 8: Optimal control processes in active distribution networks
Part III: Stability Analysis
Chapter 9: Time-domain simulation for transient stability analysis
Chapter 10: Voltage security in modern power systems
Chapter 11: Small-signal stability and time-domain analysis of delayed power systems
Chapter 12: Shooting-based stability analysis of power system oscillations
Part IV: Appendices
Appendix A: Outlines of stochastic calculus
Appendix B: Data of lines, loads and distributed energy resources
Appendix C: Proofs and tools for DDAEs
Appendix D: Numerical aspects of the probe-insertion technique