The book fills the gap between theoretical knowledge and practical application, making it an indispensable resource for engineers, researchers, and transmission and distribution professionals alike. The book helps you gain the practical knowledge and industry-ready skills for solving real-world problems in the field of power system analysis, including:
- Designing power system controllers, from network stability and short circuit to harmonic reduction and more.
- Tackling industry challenges like network instability, harmonic losses, unreliable capacitor placement, wind power plant issues, and low economic production with confidence.
- Gaining insight into network issues and how to develop effective solutions with ease.
- Incorporates real-world case studies from diverse power grids, like those in the US, UK, Malaysia, Iran and Spain.
This book provides the practical knowledge and industry-ready skills needed to excel in power system analysis and is aimed towards power system engineers as well as undergraduate and graduate students.
The book fills the gap between theoretical knowledge and practical application, making it an indispensable resource for engineers, researchers, and transmission and distribution professionals alike.
Chapter 1: Overview of Power System Studies and Software Applications
Chapter 2: Power System Modeling
Chapter 3: Load Flow Control Methods
Chapter
4: Short-Circuit Analysis Techniques
Chapter 5: Nonlinear Dynamic Analysis
Methods
Chapter 6: Control Strategies for Power System Stability
Chapter 7:
Asynchronous Motors
Chapter 8: Power System Harmonic Analysis
Chapter 9:
Optimal Capacitor Placement Methods
Chapter 10: Asymmetric Distribution
Networks
Chapter 11: Optimal Power Flow Analysis
Chapter 12: Reliability and
Contingency Analysis
Chapter 13: Wind Farm Construction
Chapter 14: Large
Network Simulations Appendix: Download Link of Network Files References
Mostafa Eidiani (Senior Member, IEEE) earned his B.S., M.Eng. and Ph.D. degrees in Electrical Engineering from Ferdowsi and Azad University, Iran in 1995, 1997, and 2004, respectively. His research interests include renewable energy integration, power system control, transient and voltage stability, power system simulation, and DIgSILENT PowerFactory simulations and analysis. He has authored or coauthored 11 technical books, 9 chapter books, 40 journal papers, and 110 technical conference proceedings.
He is the author of three books with the Taylor and Francis group:
Fundamentals of Power Systems Analysis I: Problems and Solutions Advanced Topics in Power Systems Analysis: Problems, Methods, and Solution Fundamentals of Power System Transformers Modeling, Analysis, and Operation
He was listed among the worlds top 2% scientists in 2024, published by Stanford University.
Kumars Rouzbehi (Senior Member, IEEE) received his Ph.D. in Electric Energy Systems from the Technical University of Catalonia (UPC), Barcelona, Spain, in 2016. From 2002 to 2011, he was an academic staff member at the Islamic Azad University (IAU), Iran. From 2017 to 2018, he was associate professor at Loyola Andalucia University, Seville, Spain. In 2019, he joined the Department of System Engineering and Automatic Control at the University of Seville, Spain. He is the patent holder for AC grid synchronization of voltage source power converters and has contributed to over 120 technical publications, including books, book chapters, journal papers, and technical conference proceedings. He has been a Technical Program Committee (TPC) member of the International Conference on Electronics, Control, and Power Engineering (IEEE ECCP) since 2014 and a scientific board member of the IEA International Conference on Engineering and Management since 2015. He was also a TPC member of COMPEL 2020.
Professor Rouzbehi is an associate editor of the IEEE Systems Journal, IET Generation, Transmission and Distribution, IET Renewable Power Generation, High Voltage (IET), and IET Systems Integration.
He is a coauthor of the following books:
Active Filter Design (in Persian) Advanced Topics in Power Systems Analysis: Problems, Methods, and Solutions Fundamentals of Power System Transformers: Modeling, Analysis, and Operation
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