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N. Mohammed - Grid-Forming Power Inverters Control and Applications Grid-Forming Power Inverters Control and Applications Edited By Nabil Mohammed, Hassan Haes Alhelou, Behrooz Bahrani ISBN 9781032298887 Published February 28, 2023 by CRC Press 306 Pages 205 B/W Illustrations  Book Description Grid-Forming Power Inverters: Control and Applications is the first book dedicated to addressing the operation principles, grid codes, modelling and control of grid-forming power inverters. The book initially discusses the need for this technology due to the substantial annual integration of inverter-based renewable energy resources. The key differences between the traditional grid-following and the emerging grid-forming inverters technologies are explained. Then, the book explores in detail various topics related to grid-forming power inverters, including requirements and grid standards, modelling, control, damping power system oscillations, dynamic stability under large fault events, virtual oscillator-controlled grid-forming inverters, grid-forming inverters interfacing battery energy storage, and islanded operation of grid-forming inverters. Features: Explains the key differences between grid-following and grid-forming inverters Explores the requirements and grid standards for grid-forming inverters Provides detailed modeming of virtual synchronous generators Explains various control strategies for grid-forming inverters Investigates damping of power system oscillations using grid-forming converters Elaborates on the dynamic stability of grid-forming inverters under large fault events Focuses on practical applications Table of Contents Chapter 1 Introduction to Grid-Forming Inverters Akhlaque Ahmad Khan and Ahmad Faiz Minai Chapter 2 Requirements and Grid Standards for Grid-Forming Inverters Chitaranjan Phurailatpam and Damian Flynn Chapter 3 Power System Requirements for Grid-Forming Converters M. R. Younis and H. M. Youssef Chapter 4 Toward Performance-Based Requirements and Generic Models for Grid-Forming Inverters Ramasubramanian, W. Wang, E. Farantatos, and M. Huque Chapter 5 An Overview of Modeling and Control of Grid-Forming Inverters Sam Roozbehani, Reza Deihimi Kordkandi, and Mehrdad Tarafdar Hagh Chapter 6 Small-Signal Modeling and Validation including State-Space and Admittance Models of the Virtual Synchronous Machine Jingzhe Xu, Weihua Zhou, and Behrooz Bahrani Chapter 7 Grid-Forming Control of Doubly Fed Induction Generators S. Arnaltes, J.L. Rodríguez-Amenedo, and J. Castro Chapter 8 Damping Power System Oscillations Using Grid-Forming Converters J.L. Rodríguez-Amenedo and S. Arnaltes Chapter 9 Grid-Forming Dynamic Stability under Large Fault Events – Application to 100% Inverter-Based Irish Power System Xianxian Zhao and Damian Flynn Chapter 10 Virtual Oscillator-Controlled Grid-Forming Inverters Incorporating Online Parametric Grid Impedance Identification Nabil Mohammed, Behrooz Bahrani, and Mihai Ciobotaru Chapter 11 Grid-Forming Inverters Interfacing Battery Energy Storage Systems Sukumar Kamalasadan, Michael Smith, and Fahim Al Hasnain Chapter 12 Operation of Grid-Forming Inverters in Islanded Mode Habib Ur Rahman Habib Editor Dr. Nabil Mohammed is a postdoctoral research fellow at Monash University. His Ph.D. degree was in power electronics, Macquarie University, Sydney, Australia. In Summer 2019, he was a Visiting Researcher with the Department of Energy Technology, Aalborg University, Denmark. His research interests include power electronics converters, microgrids, smart grids, energy storage systems, adaptive control, system identification, and the PLC and SCADA applications to energy storage systems. Nabil has also performed more than 130 reviews for high prestigious journals and conferences in the field of Electrical Power Engineering including IEEE Transactions on Power Electronics, IEEE Transactions on Industrial Electronics, IEEE Journal of Emerging and Selected Topics in Power Electornics, and Elsevier Journal of Computers & Electrical Engineering. 
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