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Frequency Control in Microgrids

Techniques and Tools for the Energy Transition

  • 1st Edition - July 1, 2026
  • Latest edition
  • Editors: Yogendra Arya, Sandeep Dhundhara, Hany M. Hasanien
  • Language: English

Load Frequency Control in Microgrids: Techniques and Tools for the Energy Transition presents the intricate techniques of microgrid frequency control, with a focus on enhanc… Read more

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Description

Load Frequency Control in Microgrids: Techniques and Tools for the Energy Transition presents the intricate techniques of microgrid frequency control, with a focus on enhancing power quality and facilitating the transition to sustainable energy sources. This multidisciplinary resource equips readers with the tools and insights to implement effective load frequency control in sustainable microgrids. It delves into topics such as modeling components and systems for analysis, designing controllers, effectively utilizing energy storage systems, and addressing cybersecurity challenges specific to microgrid frequency control. Incorporating theoretical foundations, practical examples, and diverse contributor expertise, this book provides a holistic understanding of challenges and opportunities.

Including access to Simulink models and code files for practical learning, this book is an indispensable resource for researchers, practitioners, and students seeking to advance sustainable energy systems using microgrids.

Key features

  • Provides a much-needed guide to this complex area, from modeling and algorithms to cybersecurity
  • Includes access to Simulink models and code files, allowing readers to test and learn themselves
  • Supports engineers, students, and academics in developing the sustainable microgrid solutions of the future

Readership

Graduate and upper-level undergraduate students, engineers, and academics specialising in microgrids, power quality, or machine learning techniques for energy systems and transition

Table of contents

1. Introduction to Microgrids and Frequency Control

2. Issues and Need of Microgrid Frequency Control

3. Modeling Microgrid Components for Load Frequency Control Studies

4. Control Strategies for Microgrid Frequency Control

5. Designing Controllers for Microgrid Frequency Control

6. Role of Energy Storage Systems in Microgrid Frequency Control

7. Analytical Approaches to Microgrid Frequency Control

8. Frequency Control in Multi-Microgrid Systems

9. Hardware and Real-Time Validation of Microgrids

10. Cybersecurity, Ethical, and Regulatory Concerns in Microgrid Frequency Control

11. Future Trends and Research Directions in Microgrid Load Frequency Control

Product details

  • Edition: 1
  • Latest edition
  • Published: July 1, 2026
  • Language: English

About the editors

YA

Yogendra Arya

Yogendra Arya is currently an Associate Professor at J.C. Bose University of Science and Technology, India. His major areas of research include AI techniques, optimization techniques, fuzzy control, control systems, AGC/LFC in smart grid, energy storage systems, and renewable energy systems. Dr. Arya has published over 50 research papers in reputed international journals and has been included in the “Top 2% of Researchers in the World” from 2020 to 2024 by Stanford University/Elsevier. He received the “Best Associate Editor Award - 2021 to 2024” from the Journal of Electrical Engineering and Technology, (Springer) and is Associate Editor of several SCIE journals, as well as having acted as a Lead Guest Editor for 6 different SCIE journals. He is a Fellow of IETE, Senior Member of IEEE, Associate Member of IE(India), and Life Member of ISTE.

Affiliations and expertise
Department of Electrical Engineering, J.C. Bose University of Science and Technology, Faridabad, India

SD

Sandeep Dhundhara

Sandeep Dhundhara is currently working in the College of Engineering, Faculty of Computing, Engineering, and the Built Environment, at Birmingham City University, Birmingham, in the United Kingdom. He was previously Visiting Research Fellow at the University of Nottingham, UK (2017-2018) and an Associate Research Fellow at Birmingham City University, UK (2022-2023). His research interests include solar energy systems, artificial intelligence (AI) applications for power system control and stability, AGC, and electrical energy storage systems. With over 10 years of teaching and research experience in electrical engineering, Dr. Dhundhara has edited 3 books and published several papers in various international journals and conferences. He has acted as guest editor for Sustainable Energy Technologies and Assessments (SCIE journal published by Elsevier) and Neural Computing and Applications (SCI journal published by Springer). He is a Member of IEEE, UACEE, and INAEG.

Affiliations and expertise
College of Engineering, Faculty of Computing, Engineering and the Built Environment, Birmingham City University, Birmingham, UK

HH

Hany M. Hasanien

Hany M. Hasanien is a Professor at the Electrical Power and Machines Department of Ain Shams University, Egypt. His research interests include modern control techniques, power systems dynamics and control, energy storage systems, renewable energy systems, and smart grids. Prof. Hasanien is an Editorial Board Member of Electric Power Components and Systems Journal, and is a Subject Editor of IET Renewable Power Generation, Frontiers in Energy Research and Electronics MDPI. He has authored, co-authored, or edited three books in the field of electric machines and renewable energy. He has published more than 250 papers in international journals and conferences.
Affiliations and expertise
Professor, Electrical Power and Engineering Department, Ain Shams University, Egypt