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Microgrids
Modeling, Control, and Applications
- 1st Edition - October 21, 2021
- Editors: Josep M. Guerrero, Ritu Kandari
- Language: English
- Paperback ISBN:9 7 8 - 0 - 3 2 3 - 8 5 4 6 3 - 4
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 8 5 4 6 4 - 1
Microgrids: Modeling, Control, and Applications presents a systematic elaboration of different types of microgrids, with a particular focus on new trends and applicati… Read more
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Request a sales quoteMicrogrids: Modeling, Control, and Applications presents a systematic elaboration of different types of microgrids, with a particular focus on new trends and applications. The book includes sections on AC, DC and hybrid AC/DC microgrids and reflects state-of-the-art developments, covering theory, algorithms, simulations, error and uncertainty analysis, as well as novel applications of new control techniques. Offering a valuable resource for students and researchers working on the integration of renewable energy with existing grid and control of microgrids, this book combines recent advances and ongoing research into a single informative resource.
The book highlights recent findings while also analyzing modelling and control, thus making it a solid reference for researchers as well as undergraduate and postgraduate students.
- Covers different types of microgrids and their architecture and control in a single book
- Includes original, state-of-the-art research contributions by international experts
- Features global case studies for better understanding and real-life examples
Researchers working in the field of Integration of Renewable Energy Sources with utility grids, Microgrids, their architecture and control. Energy engineers, R&D experts and industry professionals working in the field of Renewable and Sustainable Energy. Researcher associates, postgraduate and undergraduate students of the engineering colleges with energy or non-conventional energy resources
- Cover image
- Title page
- Table of Contents
- Copyright
- Dedication
- List of contributors
- Section I: Introduction to microgrids
- Chapter 1. Microgrids, their types, and applications
- Abstract
- 1.1 Introduction
- 1.2 Microgrid classification
- 1.3 Structure
- 1.4 Modes of operation
- 1.5 Control of AC microgrid
- 1.6 Control of DC microgrid
- 1.7 Control of hybrid (AC/DC) microgrid
- 1.8 Microgrid research areas
- 1.9 Solar
- 1.10 Maximum power point tracking
- 1.11 Wind turbine system
- 1.12 Battery
- 1.13 Fuel cell
- 1.14 Advantages and applications of microgrid
- 1.15 Conclusion
- References
- Section II: AC microgrids
- Chapter 2. Disturbance observer–aided adaptive sliding mode controller for frequency regulation in hybrid power system
- Abstract
- 2.1 Introduction
- 2.2 System modeling
- 2.3 Disturbance observer–aided adaptive sliding mode load frequency controller
- 2.4 Results and discussion
- 2.5 Conclusion
- References
- Chapter 3. Recent advancements in AC microgrids: a new smart approach to AC microgrid monitoring and control using IoT
- Abstract
- 3.1 Introduction
- 3.2 Problem statement
- 3.3 Literature survey
- 3.4 Block diagram
- 3.5 Methodology
- 3.6 Details of hardware and software used
- 3.7 Details about the web portal: ThingSpeak
- 3.8 Algorithm
- 3.9 Software development flowchart
- 3.10 Results and discussions
- 3.11 Graphical analysis
- 3.12 Conclusion and future scope
- References
- Further reading
- Section III: DC microgrids
- Chapter 4. DC microgrid
- Abstract
- 4.1 Introduction
- 4.2 DC microgrid
- 4.3 Mode of operation
- 4.4 Advantages of DC microgrid
- 4.5 Standards
- 4.6 DC microgrid architecture
- 4.7 Principle of chopper
- 4.8 Boost converter
- 4.9 Case-I (switch S is ON)
- 4.10 Case-II (switch S is OFF)
- 4.11 Buck-boost converter
- 4.12 Case-I (switch S is ON)
- 4.13 Case-II (switch S is OFF)
- 4.14 Working principle
- 4.15 Discharging mechanism
- 4.16 Charging mechanism
- 4.17 State of charge and state of health
- 4.18 Types of batteries
- 4.19 Types of modeling methods
- 4.20 Equivalent circuit model
- 4.21 Data-driven model
- 4.22 Case study
- 4.23 Conclusion
- References
- Chapter 5. Role of dual active bridge isolated bidirectional DC-DC converter in a DC microgrid
- Abstract
- 5.1 Introduction
- 5.2 Microgrid
- 5.3 Dual-active bridge converter
- 5.4 Fuzzy logic controller
- 5.5 Performance evaluation
- 5.6 Experimental verification
- 5.7 Conclusion
- References
- Section IV: Hybrid AC/DC microgrids
- Chapter 6. Introduction to hybrid AC/DC microgrids
- Abstract
- 6.1 Introduction
- 6.2 Architecture of hybrid micro-grid
- 6.3 Architecture of AC-coupled hybrid micro-grid
- 6.4 Architecture of DC-coupled hybrid micro-grid
- 6.5 Architecture of AC-DC coupled hybrid micro-grid
- 6.6 Modeling of hybrid micro-grid components
- 6.7 Power quality issues in hybrid micro-grid
- 6.8 Control strategies and energy management system for hybrid micro-grid
- 6.9 Modeling of hybrid micro-grid
- 6.10 Mathematical modeling of hybrid micro-grid
- 6.11 Coordination control of the converters
- 6.12 Grid-connected mode
- 6.13 Economic potential and their benefits for hybrid micro-grid
- 6.14 Case study regarding hybrid micro-grid
- 6.15 Conclusion
- References
- Chapter 7. Control of hybrid AC/DC microgrids
- Abstract
- 7.1 Introduction
- 7.2 Literature review
- 7.3 Theoretical approach—different control techniques
- 7.4 Methodology
- 7.5 Results and discussion—case studies
- 7.6 Conclusion
- 7.7 Summary
- References
- Chapter 8. Recent advancements in hybrid AC/DC microgrids
- Abstract
- 8.1 Introduction
- 8.2 Challenges in hybrid AC/DC microgrid and possible solutions
- 8.3 Advances in hybrid microgrids
- 8.4 Case study
- 8.5 Conclusion
- References
- Index
- No. of pages: 268
- Language: English
- Edition: 1
- Published: October 21, 2021
- Imprint: Academic Press
- Paperback ISBN: 9780323854634
- eBook ISBN: 9780323854641
JG
Josep M. Guerrero
Josep M. Guerrero is a full professor with AAU Energy, Aalborg University, Denmark. He is the director of the Center for Research on Microgrids (CROM). He has published more than 800 journal articles in the fields of microgrids and renewable energy systems, which have been cited more than 80,000 times. His research interests focus on different microgrid aspects, including hierarchical and cooperative control, and energy management systems.
Affiliations and expertise
Full Professor, AAU Energy, Aalborg University and Director of the Center for Research on Microgrids (CROM), DenmarkRK
Ritu Kandari
Ritu Kandari received her B.Tech. Degree in Electrical and Electronics from Guru Gobind Singh Indraprastha University, India, in 2010, and M.Tech. Degree in Digital Communication from Ambedkar Institute of Advanced Communication Technologies and Research, Delhi, in 2012. She joined HMR Institute of Technology and Management, Delhi as an assistant professor in 2012. She is currently pursuing her PhD. Degree in renewable energy at the Department of Electronics and Communication Engineering, IGDTUW, Delhi. Kandari has co-edited 3 books with Elsevier and was also a guest associate editor of the special issue on electricity islands for the journal Renewable & Sustainable Energy Reviews.
Affiliations and expertise
Senior Research Fellow (SRF) in Renewable Energy, IGDTUW, Delhi, IndiaRead Microgrids on ScienceDirect