| Description |
1 online resource (xx, 379 pages) : illustrations |
| Contents |
Cover; Half Title; Title Page; Copyright Page; Dedication; Contents; List of Figures; List of Tables; Preface; Part I: Fuzzy Modeling and Local Control for Microgrid Components; Chapter 1: Fuzzy Modeling and Control of Photovoltaic (PV) Power; 1.1 Modeling of PV Power; 1.1.1 Modeling of PV Power with DC Load; 1.1.2 Modeling of PV Power with AC Load; 1.2 Control of PV Power; 1.2.1 Stability Analysis of PV Power; 1.2.2 Control Synthesis of PV Power; 1.3 MPPT Fuzzy Control of PV Power; 1.3.1 Modeling of MPPT of PV Power with DC Load; 1.3.2 Modeling of MPPT of PV Power with AC Load |
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1.3.3 MPPT Controller Design1.4 Robust MPPT Fuzzy Observer-Based Control; 1.4.1 Modelling of Uncertain PV Power; 1.4.2 Design of Observer-Based Controller; 1.5 Finite-Time MPPT via Sliding Mode Control; 1.5.1 Design of FSMC Law for PV Power with MPPT; 1.5.2 Reaching Phase in FTB for PV Power with FSMC Law; 1.5.3 Design Procedure for MPPT Algorithm; 1.6 Simulation Studies; 1.6.1 Solar PV Power with DC-DC Boost Converter; 1.6.2 Solar PV Power with DC-DC Buck Converter; 1.6.3 Solar PV Power with MPPT Control; 1.7 References; Chapter 2: Fuzzy Modeling and Control of Wind Power |
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2.1 Modeling of Wind Power2.1.1 Modeling of Variable Speed Wind Power; 2.1.2 Modeling of Wind Power with DC Load; 2.1.3 Modeling of Wind Power with AC Load; 2.2 Control of Wind Power with PMSG; 2.2.1 Stability Analysis of Wind Power; 2.2.2 Design of Wind Power with MPPT Control; 2.3 Finite-Time MPPT of Wind Power via Sliding Mode Control; 2.3.1 Design of Wind Power with FSMC Law; 2.3.2 Reaching Phase in FTB of Wind Power; 2.3.3 Design Procedure for MPPT Algorithm; 2.4 Simulation Studies; 2.4.1 MPPT Control of Wind Power with PMSG; 2.4.2 FTB of SMC of Wind Power with PMSG; 2.5 References |
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Chapter 3: Fuzzy Modeling and Control Energy Storage Systems3.1 Modeling and Control of Lead-Acid Batteries; 3.1.1 Modeling of Lead-Acid Batteries; 3.1.2 Charge Modeling; 3.1.3 Discharge Modeling; 3.1.4 Switching Charge and Discharge Operations; 3.1.5 SOC Estimation of Switching Operations; 3.2 Modeling and Control of Li-Ion Batteries; 3.2.1 Li-Ion Batteries Based on Single Particle Model (SPM); 3.2.2 Li-Ion Batteries Based on Circuit Model; 3.2.3 Stability Analysis of SOC Estimation System; 3.2.4 Design of Observer-Based Fuzzy Controller; 3.3 Modeling of Supercapacitors |
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3.4 Simulation Studies3.5 References; Part II: Coordinated Fuzzy Control for Microgrids; Chapter 4: Centralized Fuzzy Control; 4.1 Modeling of Multi-PV Generators; 4.1.1 Modeling of Multi-PVs with DC Load; 4.1.2 Modeling of Multi-Photovoltaic System with AC Load; 4.2 Modeling of Multi-Machine Wind Generators; 4.2.1 Modeling of Multi-Wind Systems with DC Loads; 4.2.2 Modeling of Multi-Wind Generator With AC Load; 4.3 Centralized Control of Tracking Synchronization; 4.3.1 Centralized Fuzzy Control; 4.3.2 Design of Stabilization Controller |
| Summary |
Due to increasing economic and environmental pressures, small-scale grids have received increasing attention in the last fifteen years. These renewable sources, such as solar PVs, wind turbines, and fuel cells, integrated with grid, have changed the way we live our lives. This book describes microgrid dynamics modeling and nonlinear control issues from introductory to the advanced steps. The book addresses the most relevant challenges in microgrid protection and control including modeling, uncertainty, stability issues, local control, coordination control, power quality, and economic dispatch |
| Notes |
4.3.3 Centralized Sampled-Data Controller with Event-Triggered ZOH |
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Zhixiong Zhong received a B.S. degree in Mechatronics from Fuzhou University, Fuzhou, China, in 2008 and a M.S. degree in control theory and control engineering from Fuzhou University, Fuzhou, China, in 2012. In 2013 he was a visiting student with the Department of Mechanical Engineering, University of Victoria, Canada. In 2015 he received the Ph. D. degree in the Research Institute of Intelligent Control and Systems, Harbin Institute of Technology, Harbin, China and jointed in the School of Electrical Engineering and Automation, Xiamen University of Technology, Xiamen, China. He has published a number of international journal and conference papers and authored the book Large-Scale Fuzzy Interconnected Control Systems Design and Analysis (IGI Global, 2017). He is a Reviewer of several journals. His research interests include fuzzy control, robust filtering and microgrid control |
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Restricted: Printing from this resource is governed by The Legal Deposit Libraries (Non-Print Works) Regulations (UK) and UK copyright law currently in force. WlAbNL |
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Print version record |
| Subject |
Microgrids (Smart power grids) -- Design
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Microgrids (Smart power grids) -- Automatic control
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Microgrids (Smart power grids) -- Simulation methods
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Microgrids (Smart power grids)
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TECHNOLOGY -- Electronics -- General.
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Microgrids (Smart power grids)
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| Form |
Electronic book
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| ISBN |
9781351032452 |
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1351032453 |
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9781351032469 |
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1351032461 |
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9781351032445 |
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1351032445 |
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