This book focuses on the issues of integrating large-scale renewable power generation into existing grids. The issues covered in this book include different types of renewable power generation along with their transmission and distribution, storage and protection. It also contains the development of medium voltage converters for step-up-transformer-less direct grid integration of renewable generation units, grid codes and resiliency analysis for large-scale renewable power generation, active power and frequency control and HVDC transmission. The emerging SMES technology for controlling and…mehr
This book focuses on the issues of integrating large-scale renewable power generation into existing grids. The issues covered in this book include different types of renewable power generation along with their transmission and distribution, storage and protection. It also contains the development of medium voltage converters for step-up-transformer-less direct grid integration of renewable generation units, grid codes and resiliency analysis for large-scale renewable power generation, active power and frequency control and HVDC transmission. The emerging SMES technology for controlling and integrating large-scale renewable power systems is also discussed. Since the protection issues with large-scale distributed renewable power systems are different compared to the existing protection system for one way power flow, this book includes a new protection technique for renewable generators along with the inclusion of current status of smart grid. This book is a good reference for the researchers who are working the area of renewable power generation and smart grids.
Dr. Jahangir Hossain received his Ph.D. in Electrical and Electronics Engineering from the University of New South Wales, Australia. He is currently a lecturer in the Griffith School of Engineering, Griffith University, Gold Coast, Australia. Before joining Griffith University, he served as a research fellow in the School of Information Technology and Electrical Engineering, University of Queensland, Australia. His research interests are power systems, renewable energy integration and stabilization, voltage stability, micro grids, robust control, electrical machine, FACTS devices and energy storage systems. Dr. Apel Mahmud received his PhD degree in Electrical Engineering from the University of New South Wales, Australia. He is currently a lecturer at Swinburne University of Technology, Australia. His research interests are dynamic stability of power systems, renewable energy integration, smart grids, nonlinear control theory and electrical machine.
Inhaltsangabe
Taxonomy of Uncertainty Modeling techniques in Renewable Energy System Studies.- Probabilistic Modeling and Statistical Characteristics of Aggregate Wind Power.- Conversion Efficiency Improvement in GaAs Solar Cells.- Emerging SMES Technology into Energy Storage Systems and Smart Grid Applications.- Multilevel Converters for Step-up-Transformer-less Direct Integration of Renewable Generation Units with Medium Voltage Smart Microgrids.- A Review of Interconnection Rules for Large Scale Renewable Power Generation.- Resiliency Analysis of Large-Scale Renewable Enriched Power Grid - A Network Percolation Based Approach.- Frequency Control and Inertial Response Schemes for the Future Power Networks.- Active Power and Frequency Control Considering Large Scale RES.- Impact of Large Penetration of Correlated Wind Generation on Power System Reliability.- HVDC Transmission for Offshore Wind Farm.- Wind Farm Protection.- Wind Power Plants and FACTS devices influence in the performance of distancerelays.- Protection Schemes for Meshed VSC-HVDC Transmission Systems for Large-Scale Offshore Wind Farms.- Control of Emerging Brushless Doubly-Fed Reluctance Wind Turbine Generators.- Energy Hub Management with Intermittent Wind Power.- Adopting the IEC Common Information Model to Enable Smart Grid Interoperability and Knowledge Representation Processes.
Taxonomy of Uncertainty Modeling techniques in Renewable Energy System Studies.- Probabilistic Modeling and Statistical Characteristics of Aggregate Wind Power.- Conversion Efficiency Improvement in GaAs Solar Cells.- Emerging SMES Technology into Energy Storage Systems and Smart Grid Applications.- Multilevel Converters for Step-up-Transformer-less Direct Integration of Renewable Generation Units with Medium Voltage Smart Microgrids.- A Review of Interconnection Rules for Large Scale Renewable Power Generation.- Resiliency Analysis of Large-Scale Renewable Enriched Power Grid - A Network Percolation Based Approach.- Frequency Control and Inertial Response Schemes for the Future Power Networks.- Active Power and Frequency Control Considering Large Scale RES.- Impact of Large Penetration of Correlated Wind Generation on Power System Reliability.- HVDC Transmission for Offshore Wind Farm.- Wind Farm Protection.- Wind Power Plants and FACTS devices influence in the performance of distancerelays.- Protection Schemes for Meshed VSC-HVDC Transmission Systems for Large-Scale Offshore Wind Farms.- Control of Emerging Brushless Doubly-Fed Reluctance Wind Turbine Generators.- Energy Hub Management with Intermittent Wind Power.- Adopting the IEC Common Information Model to Enable Smart Grid Interoperability and Knowledge Representation Processes.
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