04309nam 2200493 450 991080994370332120230125185111.01-5231-4611-71-63081-478-4(CKB)4100000004835333(MiAaPQ)EBC5430708(CaBNVSL)mat09100564(IEEE)9100564(EXLCZ)99410000000483533320200729d2018 uy engurcnu||||||||txtrdacontentcrdamediacrrdacarrierSmart grid redefined transformation of the electric utility /Dr. Mani VadariBoston ;London :Artech House,[2018][Piscataqay, New Jersey] :IEEE Xplore,[2018]1 online resource (xxviii, 366 pages) illustrations, mapsArtech house titles in power engineering1-63081-476-8 Includes bibliographical references and index.Intro; Smart Grid Redefined: Transformation of the Electric Utility; Forward; Preface; Acknowledgments; 1 Introduction; Background; Sequence of Chapters and Their Description; Chapter 2-Smart Grid Redefined; Chapter 3-Distribution Automation: Path to the Self-Healing Grid; Chapter 4-Energy Storage: Electric Value Chain Disruptor; Chapter 5-Distributed Energy Resources: The Challenge of Integrating Supply and Demand Diversity; Chapter 6-Microgrids: Fragmentation of the Grid; Chapter 7-Data Analytics: Bringing Intelligence to the GridChapter 8-Electric Transportation: First Mover to a Mobile Carbon-Free FutureChapter 9-Smart Homes and Buildings: The Final Frontier; Chapter 10-Electric Utility Transformation; Chapter 11-Transformed Utility Springboard to a Smart City; Conclusions; Reference; 2 Smart Grid Rede ned; Introduction; De ning the Smart Grid; Dimensions of the Smart Grid; Distributed Energy Resource; Energy Storage; T & D Automation; Advanced Operational and Decision Support Systems; Microgrid; Data Analytics; Electric Transportation; Smart Meters; Smart Homes and Buildings; Demand Response and Energy Ef ciencyCommunicationsCybersecurity; Advances in Technical Architectures and Computing; Ongoing Challenges and the Future; Case Studies; Case Study #1: United States-AEP Ohio gridSMART Demonstration Project; Case Study #2: Grid4EU; How Smart Grid Will Transform the Utility Industry; This Is Transformation: The Entire Utility Needs to Change for the Conversation to Be Real; References; 3 Distribution Automation: Path to a Self-Healing Grid; Introduction; TA versus DA; DA and Its Connection to the Self-Healing Grid; Smart Grid Dimensions That Make DA Self-Healing; Smart Meters; Big Data and AnalyticsCommunicationsPrivacy and Cybersecurity; Core Components of DA; Advanced Sensing and Measurement; Advanced Control Methods; Dos and Don'ts of DA; Ongoing Challenges and the Future; Case Studies; Case Study #1: Duke Energy, DA; Case Study #2: Stedin, The Netherlands, DA; How DA Can Transform the Utility Industry; Conclusions; References; 4 Energy Storage: Electronic Value Chain Disruptor; Introduction; Electric Energy Storage-What Is It and Why Is It Important?; De nition of Key Terms and Concepts Associated with Energy Storage; Electric Energy Storage Types and Applications; Pumped HydroWritten by a leading expert in the utility field, this practical new resource guides professionals in the evolution of the Smart Grid and offers insight into distribution automation, storage, and microgrid. This book highlights the journey to electric utility 3.0 and provides solid examples and includes real-world case studies. Readers find guidance on new energy storage solutions and electric value chain disruptors. Professionals also learn how to overcome challenges related to integrating supply and demand diversity -- Provided by the publisher.Artech House power engineering series.Smart power gridsSmart power grids.621.31Vadari Mani1655331CaBNVSLCaBNVSLCaBNVSLBOOK9910809943703321Smart grid redefined4108275UNINA