Technologies and applications for smart charging of electric and plug-in hybrid vehicles / Ottorino Veneri, editor.
Veneri, Ottorino, editor.
2017
TL220
Available Online

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Title Technologies and applications for smart charging of electric and plug-in hybrid vehicles / Ottorino Veneri, editor.
ISBN 9783319436517 (electronic book)
3319436511 (electronic book)
9783319436494
331943649X
DOI https://doi.org/10.1007/978-3-319-43651-7
Publication Details Cham, Switzerland : Springer, 2017.
Language English
Description 1 online resource
Item Number 10.1007/978-3-319-43651-7 doi
Call Number TL220
Dewey Decimal Classification 629.22/9
Summary This book outlines issues related to massive integration of electric and plug-in hybrid electric vehicles into power grids. Electricity is becoming the preferred energy vector for the next new generation of road vehicles. It is widely acknowledged that road vehicles based on full electric or hybrid drives can mitigate problems related to fossil fuel dependence. This book explains the emerging and understanding of storage systems for electric and plug-in hybrid vehicles. The recharging stations for these types of vehicles might represent a great advantage for the electric grid by facilitating integration of renewable and distributed energy production. This book presents a broad review from analyzing current literature to on-going research projects about the new power technologies related to the various charging architectures for electric and plug-in hybrid vehicles. Specifically focusing on DC fast charging operations, as well as, grid-connected power converters and the full range of energy storage systems. These key components are analyzed for distributed generation and charging system integration into micro-grids. The authors demonstrate that these storage systems represent effective interfaces for the control and management of renewable and sustainable distributed energy resources. New standards and applications are emerging from micro-grid pilot projects around the world and case studies demonstrate the convenience and feasibility of distributed energy management. The material in this unique volume discusses potential avenues for further research toward achieving more reliable, more secure and cleaner energy. Explores the application of electric vehicle charging technologies in the smart grid sector Examines the impacts and uses of EVs and Hybrids in micro-grids, renewable energy uptake, and distributed generation paradigms Provides solutions to key challenges hindering an upsurge in the electric and plug-in hybrid market.
Note Includes index.
Access Note Access limited to authorized users.
Digital File Characteristics text file PDF
Added Author Veneri, Ottorino, editor.
Available in Other Form Technologies and applications for smart charging of electric and plug-in hybrid vehicles.
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Acknowledgments; Contents; About the Authors; Introduction; Part I: Overview of Technologies; Chapter 1: Vehicle Electrification: Main Concepts, Energy Management, and Impact of Charging Strategies; 1.1 Introduction; 1.2 Vehicle Electrification: Introduction and Definitions; 1.2.1 From HEVs to Plug-In Hybrid Electric Vehicles; 1.2.2 PHEV Energy Management; 1.2.3 Full-Electric Vehicles; 1.2.4 PEV Charging Options and Infrastructure; 1.3 Energy, Economic, and Environmental Considerations; 1.4 Impacts of PEV Charging on the Power Grid; 1.4.1 General Considerations.

1.4.2 Effects of PEV Charging on Battery Lifetime1.4.3 Effects of PEV Charging on Generation and Load Profile; 1.4.4 Effects of PEV Charging on Distribution Networks; 1.5 The Role of Smart Charging Technologies and Applications; 1.5.1 General Considerations; 1.5.2 Vehicle Electrification, Impacts on Investments, and Interdependencies in the Power Sector Including Renewables; 1.6 Conclusions; References; Chapter 2: AC and DC Microgrid with Distributed Energy Resources; 2.1 AC Microgrid; 2.2 Introduction to DC Microgrids; 2.2.1 DC Distributed Sources; 2.2.2 The Configuration of DC Microgrids.

2.2.3 Comparison of AC and DC Microgrids2.3 The Control and Operation of DC Microgrids; 2.3.1 Principles of DC Microgrid Operation; 2.3.1.1 The Definition of DC Terminals [13]; 2.3.1.2 Control of DC Microgrids: Central Control and Autonomous Control; 2.3.1.3 The Principles of DC Voltage Control [13]; 2.3.1.4 Operational Criteria; 2.3.1.5 Autonomous Control Strategy of DC Microgrid [17]; 2.3.1.6 Enhanced Droop Control for DC Microgrids [13]; 2.3.1.7 Enhanced Operational Control of DC Microgrid and Power Smoothing; 2.3.1.8 Hierarchical Control Scheme with Low-Bandwidth Communication.

2.4 Stability of DC Microgrids2.4.1 Small Signal Model and Stability Assessment; 2.4.1.1 Virtual Impedance Method; 2.4.1.2 Impacts of Constant Power Load on System Stability; Static Consideration of a DC System with CPL; Small Signal Modeling of a CPL with Virtual Impedance Method; Dynamic Consideration of a CPL Within a DC Microgrid; 2.5 Protection of DC Microgrids; 2.5.1 Introduction to DC Faults; 2.5.2 DC Circuit Breaking; 2.6 Conclusion; References; Chapter 3: Integration of Renewable Energy Sources into the Transportation and Electricity Sectors; 3.1 Introduction.

3.2 On-Board Energy Harvesting Through Renewable Energy Sources3.2.1 Introduction; 3.2.2 VehicleÅ› Main Features; 3.2.3 PV Panel Sizing; 3.2.4 Case Studies; 3.2.4.1 Conventional Vehicles; 3.2.4.2 Pure EVs; 3.2.4.3 HEVs; 3.2.4.4 Grid PHEVs; 3.2.4.5 PV-Grid PHEVs; 3.3 Opportunities and Challenges for Photovoltaic-Based EVSEs; 3.3.1 Introduction; 3.3.2 Solar Maximum Power Point Tracking for EV/PHEV Battery Charging; 3.3.3 Power Electronics Interface; 3.3.3.1 Conventional Structures of PV Systems; 3.3.3.2 Central Inverters; 3.3.3.3 String Inverters; 3.3.3.4 Module-Integrated Inverters.

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