Vehicle-to-grid : linking electric vehicles to the smart grid / edited by Junwei Lu and Jahangir Hossain.

Format:

Book

Contributor:

Lu, Junwei, editor.

Hossain, Jahangir, editor.

Series:

IEE power and energy series ; 79.

Power and Energy Series ; 79

Language:

English

Subjects (All):

Electric vehicles--Power supply.

Electric vehicles.

Smart power grids.

Physical Description:

1 online resource (271 p.)

Place of Publication:

London, England : The Institution of Engineering and Technology, 2015.

Language Note:

English

Summary:

Vehicle-to-Grid: Linking Electric Vehicles to the Smart Grid provides an integrated treatment of smart grid using electric vehicles by exploring the connection between the stationary grid and PEV power storage. Plug-in electric and hybrid vehicles (PEVs) have the potential to provide substantial storage to a city's grid, a key component in mitigating intermittency issues of power sources. However the batteries of these vehicles also need to be charged at times for when their users need them. As a result, V2G (vehicle-to-grid) is becoming an important issue in the future grid. Topics covered include: - the impact of PEVs and V2G on smart grid and renewable energy systems - distributed energy resource with PEV battery energy storage in the smart grid - power conversion technology in smart grid and PEVs - power control and monitoring of smart grid with PEVs - PEV charging technologies and V2G on distributed energy resources - utility interfaces - economic, social and environmental dimensions of PEVs in the smart grid

Contents:

Contents; Preface; 1. Introduction to the Smart Grid using PEVs - Junwei Lu and Jahangir Hossain; Abstract; 1.1 - Introduction; 1.2 - The Smart Grid and Microgrid; 1.3 - Impact of PEVs on Distributed Energy Resources in the Smart Grid; 1.4 - V2G Technology and PEVs Charging Infrastructures; References; 2. Impact of EV and V2G on the Smart Grid and Renewable Energy Systems - Taha Selim Ustun; Abstract; 2.1 - Introduction; 2.2 - Types of Electric Vehicles; 2.3 - Motor Vehicle Ownership and EV Migration; 2.4 - Impact of Estimated EVs on Electrical Network

2.5 - Impact on Drivers and the Smart Grid2.6 - Standardization and Plug-and-Play; 2.7 - Conclusion; References; 3. Distributed Energy Resource with PEV Battery Energy Storage in the Smart Grid - Jianguo Zhu, Md Rabiul Islam, Jiefeng Hu, Sonki Prasetya, Yuedong Zhan, Mohammad Jafari, Hung Dung Pham and Youguang Guo; Abstract; 3.1 - Introduction; 3.2 - Distributed Energy Sources; 3.3 - The Smart Grid and Microgrids; 3.4 - Conclusions; References; 4. Power Conversion Technology in the Smart Grid and EV - M.A. Mahmud; Abstract; 4.1 - Introduction; 4.2 - Dynamical Modelling of EVs

4.3 - Power Conversion Problem Formulation in Smart Grids with EVs4.4 - Feedback Linearisation and Feedback Linearisabilityof Smart Grids with EVs; 4.5 - Distributed Controller Design for Smart Grids with EVs; 4.6 - Performance Evaluation; 4.7 - Conclusions; Appendix I: Definition of Lie Derivative and Relative Degree; Appendix II: Stability of Internal Dynamics of Smart Grids with EVs; Appendix III: System Parameters; References; 5. Power Control and Monitoring of the Smart Grid with EVs - M.S. Rahman, F.H.M. Rafi, M.J. Hossain and J. Lu; Abstract; 5.1 - Introduction

5.2 - Impacts of EV Penetration on Grid Power Profile andRequirements of Its Control and Monitoring5.3 - Hybrid EV Powertrain Architectures; 5.4 - Industrially Used Control, Monitoring andManagement Strategies; 5.5 - V2G Communication System; 5.6 - System Model; 5.7 - Problem Formulation and Control Strategy; 5.8 - Simulation Results; 5.9 - Conclusions; References; 6. PEV Charging Technologies and V2G on Distributed Systems and Utility Interfaces - Domagoj Leskarac, Chirag Panchal, Sascha Stegen and Junwei Lu; Abstract; 6.1 - Introduction; 6.2 - Current PEV Charging Standards

6.3 - Contact-Based PEV Charging6.4 - Smart Transformer for Charging Station in a Microgrid; 6.5 - Contact Charging Safety Considerations; 6.6 - Wireless Charging Systems for PEV; 6.7 - Conclusion; References; 7. Economic, Social and Environmental Dimensions of PHEV in the Smart Grid - Christopher J. Bennett, Markos Katsanevakis and Rodney A. Stewart; Abstract; 7.1 - Introduction; 7.2 - Economic Dimension; 7.3 - Social Dimension; 7.4 - Environmental Dimension; 7.5 - General Method for Developing PHEV Scheduling Systems; 7.6 - Conclusion; References; Index

Notes:

Description based upon print version of record.

Includes bibliographical references at the end of each chapters and index.

Description based on print version record.

ISBN:

1-5231-0021-4

1-84919-856-X