| Description |
1 online resource (246 p.) |
| Contents |
Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Preface -- About the Editors -- List of Contributors -- Chapter 1: Introduction to E-vehicle technology -- 1.1 Introduction -- 1.2 Different types of E-vehicles -- 1.3 Technologies so far -- 1.4 Standards for E-vehicles -- 1.5 Conclusion -- References -- Chapter 2: Electric vehicles and smart grid interactions: Infrastructure, current trends, impacts and challenges -- 2.1 Introduction -- 2.1.1 Historic timelines -- 2.1.2 Types of electric vehicles -- 2.1.3 The Basic Structure of EVs -- 2.1.4 EV market scenarios |
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2.2 Current trends and innovations in electric vehicles -- 2.2.1 Integration of EVs with a smart grid -- 2.2.2 Infrastructure and technology implementation -- 2.2.3 Impacts and impediments of EV penetration -- 2.3 Standards and policies adopted by different countries -- 2.3.1 Standards and codes for EV implementation -- 2.3.2 Schemes introduced by the Indian government -- 2.4 Future areas of research in EV implementation -- 2.4.1 Research for new energy storage technologies and infrastructure -- 2.4.2 Feasibility of V2G support to renewable energy sources -- References |
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Chapter 3: Implementation issues with large-scale renewable energy sources and electric vehicle charging stations on the smart grid -- 3.1 Introduction -- 3.2 Large-scale renewable integration into the smart grid -- 3.3 The impact of EVCS on the smart distribution network -- 3.3.1 Renewable energy for clean transportation -- 3.3.2 EVCS planning for electric vehicles -- 3.3.3 EV fast charging station with multiple energy sources -- 3.3.4 Managing EV charging an EVCS -- 3.4 Renewables in smart grids: planning and operation -- 3.4.1 Energy balance and power continuity |
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3.4.2 Improved power quality with smart inverters -- 3.4.3 Power quality management in smart grid -- 3.4.4 SMART principles in the distribution system -- 3.5 Future areas of research in large-scale RES and EV implementations -- 3.5.1 RES integration -- 3.5.2 Intelligent charging stations -- 3.5.3 Smart operational planning in a power network -- References -- Chapter 4: Analysis of a fuel cell-fed BLDC motor drive with a double boost converter for electric vehicle application -- 4.1 Introduction -- 4.2 Proposed fuel cell fed electric vehicle system design -- 4.2.1 Fuel cell |
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4.2.2 Double boost converter -- 4.3 Proposed system control techniques -- 4.3.1 MPPT controller -- 4.3.2 Hall Effect controller for VSI -- 4.4 Result and discussion -- 4.5 Conclusion -- References -- Chapter 5: Structural, finite element and simulation analysis for wireless power transfer of power pad for electric vehicles -- 5.1 Introduction -- 5.2 Magnetic circuit analysis for rectangular, DD, DDQ coil system -- 5.2.1 Rectangular coil pad structure -- 5.2.2 DD coil pad structure -- 5.2.3 DDQ coil structure -- 5.3 System modelling and analysis -- 5.4 Finite element analysis and simulation result |
| Notes |
Description based upon print version of record |
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5.4.1 Simulation result obtained by Ansys Maxwell |
| Subject |
Battery charging stations (Electric vehicles)
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Energy storage
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Renewable energy sources
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Smart power grids
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| Form |
Electronic book
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| Author |
Tomar, Anuradha
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Asija, Divya
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Rao, U. Mohan
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Sarwar, Adil
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| ISBN |
9781000649468 |
|
1000649466 |
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