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Advanced Technologies in Electric Vehicles. Challenges and Future Research Developments

  • Book

  • February 2024
  • Elsevier Science and Technology
  • ID: 5755700

Advanced Technologies in Electric Vehicles: Challenges and Future Research Developments discusses fundamental and advanced concepts, challenges, and future perspectives surrounding EVs. Sections cover advances and long-term challenges such as battery life span, efficiency, and power management systems. In addition, the book covers all aspects of the EV field, including vehicle performance, configuration, control strategy, design methodology, modeling and simulation for different conventional and modern vehicles based on mathematical equations. By tackling the fundamentals, theory and design of conventional electric vehicles (EVs), hybrid electric vehicles (HEVs), and fuel cell vehicles (FCVs), this book presents a comprehensive reference. Investment in hybrid and electric vehicle (EV) technology research has been increasing steadily in recent years, both from governments and within companies. The role of the combustion engine in causing climate change has put the automobile industry on a path of rapid evolution towards electric vehicles, bringing experts with a range of backgrounds into the field.

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Table of Contents

Overview
1. Advanced Configurations of Electric Vehicle: An Overview of Hybrid Electric Vehicles
2. Plug-In Hybrid Electric Vehicle System and its Future Advanced Technology
3. A Review on Modeling and Estimation of SOC of Lithium-Ion Battery

Environmental and Social Aspects
4. Environmental and Social Impact of Electric Vehicles
5. Electric Vehicles Progression in the Society & Their Consequences

Distribution Grid
6. Electric-Vehicle-Enabled Hosting Capacity Enhancement in Distribution Systems
7. Power Quality Issues with Electric Vehicle Charging Stations
8. Power Quality Impacts in the Context of Electric Mobility
9. Probabilistic Analysis of the Technical Impacts of High Penetrations of Electric Vehicles on Distribution Networks
10. Planning the Operation and Expansion of Power Distribution Systems Considering EVs (smart charging)
11. Power Losses Analysis in Distribution Systems considering the Massive Penetration of Electric Vehicles
12. Impacts on Power Systems: Integrating Electric Vehicles and Charging Stations

Business and Economics
13. Business Model and Economic Feasibility of Electric Vehicle Fast Charging Stations with Photovoltaic Electric Generation and Battery Storage in Brazil
14. Logistical and Economic Impact on the Transport Sector with the Insertion of Electric Trucks for Last-Mile Transport
15. Demand Side and Flexible Energy Resource Management when Operating Smart Electric Vehicle Charging Stations

Power Electronics
16. Role of Harris Hawks Optimization Based Sliding Mode Control of AC-DC Converter in Electric Vehicle Onboard Battery Charger
17. Bidirectional Electric Vehicle Application Using Isolated DC-DC Converter Fed DC Motor
18. PV Charger Used to Charge the Battery for Off-Board Electric Vehicles with ANFIS
19. Grid Connected Solar PV-Battery and Diesel Generator Based Eletrical Vehicle Charging Station Design and Implementation of ANFIS Controller
20. Design of Bi-Directional Converter for Electric Vehicles Battery Charger
21. Battery Thermal Management System in Electric Vehicles Employing Thermoelectric Cooling Method
22. Design and Control of Bidirectional Onboard Battery Charger for an Electric Vehicle

Final remarks/Challenges
23. Towards Electromobility: Challenges in Integrating Electric Vehicles and Charging Stations on Power Systems

Authors

Vijayakumar Gali Assistant Professor of Electrical and Electronics Engineering, Poornima University, Jaipur, India. Dr Gali is an Assistant Professor of electrical & electronics engineering at Poornima University, Jaipur. His research includes integration of renewable energy sources, power quality, DC-DC converters design for renewable and electric vehicle applications. Luciane Neves Canha Universidade Federal de Santa Maria, Departamento de Eletromecanica e Sistemas de Potencia, Campus Universitario, Santa Maria, Brazil. Luciane Neves Canha Electrical Engineer (1994), Doctor in Electrical Engineering (2004), Full Professor at the Federal University of Santa Maria (UFSM), PQ-1D Researcher at the National Research Council of Brazil and IEEE Senior Member. In 2021 she was included among the 21 most influential women in mobility in the world by Vulog - Top 21 of 2021 Influential Women in Mobility. Responsible for installing the first fast charging station on highways in the state of Rio Grande do Sul, Brazil. In 2022, she received the Gaucho Research Award in the category Researcher in Companies by the Research Support Foundation of Rio Grande do Sul (FAPERGS). She has experience in Electrical Engineering, with an emphasis on power systems, energy transition, electrical mobility, renewable energy sources, smart grids, energy storage, microgrids and distributed generation. Mariana Resener Simon Fraser University, School of Sustainable Energy Engineering - Surrey Campus, Surrey, BC, Canada. Mariana Resener (Senior Member, IEEE) received the Ph.D. degree from the Federal University of Rio Grande do Sul, Rio Grande, Brazil, in 2016. She is currently an Assistant Professor with the School of Sustainable Energy Engineering, Simon Fraser University, Surrey, BC, Canada. Her research interests include power systems operation and planning, optimization and uncertainties. Bibiana Ferraz Universidade Federal do Rio Grande do Sul, Escola de Engenharia - Campus Centro, Porto Alegre-RS, Brazil. Bibiana Ferraz received the Ph.D. in Electrical Engineering from the Federal University of Rio Grande do Sul (UFRGS), Brazil, in 2020. She is currently a Professor with the Department of Automation and Energy, UFRGS. Her research interests include power systems planning, optimization and uncertainties. Madisa V.G. Varaprasad Vignan Institute of Information Technology, Besides VSEZ , Duvvada,Vadlapudi Post, Gajuwaka, Visakhaptnam, India. Madisa V. G. Varaprasad, Dr. Madisa V. G. Varaprasad received the B.Tech and M.Tech degrees in Electrical and Electronics Engineering from Vignan's Institute of Information Technology, Visakhapatnam, India in 2011 and 2013, respectively. He completed his Ph.D. at the National Institute of Technology, Rourkela, India in 2020. Currently, he is working as Associate Professor in the department of Electrical and Electronics Engineering at Vignan's Institute of Information Technology, Visakhapatnam, India. His research interest include modeling, analysis and control of photovoltaic and power electronic converters systems.