1st Edition
Electric Transportation Systems in Smart Power Grids Integration, Aggregation, Ancillary Services, and Best Practices
The leading countries around the globe, including Australia, have taken serious steps to decarbonize their energy and transportation sectors as part of their obligations for a suitable future with fewer emissions and a better environment. The decarbonization plans in different countries have resulted in changes such as increases in the penetration level of renewable energy sources and the introduction of electric vehicles as a target for future transportation systems. This is the point where mobility meets electricity and brings new challenges and opportunities, especially in the integration with modern power systems. The main impact would be on the demand-side and the distribution network. These impacts would be also reflected in the operation, control, security, and stability of transmission systems. This creates a new grid architecture characterized by a growing variability and uncertainties. Moreover, the growth in the share of renewable energy in the total energy market is one of the major causes of the increasing fluctuations in the balance between generation and consumption in the whole system. Therefore, the key challenge lies in developing new concepts to ensure the effective integration of distributed energy resources and electric transportation systems, including EVs, into existing and future market structures.
Electric Transportation Systems in Smart Power Grids address how these issues—EVs, E-buses, and other smart appliances on the demand side—can be aggregated to form virtual power plants, which are considered an efficient solution to provide operational flexibility to the grid. The book also discusses how EV-based virtual power plants can also provide myriad services for distribution system operators, transmission system operators, and even local prosumers within the energy community.
Features:
- Describes the services required to power systems from EVs and electric transportation sector
- Covers frequency control in modern power systems using aggregated EVs
- Discusses the integration and interaction between EVs and Smart grids
- Introduces electric vehicle aggregation methods for supporting power systems
- Highlights flexibility provided from electric transportation system to smart energy sector
- Discusses the high penetration level of renewable energy sources and EVs
Chapter 1 Electric Vehicles and Their Impact in Smart Distribution Systems
Mehran Moradi, Reza Zamani and H.H. Alhelou
Chapter 2 Electric Vehicles Aggregation Methods
H. Mohammadian-Alirezachaei, Amin Babazadeh, Mohammad Ali Baherifard, Rasool
Kazemzadeh, and Reza Eslami
Chapter 3 Forecasting the Energy Consumption Impact of Electric Vehicles by Means of
Machine Learning Approaches
Ibrahim Kovan and Stefan Twieg
Chapter 4 Comprehensive Bidirectional EV Charging Scheduling Considering the
Economic Aspects
Fatemeh Jozi, Ali Abdali, Kazem Mazlumi and Seyed Hadi Hosseini
Chapter 5 Reliability Analysis of Radially Connected Distribution Networks in the
Presence of Bidirectional Charging
Fatemeh Jozi, Ali Abdali, Kazem Mazlumi and Seyed Hadi Hosseini
Chapter 6 Optimal Electric Vehicle Charging Station Placement with Online
Charging Navigation Strategy in Urban Areas
Chen Liu, Hui Song and Xinghuo Yu
Chapter 7 Smart Control Strategies for AC Switches Used in Electric Vehicle Battery
Chargers
Sébastien Jacques
Chapter 8 Smart Grid–Based Control of Modes of Railway Power Supply Systems
Y. Bulatov, A. Kryukov and K. Suslov
Chapter 9 Sustainable Electrified Transportation Systems: Integration of EV and E-bus
Charging Infrastructures to Electric Railway Systems
Hamed Jafari Kaleybar, Morris Brenna, Federica Foiadelli and Francesco Castelli Dezza
Chapter 10 Modelingling of Electric Vehicle DC Fast Charger
Viswanathan Ganesh, V. M. Ajay Krishna, S. Senthilmurugan and S. Hemavathi
Chapter 11 Advanced Converter Topologies for EV Fast Charging
S. Hemavathi, R. Uthirasamy, C. Sharmeela and S. Senthilmurugan
Chapter 12 Systems Optimization of Public Transportation Electrification Using Dynamic
Wireless Charging Technology
Yaseen Alwesabi and Nabil Mohammed
Chapter 13 Telecommunications Connectivity for Electric Transportation Systems:.
Challenges, Technologies, and Solutions
Alberto Sendin
Chapter 14 Smart Control of EV Charging in Power Distribution Grids
Ali Moradi Amani, Samaneh Sadat Sajjadi, Najmeh Bazmohamadi and Mahdi Jalili
Chapter 15 Centralized Supervision and Coordination of Load/Frequency Control
Problems in Networked Multi-Area Power Systems
Alessandro Casavola, Giuseppe Franzè and Francesco Tedesco
Chapter 16 Distributed Supervision and Coordination of Load/Frequency Control
Problems in Networked Multi-Area Power Systems
Alessandro Casavola, Giuseppe Franzè, and Francesco Tedesco
Chapter 17 Integrated Power and Transportation Systems Targeted by False Data
Injection Cyberattacks in a Smart Distribution Network
Ehsan Naderi and Arash Asrari
Chapter 18 Hybrid Power Systems for Smart Marine Power Grids: Demonstration and
Case Study
Meysam Gheisarnejad, Mahdi Mosayebi, Mehdi Rafiei, Jalil Boudjadar and Mohammad Hassan
Khooban
Chapter 19 Distributed Optimization and Its Application in Electricity Grids, Including
Electrical Vehicles
Amir Abolfazl Suratgar and Mohammad Bagher Menhaj
Biography
Hassan Haes Alhelou, Mahdi Jalili