TIEE3028 Syllabus - Grid Integration Of Electric Vehicles - 2022 Regulation Anna University

TIEE3028 Syllabus - Grid Integration Of Electric Vehicles - 2022 Regulation Anna University

TIEE3028	GRID INTEGRATION OF ELECTRIC VEHICLES	L T P C

3003

COURSE OBJECTIVES:

• To know the basic details of V2G
• To study the benefits & challenges of V2G
• To learn EV & V2G on the smart grids renewable energy systems
• To know the grid integration

UNIT I	DEFINITION, And STATUS Of V2G	(7+2 Skill) 9

Defining V2G - History and Development of V2G. Incorporating V2G to the EV, Auditing and Metering , V2G in Practice , V2G, Power Markets and Applications . Electricity Markets and V2G Suitability , Long-Term Storage, Renewable Energy, and Other Grid Applications , Beyond the Grid: Other Concepts Related to V2G.

UNIT II	BENEFITS AND CHALLENGES OF V2G	(7+2 Skill) 9

Benefits of V2G, Technical Benefits: Storage Superiority and Grid Efficiency, Economic Benefits: EV Owners and Societal Savings, Environment and Health Benefits: Sustainability in Electricity and Transport, Other Benefits.

UNIT III	CHALLENGES TO V2G	(7+2 Skill) 9

Technical Challenges-Battery Degradation, Charger Efficiency, Aggregation and Communication, V2G in a Digital Society. The Economic and Business Challenges to V2G - Evaluating V2G COsts and Revenues , EV COsts and Benefits , Adding V2G COsts and Benefits , Additional V2G COsts , The Evolving Nature of V2G COsts and Benefits. Regulatory and Political Challenges to V2G , V2G and Regulatory Frameworks , Market Design Challenges. Other V2G Regulatory and Legal Challenges.

UNIT IV	IMPACT OF EV AND V2G ON THE SMART GRID AND RENEWABLE ENERGY SYSTEMS	(7+2 Skill) 9

Introduction - Types of Electric Vehicles - Motor Vehicle Ownership and EV Migration - Impact of Estimated EVs on Electrical Network - Impact on Drivers and the Smart Grid - Standardization and Plug-and-Play - IEC 61850 Communication Standard and IEC 61850-7-420 Extension.

UNIT V	GRID INTEGRATION AND MANAGEMENT OF EVS	(7+2 Skill) 9

Introduction-M2M in distributed energy management systems - M2M communication for EVs - M2M communication architecture (3GPP) - Electric vehicle data logging - Scalability of electric vehicles - M2M communication with scheduling.

TOTAL: 45 PERIODS

COURSE OUTCOMES: Upon completion of the course, students will be able to:

CO1 : Explain the concepts related with V2G
CO2 : Study the grid connection of 3 phase Q inverter
CO3 : Explain the technical, economics. business, regulatory & political challenges related with V2G
CO4 : Demonstrate the impact of EV and V2G on smart grid and renewable energy system
CO5 : Explain the concept of grid integration and management of EVs.

REFERENCES:

1. Advanced Electric Drive Vehicles, Ali Emadi, CRC Press 2017, 1st Edition.
2. Plug In Electric Vehicles in Smart Grids, Charging Strategies, Sumedha Rajakaruna , Farhad Shahnia and Arindam Ghosh,Springer,2015, 1st Edition.
3. ICT for Electric Vehicle Integration with the Smart Grid, Nand Kishor 1; Jesus Fraile-Ardanuy, IET 2020, 1st Edition.
4. Vehicle-to-Grid: Linking Electric Vehicles to the Smart Grid, Junwei Lu and Jahangir Hossain, IET 2015, 1st Edition.
5. Lance Noel · Gerardo Zarazua de Rubens Johannes Kester · Benjamin K. Sovacool, Vehicle- to-Grid A Sociotechnical Transition Beyond Electric Mobility, 2019, 1st Edition.