PTEE3030 Grid Integration of Electric Vehicles Syllabus

PTEE3030 Grid Integration of Electric Vehicles Syllabus:

PTEE3030 Grid Integration of Electric Vehicles Syllabus – Anna University Part time Regulation 2023

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

Defining Vehicle to Grid (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

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

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

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

Introduction – Machine to Machine (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
SKILL DEVELOPMENT ACTIVITIES (Group Seminar/Mini Project/Assignment/Content Preparation / Quiz/
Surprise Test / etc) 10

1. Simulation of connecting three phase inverter to the grid.
2. Simulate and analyse the power quality issues of V2G systems
3. Design and simulate battery management system for smart grid with distributed generation.

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, Vehicleto-Grid A Sociotechnical Transition Beyond Electric Mobility, 2019, 1st Edition.