New Year Offer End Date: 30th April 2024
Program
Electric Vehicle charging Infrastucture
Powering the Future: Building Sustainable EV Charging Solutions
Skills you will gain:
About Program:
The Electric Vehicle Charging Infrastructure workshop explores the fundamentals of EV charging technologies, infrastructure planning, and deployment strategies. Participants will gain insights into the technical, economic, and regulatory aspects of EV charging systems. With a focus on real-world applications, this program equips professionals to contribute to the transition toward sustainable transportation.
Aim: To provide participants with the knowledge and skills to design, implement, and manage efficient Electric Vehicle (EV) charging infrastructure to support the growing adoption of electric mobility.
Program Objectives:
- To introduce participants to the fundamentals of EV charging infrastructure.
- To train participants in designing, planning, and deploying charging systems.
- To explore real-world applications and case studies of successful EV projects.
- To address economic, technical, and regulatory challenges in EV infrastructure development.
- To prepare participants for leadership roles in sustainable transportation and mobility solutions.
What you will learn?
Day 1: Introduction to EV Charging Infrastructure
- Overview of EV Charging Ecosystem
- Types of EV chargers: Level 1, Level 2, and DC fast chargers.
- Key components: Charging stations, power electronics, and grid connectivity.
- EV market trends and demand projections.
- Standards and Regulations
- Global standards for EV chargers (IEC, SAE, and CHAdeMO).
- Safety, interoperability, and communication protocols (OCPP, ISO 15118).
- Grid Implications of EV Charging
- Impact of EV charging on the power grid.
- Load management and peak demand challenges.
Day 2: Planning and Designing EV Charging Infrastructure
- Site Selection and Assessment
- Factors influencing site selection: Accessibility, power availability, and traffic patterns.
- Tools for site feasibility analysis and load forecasting.
- Design Principles for Charging Stations
- Sizing charging infrastructure based on demand.
- Integrating renewable energy sources and energy storage systems.
- Smart charging technologies and demand response systems.
- Economic and Financial Analysis
- Cost breakdown: Equipment, installation, and operation.
- Business models: Pay-per-use, subscription-based, and public-private partnerships (PPP).
- Evaluating ROI and funding options for EV infrastructure projects.
Day 3: Deployment and Future Trends
- Implementation Strategies
- Permitting and regulatory approvals.
- Construction, testing, and commissioning of EV charging stations.
- Maintenance and operational best practices.
- Integration with Smart Grids and IoT
- Using AI and IoT for real-time monitoring and optimization.
- Vehicle-to-Grid (V2G) technology: Bidirectional charging and grid stability.
- Future of EV Charging Infrastructure
- Wireless and ultra-fast charging technologies.
- Policy initiatives and incentives for EV infrastructure growth.
Mentor Profile
Data & AI Architect MNC
View moreFee Plan
INR 1999 /- OR USD 50
Get an e-Certificate of Participation!
Intended For :
- Electrical and energy engineers
- Urban planners and smart city developers
- Entrepreneurs and investors in the EV sector
- Students and researchers in sustainable technologies and transportation
Career Supporting Skills
Program Outcomes
- Comprehensive understanding of EV charging technologies and infrastructure planning
- Ability to design and implement efficient EV charging systems
- Knowledge of economic and regulatory factors influencing EV infrastructure development
- Hands-on experience with tools and strategies for EV infrastructure projects
- Insights into future trends and innovations in EV charging technologies