This project focuses on developing a Solar Wireless Electric Vehicle Charging System that utilizes the concept of mutual induction. The system aims to provide an efficient and ecofriendly method of charging electric vehicles without the need for cables and wires, reducingthe risks associated with electrical connections. The system will consist of a solar panel array that will generate clean and renewable energy to power the charging station. The charging station will utilize the concept of mutual induction, where the magnetic fields produced by the charging station will induce an electrical current in the receiving coil installed in the electric vehicle.
Objectives
• The aim of this project is to design and implement a System that can efficiently and wireless charge electric vehicles using renewable energy sources such as solar power.
• This project aims to demonstrate the feasibility of using mutual induction as a wireless charging method for electric vehicles, which eliminates the need for physical connections and allows for seamless charging.
• The project also aims to evaluate the system’s performance and efficiency under various conditions to determine its effectiveness in meeting the requirements of electric vehicle charging.
• Ultimately, the Solar Wireless Electric Vehicle Charging System aims to provide a sustainable and practical solution for charging electric vehicles, reducing the dependence on non-renewable energy sources, and minimizing the environmental impact of electricvehicles.
Socio-Economic Benefit
1. Affordable and Clean Energy (SDG 7)
2. Industry, Innovation and Infrastructure (SDG 9)
3. Sustainable Cities and Communities (SDG 11)
4. Climate Action (SDG 13)
5. Partnerships for the Goals (SDG 17)
Methodologies
The research includes devising possible improvements in the EV sector and the basic purpose of this project is to charge an EV using wireless station We are taking the solar energy (which will be stored in dc), the battery of 12 Volt will get charged using solar panel. We are operating our voltage regulator using that DC source, the use of diode for uni directional flow of current is also there, we have also used filter capacitor to eradicate any AC factor. This DC will operate our micro controller on 9v and relay will get 5Volt. The relay will turn on when the car is detected by IR sensor. To perform the mutual induction that DC will be then inverted to AC with the help of inverter. The primary coil is already placed and will get energized by the AC. The secondary coil will be placed on it (it will be under our EV) the car will get charged by the method of mutual induction. To charge the battery of the car, we need the AC to get converted back into DC, for this purpose we are using rectifier. The purpose of the Arduino(on car) is to show us the voltages receiving by capacitor in car circuit. For that we are using voltage sensor to measure the voltage All the information will be shown on the LCD
Outcome
1. By integrating solar energy into the wireless charging system, the project has provided a sustainable and clean energy solution for electric vehicle charging.
2. The wireless charging system eliminates the need for physical connections, offering a convenient and user-friendly charging experience for electric vehicle owners.
3. The project's wireless charging system enables electric vehicle owners to charge their vehicles on the go, enhancing mobility and flexibility.
4. The integration of solar energy and wireless charging technology results in a cost-effective charging solution for electric vehicles.
5. The project has demonstrated the scalability and adaptability of the wireless charging system.
6. By showcasing the feasibility and effectiveness of integrating solar energy into electric vehicle charging, the project has contributed to the transition towards a renewable energy economy.
