Journal of Thermal Engineering and Applications

Each nation is moving more and more towards renewable energy sources like solar and wind power nowadays. Many nations throughout the world continue to use cars that are powered by fuels like petrol and diesel. This type of car emits a dangerous amount of CO2. As a result, the planet warms up. We therefore developed a concept called "Solar and Wind Power Based Electric" to prevent this. Fuel engines will not be used to power this vehicle. "Solar and Wind Power Based Electric" includes parts for wind assembly, solar plates, batteries, car framework, motors, and indicators, among others. Since it uses energy that comes from renewable sources like solar and wind, the "Solar and Wind Power Based Electric Vehicle" is completely eco-friendly. Solar and wind power will produce energy, which is going to be preserved by batteries. Electric motors will be powered by batteries. Car tires will receive mechanical energy from such electric motors. In this manner, we have operated a vehicle while utilizing renewable energy sources.

P. Sujidha, A. Usha, R. Niraimathi, S. Chitra Devi, A. Manjula. Solar and Wind Powered Electric Vehicle, FEB-2018. International Journal for Modern Trends in Science and Technology, 8(02): 184- 187, 2022

Kushaal H. N., Giridhar R., Pavan Kumar H. M, Santhosh K., Dr. Vidya H. A., G Jayachitra. Solar and Wind Powered Hybrid Energy Vehicle, International Journal of Scientific Development and Research. AUG-2017, Volume 2, Issue 8, 62-65.

R. Chedid Akiki and S. Rahman, A decision support technique for the design of the hybrid solar-wind power systems. IEEE Transactions on Energy Conversion, 13(1), 1998, 76-83.

D. Fernando, Bianchi, Harnan De Battista, J.M. Ricardo, Wind turbine control system. Advances in industrial control series, Springer, New York. 2007, 2007th ed.

Dihrab, S.S. And Sopian, K.‚ Electricity generation of hybrid PV/wind systems in Iraq‛, Renewable Energy, Vol.35, pp. 1303-1307, 2010.

R. Yokoyama, K. Ito, and Y. Yuasa, "Multiobjective optimal Unit Sizing of Hybrid Power Generation Systems Utilizing Photovoltaic and Wind Energy", Int. Journal of Solar Energy Engineering, 1994. 116, (4): 167-173.

Elhadidy, M.A., and Shaahid, S.M. ‚Promoting applications of hybrid (wind + photovoltaic + diesel +battery) power systems in hot regions’, Renewable Energy, Vol. 29, No. 4, pp. 517-528, 2004.

E. Crousillat, P. Dorfner, P. Alvarado, and H. Merill, "Conflicting Objectives and Risk in Power Systems Planning", IEEE Trans. On Power Systems, vol. 8, no. 3, 1993.

R. Ramanathan and L. S. Ganesh, "A Multi-objective Programming Approach to Energy Resource Allocation Problems", Int. Journal of Energy Research, vol. 17, no. 2, April-June 1993.

A.R Musgrove, "The optimization of Hybrid Energy Conversion Systems Using the Dynamic Programming Model RAPSODY", Int. Journal of Energy Research, vol. 12, 1988.