A Solar-Powered Vehicle: Design And Implementation

^1,2,3,4 College of Engineering and Technology, University of Technology and Applied Sceinces Al Musanah Sultanate of Oman
⁵ Department of EEE, Geethanjali College of Engineering and Technology, Hyderabad, India
⁶ Department of EEE, Teegala Krishna Reddy Engineering College, Hyderabad, India

^* Corresponding author: Shabbier.Sydu@utas.edu.om

Abstract

The design and operation of a solar-powered vehicle are examined in this paper, emphasizing the contribution of this technology to the global shift to sustainable energy sources. With the growing energy demands and environmental concerns, solar power has become an essential resource for solving these issues. Aerodynamic, lightweight designs and well-placed solar panels that effectively absorb sunlight to produce energy are combined in solar-powered vehicles. A significant limitation is addressed by this stored power, which allows for continuous operation even in situations with little sunlight. Air quality is greatly improved, and climate change is aided by solar-powered vehicles, which emit no emissions, in contrast to traditional vehicles that rely on fossil fuels. Decentralized solar energy also improves energy security by lowering dependency on volatile oil markets. This vehicle also has a delivery system and remote-control capability, which makes it possible to transport lightweight objects. A major advancement in mobility solutions, these characteristics highlight the usefulness and affordability of solar-powered transportation. In conclusion, solar-powered vehicles provide a useful and sustainable solution to today’s problems. They set the stage for a sustainable, effective, and flexible transportation future by incorporating remote control and delivery features.