What re the benefits of Portable Solar Tracking Systemread carefully the attach file for details explanations of the paper format. Summary of the project: A long-term source of energy, solar energy can no doubt provide us with reliable power. There has been relatively little research conducted on making photovoltaic cells cost-effective, despite the necessity to harness this energy. Sunlight is converted directly into electricity by photovoltaic cells without the need for residual elements that can pollute the environment. Accordingly, there is a belief that they may provide mankind with an energy source. When solar energy is converted into electricity by solar cells, maximum efficiency is achieved when the panels are held perpendicular to the sun′s rays. This is where tracking systems come into play. Solar Tracker devices are used to change the orientation of the Photovoltaic panels towards the sun to capture maximum energy. The main purpose and goal of this project is to achieve a high level of clean energy, while maintaining portability with a large solar tracking system. With the use of portable tracking systems, it may be possible to prevent scooters from dying due to low battery energy during peak periods. As soon as peak hour begins, this system could supply energy to these scooters to keep them fully charged and ready for customers to use. Rather than being confined to a stationary location, this system will be portable. In addition to providing 400 watts of power at 24 volts, the system will also provide 200 watts of power at 48 volts, thereby making it a practical solution for both commercial and individual applications. Due to this, this system is superior to every other system we have examined. A custom manufactured frame, as well as four solar panels will be utilized in this system to make it more economical. In addition to two actuators and a 24 Volt motor, the system is controlled by an Arduino Microcontroller, which is programmed. Furthermore, the design will incorporate a Photosensitive Sensor Module Light Detention. These sensors will detect changes in the intensity of light in the environment. It is intended that this sensor, together with an Arduino Microcontroller program as well as actuators and motors, will be used to move the solar panels in the direction of the sun without the assistance of a human. The electricity generated by the solar panels will be converted from direct current to alternating current using a converter. As a result, we will be able to power our electronic devices.
