This report is a product of project entitled "Automatic photovoltaic solar panel cleaning system" The aim of this project is to design an innovative cleaning solution for photovoltaic solar panels in solar power plants. The accumulation of dust and debris on solar cells significantly reduces the efficiency of solar panels, leading to decreased energy output. To address this issue, an automated cleaning robot is developed to remove the accumulated dirt and maintain optimal performance of the solar panels.

The cleaning robot is equipped with intelligent sensor ultrasonic sensor to detect position of robot, DIY Remote Control Tank Car for moving parts and water tank, Arduino Uno work as microcontroller of system, 12Dc recharge battery for supply that robot and rubber material for cleaning purpose on dirty areas on the solar panels to effectively remove dust, grime, and other contaminants. The use of water ensures thorough cleaning without causing damage to the delicate solar cells. The robot's movements are optimized to ensure minimal disruption to the solar panel array and maximum cleaning efficiency.

The system's effectiveness is further enhanced by incorporating real-time monitoring and data analysis. The robot is corporate with sensors that measure the performance of the solar panels before and after cleaning, allowing for continuous assessment of its efficacy. This data helps in optimizing cleaning schedules, and predicting maintenance requirements.

The automatic photovoltaic solar panel cleaning system offers several advantages, including increased energy output, improved panel lifespan, and reduced maintenance costs. By maintaining the cleanliness of solar panels, the system optimizes energy generation and contributes to the sustainability and efficiency of solar power plants.

In conclusion, the automatic photovoltaic solar panel cleaning system presented in this project offers an innovative and efficient solution to address the issue of dust and debris accumulation on solar panels. The integration of advanced technologies and autonomous operation ensures effective cleaning while minimizing labor and maintenance requirements. This system has the potential to significantly enhance the performance and longevity of solar power plants, making renewable energy generation more reliable and sustainable.