photovoltaic panel and then actuating the wiper using a DC motor. This design is highly effective in improving the efficiency ofthe photovoltaic system. Dual Keywords: Axis Solar Tracking
axis and Dual Axis Solar Tracker this paper, Dual Axis Tracker can track the sun both East to West and North to South has two degrees of freedom that acts as axes of rota-tion.The two
The solar panel moves in the direction of light sensed by LDR and it moves in both horizontal and vertical plane with different angle at different intensity of light. The result of the project is given
So, an improved Photovoltaic system which is based on Dual axis solar tracking and Maximum PowerPoint is developed by . Using the tracking method, the competence of the photovoltaic panel is improved. The maximum power point tracking method is used to progress the competence of the PV system.
Overall, the PV system integration of a dual-axis solar tracking system with three 335-watt panels shows the potential for higher power output and energy efficiency. This configuration offers a viable means of maximizing the advantages of renewable energy sources and efficiently harnessing solar energy. 1. Introduction
A dual-axis solar tracking system (DAST) was made of three 335-watt panels (each generating 1 kilowatt of power) in a PV system. Three 335-watt panels were used to successfully execute the dual-axis solar tracking system, with each panel contributing to the PV system’s overall power generation of 1 kilowatt.
3. METHODOLOGY To compare the performance of the tracking systems, three nominally identical PV systems were installed: a dual axis tracking system, a passive 1-axis tracking system and a system mounted at a fixed tilt = latitude angle. To have a maximum power output, the PV array needs to capture as much irradiance as possible.
The dual-axis solar tracking system’s energy production results are compared to a corrected Photovoltaic system. The solar tracking system is discovered to be capable of orienting itself autonomously with an accuracy of 0.5° using the path of the sun prediction algorithms.
On the surface, a dual-axis tracking type generates 30% more power than a fixed-type, according to general knowledge . By using a single-axis approach the solar tracking technique could be developed, at the same time higher accuracy model is required for the dual-axis method.
