Analyzing the Outdoor Performance of Different Types of PV Module Technologies

¹ Department of EEE, Vardhaman College of Engineering, Hyderabad, TS 501218, India
² Department of EEE, Vignana Bharathi Institute of Technology, Ghatkesar, TS, India

^* Corresponding author: praveenbala038@gmail.com

Abstract

The purpose of the extension project is to find out the practical applicability and performance of various solar module innovations in real outdoor conditions. By systematically measuring voltage and monitoring electricity production, the research aims to produce valuable research data that can inform and guide local and global stakeholders in the optimization and implementation of various solar energy innovations. The research focuses on the comparative analysis of three visible PV module types - monocrystalline, polycrystalline and amorphous silicon. The study focuses on collecting daily routine performance parameters of these modules to provide meaningful and actionable information. The project recognizes the importance of evaluating solar panel technologies in real outdoor environments, as performance in controlled laboratory environments may not accurately reflect real-world conditions. Therefore, the research uses a comprehensive methodology that combines rigorous data collection techniques with advanced monitoring systems. To ensure the reliability and validity of the findings, a large experimental setup will be established in an outdoor environment that promotes the collection of solar energy. Each type of PV module is strategically placed to receive optimal sunlight throughout the day, minimizing potential shading and obstructions. An advanced data acquisition system continuously measures and records the voltage readings of the modules. In addition, the system closely monitors power generation to capture performance fluctuations over time.