Paper Title
Use of Photovoltaic Panels and Fiberglass for Low Heat Transfer and Renewable Energy Generation
Abstract
The integration of photovoltaic panels and fiberglass materials presents a promising solution for sustainable building practices by addressing both energy generation and thermal management. This project explores the application of photovoltaic panels for renewable energy production and fiberglass for its low heat transfer properties in construction. The primary objective is to design and implement a system that harnesses solar energy while simultaneously reducing the thermal load on buildings, thereby enhancing energy efficiency. Photovoltaic panels convert sunlight into electricity, contributing to the energy needs of the structure and reducing reliance on conventional power sources. Fiberglass, with its excellent insulation properties, minimizes heat transfer, maintaining indoor temperatures and reducing the need for artificial heating and cooling. Through a series of experiments and simulations, this project evaluates the performance and feasibility of combining these materials in residential and commercial buildings. The results demonstrate significant energy savings, improved indoor comfort, and a substantial reduction in the carbon footprint, highlighting the potential of this innovative approach for future sustainable construction projects. The research evaluates the performance of this integrated system through a series of simulations and on-site measurements. Results indicate significant improvements in both energy generation and thermal regulation, demonstrating the potential of these technologies to contribute to sustainable building practices. This study provides a model for other educational institutions aiming to reduce their environmental footprint and enhance energy efficiency.
Keywords - Photovoltaic Panels, Fiberglass, Low Heat Transfer, Renewable Energy, Energy Efficiency, Sustainable Building Practices, Solar Energy, Thermal Management, Insulation Properties, Carbon Footprint Reduction, etc.