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UNIVERSITY OF BUCHAREST
FACULTY OF PHYSICS Guest
2024-11-23 17:48 |
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Conference: Bucharest University Faculty of Physics 2023 Meeting
Section: Physics and Technology of Renewable and Alternative Energy Sources
Title:
Technical solution for installing the photovoltaic plant on the roof of a building
Authors:
Ștefan DASCĂLU
Affiliation:
1) University of Bucharest, Faculty of Physics, 405 Atomistilor str., PO Box MG-38, Bucharest-Măgurele, Romania
E-mail
dstefan.12.01.97@gmail.com
Keywords:
photovoltaic panels, inverter, installation and analysis
Abstract:
This study presents a technical solution for producing electric energy specifically designed for the Faculty of Physics building. The proposed solution aims to harness renewable energy sources and promote sustainable electricity generation within the facility. The Faculty of Physics building requires a reliable and sustainable source of electric energy to meet its operational needs. To address this requirement, a technical solution leveraging renewable energy technologies is proposed. The proposed solution is the installation of a photovoltaic (PV) system on the building's rooftop, utilizing solar energy to generate electricity. The design phase of the solution involves a comprehensive evaluation of the building's rooftop to assess its suitability for PV installation. Factors such as structural integrity, orientation, shading analysis, and available space are considered to ensure optimal system performance.
The installation process: mounting solar panels onto the rooftop using appropriate support structures or racks, ensuring a secure and weather-resistant installation. The electrical wiring is integrating the PV system with the building's electrical infrastructure and incorporating an inverter to convert the generated solar energy into usable electricity. Adherence to safety protocols and compliance with local electrical codes are paramount throughout the installation. After installation, comprehensive testing and commissioning are conducted to verify its functionality and performance: rigorous checks of electrical connections, power output validation, and assessment of monitoring systems. Routine maintenance and periodic cleaning are essential to optimize the system's efficiency and maximize its lifespan.
Implementing this technical solution offers several benefits for the Faculty of Physics building. By utilizing solar energy, the building can significantly reduce its reliance on conventional fossil fuel-based electricity sources, thereby lowering its environmental impact. The PV system enables the building to generate electricity on-site, potentially resulting in cost savings and promoting energy independence. Furthermore, the longevity of PV systems and their compatibility with energy storage technologies make them a sustainable choice for long-term energy production.
In conclusion, the proposed technical solution involving the installation of a photovoltaic system on the rooftop of the Faculty of Physics building presents a sustainable approach to meet the facility's electric energy requirements. Through careful design, installation, and maintenance, this solution can contribute to the building's energy efficiency goals, reduce environmental footprint, and foster a commitment to renewable energy within the academic institution.
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