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Electrical Design of a Floating Photovoltaic Tracking System in the Hof Carmel Water Reservoir
EEE-D-13
Shams Dahly; shams.dahly@gmail.com Hosam Watted; hosamwatted1998@gmail.com
Advisor: Mr. Gal Hania
SCE - Shamoon College of Engineering, Be’er-Sheva
With growing awareness of environmental pollution, the demand for renewable energy is increasing. One of the most promising technologies in this field is floating solar tracking photovoltaic systems, which generate clean electricity from solar energy without taking up land space. The systems also track the sun’s movement throughout the day, maximizing energy production and efficiency. This project focused on designing a floating solar-tracking photovoltaic system connected to the local power grid at Hof Carmel on Israel's seacoast. A detailed system design was carried out, including selecting solar panels, planning their optimal placement and installation in the reservoir, choosing appropriate voltage inverters, and integrating a remote monitoring system. The design emphasized energy efficiency, reliability, and safety, leveraging cutting-edge technologies to enhance system performance.
Keywords: floating, grid connection, photovoltaic system, system design, tracking
Designing an Electrical System for a Multi-Story Office Building
EEE-E-01
Yakov Mihaelov; mihaelov88@gmail.com Sahar Tabib Zada; sahartz1@gmail.com
Advisor: Ms. Liron Leib
SCE - Shamoon College of Engineering, Be’er-Sheva
This project designed the electrical system for a 20-story office building, including a waste-disposal room, elevators, and a commercial floor. The Israel Electric Corporation (IEC) powered the building due to its high-power demands. The project design incorporated primary and secondary low-voltage distribution panels, an uninterruptible power supply (UPS), and a backup generator. The project also addressed planning of the electrical network, the design of the electrical room, and the selection of appropriate components. Attention was given to routine and emergency scenarios, protection measures, fault detection, grounding techniques, safety protocols, compliance with Israeli standards, and optimization of the power factor. This design ensured that the building's electrical infrastructure meets the highest standards of safety, reliability, and efficiency.
Keywords: backup generator, electrical network, grounding, Israeli standards, safety, uninterruptible power supply (UPS)