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Power System Design for a Steel Production Plant
EEE-C-01
Ebrahem Zoabi; ibrahzo@ac.sce.ac.il Omar Athamna; omarat1@ac.sce.ac.il
Advisor: Dr. Alberto Bernstein
SCE - Shamoon College of Engineering, Be'er-Sheva
In this project, we designed an electrical system for a steel production plant. The project addressed the power demands of both high-voltage and low-voltage consumers in the plant, while considering the safety of the workers. Very sensitive systems are installed in such a facility, so a reliable power supply is essential. An uninterruptible power supply (UPS) and a generator were used to ensure stable voltage under all conditions; this allows continued operation in the event of a power outage, as well as protecting the equipment from damage and failures. The project was designed to comply with all currently accepted Israeli and international standards. Before operating the facility, approval of all statutory elements was obtained during the initial and final planning, ensuring high safety levels and energy efficiency.
Keywords: generator, power outage, uninterruptible power supply (UPS)
Design of Electricity Power System for Azrieli Town, Tel Aviv
EEE-C-02
Shiran Alice Siman Tov; shiransi97@gmail.com Rinat Magira; rinatmagira@gmail.com
Advisor: Mr. Alex Portnov
SCE - Shamoon College of Engineering, Be’er-Sheva
This project involved the design of a complete electrical power system for the parking facility of Azrieli Town, a multi-use high-rise in Tel Aviv with five underground parking levels. We developed both high- voltage and low-voltage distribution networks, including the configuration of transformer stations, voltage-drop calculations, and short-circuit current analysis. The design also included lighting systems, earthing infrastructure, protection schemes, and emergency operation strategies, all following Israeli electrical standards. Special attention was given to load flow optimization, redundancy, selectivity, and coordination between components. Equipment specifications and placement were tailored to the architectural layout. Simulations were performed to verify the design and ensure a safe, reliable, and energy-efficient electrical infrastructure for the facility.
Keywords: electrical design, grounding system, short-circuit calculation, underground parking, voltage drop