Electrical Network Design for a Poultry Farm
EEE-A-03
Gal Ahrak; galahrak7@gmail.com Hadar Sabag; hadarsabag1000@gmail.com
Advisor: Ms. Tatyana Chovnik
SCE - Shamoon College of Engineering, Ashdod
This project designed an electrical network for a poultry farm in Sde David, a moshav in southern Israel. The project integrated a high-voltage power supply from the Israel Electric Corporation (IEC) and high-voltage switchgear, based on load calculations, followed by selection of transformer, electrical panels, cables, and circuit breakers, with voltage drop and short-circuit current analysis. We studied the Israeli electrical grid, confirmed equipment choices through detailed calculations, and assessed consumer requirements for cost, protection, efficiency, and durability. Each project stage was supported by theoretical research and an extensive literature survey. The design complied with Israeli electricity regulations, addressing challenges and solutions for electrical networks in open environments that house animals.
Keywords: electrical network, high-voltage, power supply, poultry farm
Energy Storage and Electrical System Planning for Eshkol Unit 12 Electrical Substation in Ashdod
EEE-A-04
Lior Borochov; liorborochov15@gmail.com Lidor Shmaya; lidorshmaya@gmail.com
Advisor: Mr. Herman Steiner
SCE - Shamoon College of Engineering, Ashdod
The Israeli power grid operates in a ring topology, where electricity is generated at power plants, transmitted through substations, and supplied to consumers. This project focused on designing the internal electrical system for the Eshkol 12 power generation unit in Ashdod. The central challenge was to avoid blackout scenarios, due to a lack of power supply from the main grid. To ensure continuous operation, energy storage solutions such as batteries and advanced storage systems were examined. The study included planning high-voltage and low-voltage systems, power transformers, and auxiliary systems. The project integrated electrical regulations and engineering standards to optimize efficiency, reliability, and safety.
Keywords: blackout, energy storage, power generation, power grid, power systems engineering
Book of Abstracts | 2025
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