Planning a Photovoltaic Power Plant in ''Neot Hovav''
EEE-E-02
Husein Abu salah; husen.97@hotmail.com Mohannad Marie; mohanma@ac.sce.ac.il
Advisor: Mr. Gal Hania
SCE - Shamoon College of Engineering, Be’er-Sheva
This project designed a 3-megawatt photovoltaic (PV) solar power plant located in Neot Hovav in southern Israel, a region characterized by high solar irradiance. The system is based on the photoelectric effect, converting sunlight into electricity through semiconducting materials. It generates direct current (DC), which is converted into alternating current (AC) to meet grid requirements. The project included comprehensive planning, component selection, and performance analysis. In addition, experiments were conducted to identify technical challenges and optimize system efficiency. The initiative aimed to support Israel’s transition to renewable energy, reduce reliance on fossil fuels, and promote sustainable environmental practices.
Keywords: photoelectric effect, renewable energy, solar power, system planning
Electrical System Design for Community Sports Center
EEE-E-03
Artyom Kazartsev; kazartsevartum97@gmail.com Gleb Kaminsky; glebkam7@gmail.com
Advisor: Mr. Aviel Hakshur
SCE - Shamoon College of Engineering, Be'er–Sheva
Sports centers serve as essential community spaces that promote health, fitness, and social interaction. Designing a modern facility requires integrating advanced electrical systems that ensure safety, comfort, and energy efficiency. This project executed the electrical design of a 2,500 m2 sports center, including interior and exterior lighting, heating of an Olympic-sized pool, a machine room, and office spaces. The design involved a detailed load analysis, appropriate supply methods, and conductor protection based on international standards. Energy efficiency and power quality were enhanced using capacitor banks and resonance filters. The goal was to establish a reliable, safe, and cost-effective infrastructure tailored to diverse user needs.
Keywords: electrical systems, energy efficiency, lighting design, power quality
Book of Abstracts | 2025
 87