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Electrical Facility Design for Energy Supply in the Technion
EEE-D-09
Fabin Peleg; fabinp1206@gmail.com Liad Vizel; liadvizel96@gmail.com
Advisor: Mr. Aviel Hakshur
SCE - Shamoon College of Engineering, Be'er-Sheva
This project involved the design of an electrical and control system for the Preclinical Research Institute at the Technion (Israel Institute of Technology). The Institute supports essential biomedical research to save lives and improve the quality of life. The project aimed to establish a reliable, efficient, and cost-effective electrical system, aligned with the Institute's needs and complying with the Electrical Law and international standards. The design included a review of electrical equipment, planning for high-voltage and low-voltage power supply, single-line diagrams, cable cross-sectional area calculations, electrical protections, and grounding. Additionally, the design prioritized backup power for critical systems, instrumentation and control specifications, lighting control, and power factor improvement.
Keywords: backup power for critical systems, international standards, system design
Design of an Electrical Facility for a Peanut Production Plant with Solar Power Generation
EEE-D-10
Yousef Masarwe; yousema1@ac.sce.ac.il Majd Asaly; majdas@ac.sce.ac.il
Advisor: Mr. Aviel Hakshur
SCE - Shamoon College of Engineering, Be’er-Sheva
This engineering project involved the design of an advanced power system for a peanut processing facility in Hadera. The system integrated a high-voltage connection from the Israel Electric Company, a rooftop photovoltaic system, and EV charging stations. The design followed Israeli and international electrical standards and included transformers, distribution panels, grounding, protection against electric shock, lighting, and process control. The solar energy system supplies internal loads and EV chargers. The project emphasized energy efficiency, power factor improvement, and sustainable, reliable operation. It applied high-voltage and low-voltage principles and offered a comprehensive solution aligned with modern engineering and environmental standards, to ensure safe, efficient, and future-ready operation.
Keywords: electric vehicle charging, high voltage, photovoltaic system, power systems design