Rabat Metropolitan Area
I am currently pursuing a Master's Degree in Electrical Engineering and Embedded Systems with more focus on Embedded Systems. Embedded Systems acts as a bridge between hardware and software to build intelligent systems that drive efficiency and sustainability. Currently advancing my expertise in this program, with a sharp focus on real-time processing, IoT architectures, and energy-optimized design. My foundation as an Electrical and Industrial Systems Engineer gives me a dual perspective: I understand both the granular details of circuit design and the large-scale optimization of industrial processes. I am passionate about applying this integrated skillset to the renewable energy sector more especially in smart grid technology, energy management systems, or the embedded control of sustainable infrastructure.
The project was focused on "Power Factor Improvement of the Central Electrical System Supplying Mbrouka Farm." The farm's system had been using a fixed capacitor bank, which caused transformer damage due to high voltage during low reactive power demand. Eventually, low power factor as the reactive power demand increase due to the internal degradation of inductive loads. To address this, we proposed the implementation of an automatic capacitor bank with the following measures: - Analyzed the load profile and energy consumption for 2024/2025 to assess the farm's requirements. - Performed power balance calculations and determined a 150 kVAR automatic capacitor bank, distributed in smaller portions. - Proposed the types of Power Factor controllers, fuses, capacitor-duty contacts, electrical cables, and circuit breakers based on proper sizing. - Conducted electrical design, modeling, and analysis using AutoCAD software. - Used Excel for detailed energy consumption calculations and reactive power compensation. - Supported the business project team during the installation phase, recommending safety measures for a smooth implementation.