I am an experienced electrical engineer with a robust background in energy systems and sustainable design. My academic journey began with a Bachelor's degree in Electrical Engineering. To further enhance my expertise, I pursued multiple Master's degrees: an MSc in Management and Optimization of Energy Systems, an MSc in Environmental Protection & Sustainable Development, an MSc in Artificial Intelligence & Deep Learning, and an MSc in Processes & Advanced Materials Technology.
Professionally, I have led numerous projects, where I optimized electrical, lighting, and automation systems, achieving energy reductions. I have also managed teams, provided expert guidance, and collaborated with engineers, architects and designers to integrate cutting-edge technology into sustainable structures.
Currently, I am embarking on the FlowDyn PhD project at Munster Technological University (MTU), focusing on the design, material, and structural testing of dynamic cables. This research aims to enhance the durability and efficiency of underwater cables in renewable energy systems. My career has been defined by a commitment to innovation, efficiency, and environmental stewardship, and I am eager to contribute to advancements in sustainable energy technology.