Prof. Dr. Georgi Todorov 🎓 holds both a PhD and a DSc in Engineering from the Technical University of Sofia, where he currently serves as a professor 🧑‍🏫. From 2010 to 2019, he was the Dean of the Faculty of Industrial Technology 🏛️. He is the Head of the Center for Virtual Engineering 🧪 and the Founder and Head of the CAD/CAM/CAE in Industry Laboratory 🧰. In addition, he leads the 3DCLab – Fast Prototyping and 3D Creativity Lab at Sofia Tech Park 🧠. Prof. Todorov has spearheaded over 50 international industrial projects 🌍 with renowned companies such as Chevron, Renault, VW, and Sensata. His key areas of expertise include 3D technologies, FEM analysis, virtual reality, additive manufacturing, and product/process optimization 📊.

📚 Professional Development :

Prof. Todorov has pursued specialized training worldwide to strengthen his expertise 🌐📘. Between 1986–1987, he trained in robotics and numerical methods 🤖➗. In 1993 and 1994, he specialized in engineering analysis at Staffordshire University, UK 🇬🇧🔍. Later, in 2003, he advanced his knowledge in Rapid Prototyping/Tooling at AOTS in Japan 🇯🇵⚙️. These global experiences helped him build cutting-edge capabilities in digital design, additive manufacturing, and virtual engineering 🧑‍💻🖨️. His international exposure and collaboration with industry giants enable him to lead interdisciplinary innovation and applied research across sectors 🚀🏗️.

🔬 Research Focus :

Prof. Todorov’s research focuses on advanced digital engineering technologies, including 3D modeling, additive manufacturing, and virtual product development 🖨️🔍. His expertise extends to FEM (Finite Element Method) analysis 🧮, Virtual and Augmented Reality for engineering visualization 🥽, and 3D scanning/metrology 📏. He emphasizes New Product Development (NPD), rapid prototyping/tooling, and smart product/process optimization 🔧📈. His work supports both academic excellence and industrial application across automotive, electronics, and mechanical sectors 🚗⚡🔩. He is deeply engaged in managing complex R&D projects, ensuring practical impact and innovation in the engineering ecosystem 🧑‍🔬🌐.

🏆 Awards and Honors :

Prof. Dr. Georgi Todorov has received numerous prestigious awards throughout his distinguished career. In 2019, he was honored with the Dean Emeritus Recognition 🏅 by the Faculty of Industrial Technology at TU-Sofia. He has earned Global Collaboration Honors 🌍 from industrial partners across the USA, France, Germany, Taiwan, and the UK, acknowledging his commitment to international cooperation. His outstanding contributions to applied research and prototyping have been recognized through several Innovation Leadership Awards 🧪. He also received accolades for Best Industrial Project Execution 🛠️ for successful collaborations with Chevron, VW, and Renault. Additionally, Sofia Tech Park awarded him for his pioneering leadership in 3DCLab and advancing technological innovation 🎖️.

Publication Top Notes :

1. Evaluation of the Performance of Optimized Horizontal-Axis Hydrokinetic Turbines

• Citation: Iliev, R., Todorov, G. D., Kamberov, K., & Zlatev, B. (2025). Evaluation of the Performance of Optimized Horizontal-Axis Hydrokinetic Turbines. Water, 17(10), 1532. 

• Summary: This study focuses on the performance assessment of optimized horizontal-axis hydrokinetic turbines. The authors analyze various design parameters and their impact on turbine efficiency, providing insights into the optimization of turbine performance in hydrokinetic energy applications.

2. Failure Modes and Effect Analysis of Turbine Units of Pumped Hydro-Energy Storage Systems

• Citation: Todorov, G. D., Kralov, I., Kamberov, K., Sofronov, Y., Zlatev, B., & Zahariev, E. (2025). Failure Modes and Effect Analysis of Turbine Units of Pumped Hydro-Energy Storage Systems. Energies, 18(8), 1885. 

• Summary: The paper presents a comprehensive failure modes and effects analysis (FMEA) of turbine units in pumped hydro-energy storage systems. It identifies potential failure points, assesses their impact, and suggests mitigation strategies to enhance system reliability and performance.

3. Dynamics of a Self-Excited Vibrating Thermal Energy Harvester with Shape Memory Alloys and PVDF Cantilevers

• Citation: Yotov, I., Todorov, G. D., Gieva, E., & Todorov, T. (2025). Dynamics of a Self-Excited Vibrating Thermal Energy Harvester with Shape Memory Alloys and PVDF Cantilevers. Actuators, 14(1), 8. 

• Summary: This research introduces a novel thermal energy harvester that converts heat into mechanical vibrations using shape memory alloys (SMA) and polyvinylidene fluoride (PVDF) cantilevers. The device leverages the thermomechanical properties of SMA to induce vibrations, which are then converted into electrical energy by PVDF elements. Experimental results demonstrate the harvester’s potential for low-power applications.

4. Virtual Prototyping-Based Development of Stepper Motor Design

• Citation: Kamberov, K., Todorov, G. D., & Zlatev, B. (2024). Virtual Prototyping-Based Development of Stepper Motor Design. Actuators, 13(12), 512. 

• Summary: The authors present a methodology combining virtual and physical prototyping for the development of stepper motors. By integrating simulations at various design stages, the approach enhances design accuracy and reduces development time. The study showcases the methodology’s application in designing a stepper motor for hydraulic valve systems.MDPI

5. Investigation and Identification of the Causes of the Unprecedented Accident at the “Chaira” Pumped Hydroelectric Energy Storage

• Citation: Todorov, G. D., Kralov, I., Kamberov, K., Sofronov, Y., Zlatev, B., & Zahariev, E. (2024). Investigation and Identification of the Causes of the Unprecedented Accident at the “Chaira” Pumped Hydroelectric Energy Storage. Water, 16(23), 3393. 

• Summary: This paper analyzes a significant failure in the “Chaira” pumped hydroelectric energy storage facility, focusing on the destruction of stay vanes in Hydraulic Unit No. 4. Through virtual prototyping and finite element analysis, the study identifies low-cycle fatigue as the primary cause and recommends measures for rehabilitation and future prevention.

Conclusion:

Prof. Dr. Georgi Todorov stands out as a visionary researcher whose work has significantly influenced both academic scholarship and industrial advancement. His unique ability to translate theoretical research into impactful industrial applications makes him a highly deserving candidate for the Best Researcher Award. His sustained contributions to engineering science, technological innovation, and research leadership embody the spirit of excellence that this award seeks to recognize.