Mrs. Takwa Hamdi | Energy Engineering | Best Researcher Award
University of Gabes | Tunisia
Mrs. Takwa Hamdi, a PhD student in Mechanical and Energy Engineering at the National Engineering School of Gabes, Tunisia, is a dedicated researcher specializing in advanced combustion modeling and alternative fuels with a strong focus on sustainability and energy innovation. She has quickly established herself as a promising scholar, combining analytical thinking and problem-solving skills with practical teaching and research expertise. Her doctoral research explores the modeling of fuel blends in dual-fuel mode using light alcohols and hydrogen, aimed at advancing low-emission combustion technologies, while her master’s thesis on diesel combustion modeling earned her the distinction of class valedictorian. She has published on computational analysis related to methanol energy ratios in dual-fuel compression ignition engines, demonstrating her ability to contribute meaningfully to the scientific community. Fluent in Arabic, French, and English, she also possesses advanced technical proficiency in software such as ANSYS Forte, Abaqus, Matlab, SolidWorks, Autocad, and Mastercam. Since 2024, she has served as an Adjunct Lecturer at the Higher Institute of Technological Studies of Gabes, teaching courses in mechanical design, welding, CAD, and dismountable assembly processes. Alongside academic pursuits, her interests in travel, cultural exploration, technological innovation, and community volunteering highlight her well-rounded character and dedication to impactful work.
Profile: Orcid
Featured Publications
Hamdi, T., Hamdi, F., Molima, S., Domínguez, V. M., Rodríguez-Fernández, J., Hernández, J. J., & Chrigui, M. (2025, September 23). Numerical investigation of hydrogen substitution ratio effects on spray characteristics, combustion behavior, and emissions in a dual-fuel compression ignition engine. Machines.
Hamdi, T., Hamdi, F., Molima, S., Hernandez, J. J., & Chrigui, M. (2025, July 1). Computational analysis on the effect of methanol energy ratio on the spray and combustion pattern of a dual-fuel compression ignition engine. Journal of Energy Resources Technology, Part A: Sustainable and Renewable Energy.
Molima, S., Hamdi, F., Hamdi, T., Muya, G. T., Mondo, K., Amsini, S., & Chrigui, M. (2025, June). Effects of H₂ substitution on combustion and emissions in ammonia/diesel compression ignition engine. Energy Conversion and Management.