Ahmed A. Hamada
Ahmed A. Hamada
Ph.D. Student
Ph.D. Student
As a researcher and PhD student in the Department of Mechanical Engineering at The University of Texas at Dallas and transferred from Texas A&M University, I have seven years of graduate experience conducting cutting-edge research in Aerodynamics, Hydrodynamics, Turbulence Modeling, Fluid-Structure Interaction (FSI), Object-Oriented Programming, High-Performance Computing (HPC), Shape Optimization, and Deep Learning. My bachelor of science and master's degrees are in Aerospace Engineering from Cairo University, Egypt.
As a researcher and PhD student in the Department of Mechanical Engineering at The University of Texas at Dallas and transferred from Texas A&M University, I have seven years of graduate experience conducting cutting-edge research in Aerodynamics, Hydrodynamics, Turbulence Modeling, Fluid-Structure Interaction (FSI), Object-Oriented Programming, High-Performance Computing (HPC), Shape Optimization, and Deep Learning. My bachelor of science and master's degrees are in Aerospace Engineering from Cairo University, Egypt.
I had an amazing opportunity to prepare the material and teach the hydrodynamics course in the Department of Ocean Engineering at Texas A&M University during the Spring semester of 2024. Seeing the students' enthusiasm for hydrodynamics has been nothing short of inspiring. Their eagerness to learn and tackle the complexities of fluid dynamics reminds me why I love teaching in the first place.
I had an amazing opportunity to prepare the material and teach the hydrodynamics course in the Department of Ocean Engineering at Texas A&M University during the Spring semester of 2024. Seeing the students' enthusiasm for hydrodynamics has been nothing short of inspiring. Their eagerness to learn and tackle the complexities of fluid dynamics reminds me why I love teaching in the first place.
I have also gained valuable industry experience as a research development engineer at Front Energies, where I worked on a project that involved coupling mooring dynamics and computational fluid dynamics for industrial applications.
I have also gained valuable industry experience as a research development engineer at Front Energies, where I worked on a project that involved coupling mooring dynamics and computational fluid dynamics for industrial applications.
My mission is to advance knowledge in the turbulent flows associated with oceanic renewable energy applications, specifically Offshore Wind Turbines (OWTs). I value collaboration, curiosity, and creativity, and I always seek to join researchers who share these values and challenge me to grow as a researcher.
My mission is to advance knowledge in the turbulent flows associated with oceanic renewable energy applications, specifically Offshore Wind Turbines (OWTs). I value collaboration, curiosity, and creativity, and I always seek to join researchers who share these values and challenge me to grow as a researcher.
Disclaimer: Some figures are sourced from previous publications.
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