Dr-Rania Gamal.Associate professor at Ministry of Civil Aviation A Member of the National Committee for Artificial Intelligence at the Academy of Scientific Research
About me
I am Dr. Rania Gamal, an associate Professor in the Electrical Power and Machines Department at the Institute of Aviation Engineering and Technology, Egyptian Aviation Academy, Ministry of Civil Aviation. I have more than fifteen years of professional experience in electrical engineering, with a specialization in renewable and solar energy systems. My professional career began in 2008 as a design, installation, and operation engineer for solar energy systems. I later advanced to become the Head of the Solar Energy Sector at the Eastern Company for Tobacco and Cigarettes (S.A.E). Alongside my industrial experience, I held academic positions as a demonstrator and assistant lecturer in several engineering faculties and institutes, eventually earning my PhD. These combined experiences in academia and industry have enabled me to contribute to several major renewable energy projects both in Egypt and abroad. I actively participate in national and international conferences, workshops, and technical committees in the fields of renewable energy, electrical power systems, and electronics. I am known for my commitment, reliability, and ability to work effectively under pressure. I am equally comfortable leading teams or working independently and have extensive experience in leadership, research, and communication. In addition, I possess strong skills in supply chain management. Technically, I am proficient in MATLAB, HOMER, PVSYST, DIALux, AutoCAD, Microsoft Visio, and other industry-standard software used for the analysis, design, and simulation of renewable energy systems. These tools support my work in developing efficient and optimized solutions for modern power systems. My research focuses on the modeling and analysis of power systems that integrate renewable energy resources. I work on developing comprehensive analytical approaches for studying interconnected renewable-based systems. I also use a range of simulation tools to achieve optimal design, control, and performance evaluation of off-grid, hybrid, and grid-connected photovoltaic (PV) systems, both with and without battery storage. Another key aspect of my research is the application of artificial intelligence and optimization techniques to enhance the performance and effectiveness of power system controllers. I also focus on the operation, control, and optimization of smart grids as part of the transition to more sustainable and intelligent power systems. Beyond research, I am deeply committed to improving engineering education through digital transformation. I apply modern computing and internet technologies to enhance teaching methods and promote interactive learning through e-learning platforms. My ongoing efforts include converting traditional course materials into engaging digital formats, in alignment with the objectives of the Higher Education Enhancement Project Fund (HEEPF).
I am Dr. Rania Gamal, an associate Professor in the Electrical Power and Machines Department at the Institute of Aviation Engineering and Technology, Egyptian Aviation Academy, Ministry of Civil Aviation. I have more than fifteen years of professional experience in electrical engineering, with a specialization in renewable and solar energy systems. My professional career began in 2008 as a design, installation, and operation engineer for solar energy systems. I later advanced to become the Head of the Solar Energy Sector at the Eastern Company for Tobacco and Cigarettes (S.A.E). Alongside my industrial experience, I held academic positions as a demonstrator and assistant lecturer in several engineering faculties and institutes, eventually earning my PhD. These combined experiences in academia and industry have enabled me to contribute to several major renewable energy projects both in Egypt and abroad. I actively participate in national and international conferences, workshops, and technical committees in the fields of renewable energy, electrical power systems, and electronics. I am known for my commitment, reliability, and ability to work effectively under pressure. I am equally comfortable leading teams or working independently and have extensive experience in leadership, research, and communication. In addition, I possess strong skills in supply chain management. Technically, I am proficient in MATLAB, HOMER, PVSYST, DIALux, AutoCAD, Microsoft Visio, and other industry-standard software used for the analysis, design, and simulation of renewable energy systems. These tools support my work in developing efficient and optimized solutions for modern power systems. My research focuses on the modeling and analysis of power systems that integrate renewable energy resources. I work on developing comprehensive analytical approaches for studying interconnected renewable-based systems. I also use a range of simulation tools to achieve optimal design, control, and performance evaluation of off-grid, hybrid, and grid-connected photovoltaic (PV) systems, both with and without battery storage. Another key aspect of my research is the application of artificial intelligence and optimization techniques to enhance the performance and effectiveness of power system controllers. I also focus on the operation, control, and optimization of smart grids as part of the transition to more sustainable and intelligent power systems. Beyond research, I am deeply committed to improving engineering education through digital transformation. I apply modern computing and internet technologies to enhance teaching methods and promote interactive learning through e-learning platforms. My ongoing efforts include converting traditional course materials into engaging digital formats, in alignment with the objectives of the Higher Education Enhancement Project Fund (HEEPF).