Abd El-Fattah Omran | Renewable energy | Best Researcher Award

Dr. Abd El-Fattah Omran | Renewable energy | Best Researcher Award

Doctorate at ERI, Egypt

Dr. Abd El-Fattah Omran is a researcher with a Ph.D. in electrical engineering from Cairo University, specializing in renewable energy technologies, photovoltaic systems, and electrical power and control engineering. He has extensive experience working in various roles, including as a researcher and assistant researcher at the Electronics Research Institute in Cairo, Egypt. Dr. Omran has a strong academic background, with a B.Sc. in Industrial Electronic and Control from Menoufia University, an M.Sc. in electrical engineering from Cairo University, and a Ph.D. in electrical engineering from Cairo University. He has presented research papers at international conferences and workshops, demonstrating his commitment to professional development and knowledge dissemination. Dr. Omran’s research interests include sustainable energy systems, photovoltaic systems, and renewable energy technologies. He is proficient in programming languages such as MATLAB, LABVIEW, Arduino, C, and C++, and he has strong skills in engineering simulations and analysis using Workbench. Dr. Omran is also skilled in presentation and teamwork, with a proven ability to work under pressure in various environments.

Professional Profiles:

๐Ÿ“š Education:

Dr. Abd El-Fattah Omran has a Ph.D. in electrical engineering from Cairo University, which he completed in February 2024. His doctoral thesis focused on the optimal economical sizing and control of a PV-battery grid-connected system for fast charging stations of electric vehicles. Prior to his Ph.D., Dr. Omran obtained an M.Sc. in electrical engineering from Cairo University in August 2017, with a thesis titled “Smart Photovoltaic Traffic System.” He also holds a B.Sc. in Industrial Electronic and Control from Menoufia University, which he completed in 2011. Dr. Omran graduated with an excellent grade and received an honor degree for his academic achievements. His final project during his undergraduate studies was graded as excellent.

๐Ÿ“Workย Experience:

Dr. Abd El-Fattah Omran has extensive experience in renewable energy technologies, photovoltaic systems, and electrical power and control engineering. Since March 2024, he has been working as a researcher at the Electronics Research Institute in New Nozha, Cairo, Egypt. Prior to this, from August 2017 to February 2024, he served as an Assistant Researcher at the same institute. From July 2012 to August 2017, Dr. Omran worked as a Research Assistant at the Electronics Research Institute. Before joining the institute, he worked as an Electrical Maintenance and Control Engineer at Ever Grow for Specialized Fertilizer in Giza, Egypt, from January to July 2012. His diverse roles have provided him with a comprehensive understanding of renewable energy systems and electrical engineering practices.

๐Ÿ“ŠConferences & Workshops:

Dr. Abd El-Fattah Omran has actively participated in various conferences and workshops, enriching his knowledge and expertise in the field of electrical engineering. He presented a research paper at the international conferences “ADVANCED CONTROL CIRCUITS AND SYSTEMS, NEW PARADIGMS IN ELECTRONICS AND INFORMATION TECHNOLOGY ACCSโ€™015 and PEITโ€™015.” Dr. Omran also attended a conference on scientific research and civil society, as well as a special exhibition center of scientific and technological excellence. His commitment to professional development is evident through his participation in workshops such as the Research Quality and Performance Workshop in September 2019, and workshops on power electronics and energy conversion at the Electronics Research Institute (ERI). Dr. Omran also prepared and presented workshops within the PV Department at ERI, showcasing his expertise and dedication to knowledge dissemination. Additionally, he participated in the Industry Modernization Forum at ERI in December 2021, further enhancing his understanding of industrial practices and trends.

Skills:

Dr. Abd El-Fattah Omran possesses a range of skills that complement his expertise in renewable energy technologies and electrical engineering. He is proficient in using Workbench for engineering simulations and analysis. His programming skills include MATLAB, LABVIEW, Arduino, C, and C++. Dr. Omran also excels in presentation, with the ability to effectively communicate complex technical concepts. He demonstrates resilience and the ability to work under pressure in various environments, ensuring project success. Additionally, he is adept at teamwork, contributing effectively to collaborative projects.

 

๐Ÿ“šPublications :

Optimal sizing of a PV-battery stand-alone fast charging station for electric vehicles using SO

Authors: AEFA Omran, AESA Nafeh, HKM Yousef

Citations: 8

Year: 2022

Journal: International Journal of Renewable Energy Research (IJRER) 12 (4), 1769-1778

Sizing, Modeling and Control of Photovoltaic Traffic Light System

Authors: AEFA Omran, FH Fahmy, AESA Nafeh, HKM Yousef

Citations: 3

Year: 2016

Optimal economical sizing of a PV-battery grid-connected system for fast charging station of electric vehicles using modified snake optimization algorithm

Authors: AESA Nafeh, AEFA Omran, A Elkholy, HKM Yousef

Journal: Results in Engineering 21, 101965

 

 

ANAND K JOSHI | Energy | Most Cited Article Award

Mr. ANAND K JOSHI, Energy, Most Cited Article Award

PHD at Presidency University Bengaluru, India

ANAND K JOSHI is a dedicated Mechanical Engineer with a Ph.D. (submitted in 2024) from Presidency University, Bengaluru. With 12 years of teaching and research experience, he currently serves as a Doctoral Scholar and Teaching Assistant at Presidency University. An alumnus of University BDT College of Engineering, Davangere, and Rural Engineering College Hulkoti, Anand has also contributed to projects at ISRO-IIRS and held the position of Project Coordinator at Hunet Technologies. His research interests span Battery Thermal Management, Latent Heat Storage, Preheated Air Combustor for Aerospace, and Nano Composite Phase Change Material Synthesis.

Professional Profiles:

Scopus Profile

Orcid profile

Google Scholar

Researchgate profile

LinkedIn profile

๐Ÿ“š Education:

Ph.D. Presidency University Bengaluru, India (Submitted -2024) M. Tech. University BDT College of Engineering, Davangere India (Completed- 2012) B. E. Rural Engineering College Hulkoti, India (Completed- 2009)

Experience:

Total teaching and research experience (in years): 12 years Jan 2021- Till Now Doctoral Scholar and Teaching Assistant, Presidency University Bangalore 2019-2021 ISRO-IIRS Outreach Programme Institute Head & Assistant Professor of Mechanical Engineering, Sri Sairam College of Engineering, Anekal Bengaluru India 2018-2019 Project Coordinator-Hunet Technologies, Bengaluru India 2017-2018 Assistant Professor (Guest Faculty), BMS (Evening) College of Engineering, Bengaluru 2012-2017 Head of the Department & Assistant Professor of Mechanical Engineering(Sandwich), VACOE Ahmednagar, Maharashtra India 2011-2012 Project Assistant /Intern at CGPL, Department of Aerospace Engineering, IISc Bengaluru

Research Interest:

Battery Thermal Management System Latent Heat Storage Preheated Air Combustor for Aerospace and other Industries Synthesis and Characterization of Nano Composite Phase Change Material.

Research Focuse:

Anand K Joshi focuses his research on innovative solutions in the realm of thermal management for batteries and materials science. His work, exemplified in publications like SAE Technical Paper 2023-01-0990 and articles in journals such as the Journal of Modern Physics C and the Journal of Mines, Metals and Fuels, showcases his expertise in numerical analysis, computational modeling, and the incorporation of advanced materials like copper, carbon nanotubes, and aluminum oxide nanoparticles for enhanced thermal management in batteries and electronic devices. Anand’s contributions extend to improving 3D printing methods and implementing POKA-YOKE techniques for achieving zero defects.

Publications (TOP NOTES):
Methods To Improve 3D Prints By Reducing Artifacts Caused By Vibration And Noise.
POKA-YOKE: Mistake Proofing To Achieve Zero Defects.
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