Dr. Moyeme Kabe | Microgrids Awards | Best Researcher Award

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Dr. Moyeme Kabe | Microgrids Awards | Best Researcher Award

Dr. Moyeme Kabe , CERME/ University of Lome , Togo

Kabe Moyeme is a third-year PhD student at the Centre d’Excellence Régional pour la Maîtrise de l’Electricité (CERME), specializing in electro-energetics and smart grids. Previously, Kabe earned a PhD in Physics with a focus on materials for optoelectronic applications and renewable energies, a joint program between the University of Lomé (Togo) and the University of Aix-Marseille (France), funded by a SCAC-Togo grant. Kabe also holds a Master’s degree in Physics from the University of Lomé, awarded with high honors. Proficient in Python programming, Matlab, and various simulation tools, Kabe is experienced in using OpenDSS, PSSE, PSAT-MATLAB, Powerworld, SCAPS, SRIM, SREM, and LTspice. Kabe’s expertise includes the use of characterization devices for photovoltaic solar cells.

Professional Profile:

Orcid

Education:

Kabe Moyeme is currently a third-year PhD student in Electrical Engineering at the Centre d’Excellence Régional pour la Maîtrise de l’Electricité (CERME), specializing in electro-energetics and smart grids (2021-2024). He previously earned a PhD in Physics from the University of Lomé (Togo) and the University of Aix-Marseille (France) through a joint program (2017-2020). His research focused on materials for optoelectronic applications and renewable energies, and he was honored with very honorable distinctions from the jury. This PhD was funded by a SCAC-Togo grant. Kabe also holds a Master’s degree in Physics, with a specialization in Components-Signals-Systems, from the University of Lomé, officially presented in December 2016. Additionally, he completed his Licence LMD in Physics at the University of Lomé (2010-2014). His earlier education includes secondary school cycles completed at Tône, from 2003 to 2010.

Work Experience:

Kabe Moyeme has been engaged as a PhD researcher since 2021 at the Centre d’Excellence Régional pour la Maîtrise de l’Electricité (CERME), focusing on electro-energetics and smart grids. Prior to this role, from 2017 to 2020, he conducted research as a PhD researcher at the University of Lomé and the University of Aix-Marseille, concentrating on materials for optoelectronic applications and renewable energies.

Publication Top Notes:

Title: Optimal Electrification Using Renewable Energies: Microgrid Installation Model with Combined Mixture k-Means Clustering Algorithm, Mixed Integer Linear Programming, and Onsset Method

  • Journal: Energies
  • Published Year: 2024
  • DOI: 10.3390/en17123022
  • Contributors: Moyème Kabe; Yao Bokovi; Kwami Senam Sedzro; Pidéname Takouda; Yendoubé Lare

Title: Optimal Electrification Using Renewable Energies: Microgrid Installation Model with Combined Mixture k-Means Clustering Algorithm, Mixed Integer Linear Programming and Onsset Method

  • Published Year: 2024
  • Journal: Preprint
  • DOI: 10.20944/preprints202405.0176.v1
  • Contributors: Kabe Moyème; Bokovi Yao; Kwami Senam Sedzro; Takouda Pidéname; Lare Yendoubé

 

 

 

Mr. Mokhtar Jlidi | Renewable energy Awards | Young Scientist Award

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Mr. Mokhtar Jlidi | Renewable energy Awards | Young Scientist Award

Mr. Mokhtar Jlidi  , Université de Gabès , Tunisia

Mokhtar Jlidi, born on October 15, 1992, in Djerba, Mednine, Tunisia, is a highly skilled professional with expertise in automation, robotics, and electrical systems. He holds a Master’s degree in Automation and Robotic Systems from the Institut Supérieur des Systèmes Industriels de Gabès, Tunisia, where he also earned a professional Master’s in Electrical Systems Control and a Higher Technician Diploma in Electronics, Electrotechnics, and Automation. Mokhtar has gained valuable experience through various projects, including developing a speed regulation test bench for turbo-alternator groups and designing a photovoltaic generator supervision prototype. Fluent in Arabic and French with technical proficiency in English, Mokhtar is passionate about new technologies, serious, motivated, organized, and sociable. He seeks a stable position that aligns with his profile in a dynamic and motivating environment. His interests include sports, excursions, internet browsing, and staying updated with the latest technological trends.

Professional Profile:

Scopus

  🎓Education:

Mokhtar Jlidi holds a Master’s Degree in Automatic Control and Robotic Systems, as well as a Master’s Degree in Electrical System Control, both from the Institut Supérieur des Systèmes Industriels de Gabès, Tunisia. He graduated with a Mention of “Assez Bien” (Good) in December 2020 and July 2018, respectively. Prior to his master’s degrees, he completed a Higher Technician Diploma in Electronics, Electrotechnics, and Automation from the same institution in June 2016, specializing in Industrial Process Control, also with a Mention of “Assez Bien” (Good).

🏢Work Experience:

During his academic journey, Mokhtar Jlidi undertook several internships that enriched his practical experience. At Groupe chimique tunisien de Gabès, he contributed to a project focused on studying and implementing a test bench for regulating turbo-alternator speed using the Woodward 505 regulator at the U1000 unit of the phosphoric acid plant, spanning from February 19, 2018, to May 18, 2018. Additionally, during his tenure at Institut Supérieur des Systèmes Industriels de Gabès from February 5, 2016, to April 29, 2016, he played a pivotal role in designing and developing a prototype for supervising the characteristics of a photovoltaic generator. Furthermore, Mokhtar gained valuable experience through internships at Société tunisienne d’électricité et de Gaz (STEG) at both the Tac Robbana Power Production Center and the company itself, where he honed his skills and understanding of industrial processes and electrical systems.

Publication Top Notes:

An Artificial Neural Network for Solar Energy Prediction and Control Using Jaya-SMC

  • Authors: Jlidi, M., Hamidi, F., Barambones, O., Aoun, M., Karami-Mollaee, A.
  • Published Year: 2023
  • Journal: Electronics (Switzerland), 12(3), 592
  • Citations: 5

Synthesis of an Advanced Maximum Power Point Tracking Method for a Photovoltaic System: A Chaotic Jaya Logistic Approach

  • Authors: Jlidi, M., Hamidi, F., Abdelkrim, M.N., Abbassi, R., Kchaou, M.
  • Conference: Proceedings – 2022 4th International Conference on Applied Automation and Industrial Diagnostics, ICAAID 2022
  • Published Year: 2022
  • Citations: 1

 

 

 

Prof. Mohammad Hamdan | Photovoltaic Award | Best Researcher Award

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Prof. Mohammad Hamdan | Photovoltaic Award | Best Researcher Award

Prof. Mohammad Hamdan, Applied Science Private University, Jordan

Prof. Mohammad Ahmad Hamdan, a Jordanian national, is a distinguished figure in the field of Mechanical Engineering with a Ph.D. from Washington State University and an extensive academic career spanning over four decades. Currently serving as a Professor of Renewable Energy Technology at Applied Science Private University, he previously held prominent roles including Professor of Mechanical Engineering at The University of Jordan and Dean of Faculty of Engineering at Al-Zaytoonah University of Jordan. With research interests ranging from renewable energy to nanotechnology and alternative fuels, Prof. Hamdan has made significant contributions in areas such as combustion, pollution, and heat transfer. He has taught a diverse array of graduate and undergraduate courses, authored numerous publications, and actively engages in research through platforms like ResearchGate and Google Scholar. His dedication to advancing engineering education and sustainable energy solutions underscores his impactful presence in academia.

Professional Profile:

Scopus

Google Scholar

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🎓 Education:

Prof. Mohammad Ahmad Hamdan holds a Ph.D. in Mechanical Engineering, which he earned from Washington State University in the United States in 1985. Prior to this, he completed his Master of Science degree in Mechanical Engineering with a specialization in Combustion & Energy from the University of Leeds, UK, in 1977. His academic journey began with a Bachelor of Science degree in Mechanical Engineering from the University of Wales, Cardiff, UK, which he obtained in 1976. These educational milestones laid the foundation for his distinguished career in academia and research, enabling him to contribute significantly to the fields of renewable energy, nanotechnology, alternative fuels, combustion, and heat transfer. Prof. Hamdan’s diverse educational background and expertise have positioned him as a leader in the realm of mechanical engineering, both nationally and internationally.

👨‍💼 Work Experience:

Prof. Mohammad Ahmad Hamdan has held several esteemed positions throughout his career, contributing significantly to the field of mechanical engineering. Notably, he served as a Professor of Mechanical Engineering at The University of Jordan and as the Dean of the Faculty of Engineering at Al-Zaytoonah University of Jordan. His leadership roles extended to various prestigious universities in Jordan, where he assumed positions as Dean, Chairman, and Professor. Prof. Hamdan’s influence in academia is not confined to Jordan; he has also undertaken advisory roles within the engineering sector and held teaching and research positions both in the United States and Jordan. His extensive experience across different domains of academia and industry underscores his multifaceted expertise and dedication to advancing the field of mechanical engineering.

🔍 Research Interests:

Prof. Mohammad Ahmad Hamdan’s research interests span a broad spectrum of critical areas within the field of mechanical engineering. His expertise encompasses renewable energy, where he explores innovative solutions to harness sustainable energy sources and mitigate environmental impacts. Additionally, Prof. Hamdan delves into the realm of nanotechnology, leveraging the unique properties of nanomaterials to enhance energy efficiency and develop cutting-edge technologies. His work also extends to alternative fuels, seeking to identify and optimize renewable and environmentally friendly fuel sources to reduce dependence on conventional fossil fuels. Furthermore, he conducts research in combustion and pollution, addressing challenges related to combustion processes and their impact on air quality and environmental health. Prof. Hamdan’s investigations in heat transfer further contribute to understanding and improving heat exchange mechanisms, vital for various engineering applications, including energy systems and thermal management. Through his multifaceted research efforts, Prof. Hamdan aims to advance knowledge and innovation in these crucial areas, driving sustainable development and addressing global energy and environmental challenges.

Publication Top Notes:

  1. Engine performance using emulsified diesel fuel
    • Published Year: 2010
    • Cited By: 337
  2. Enhanced heat transfer, missing pin, and optimization for cylindrical pin fin arrays
    • Published Year: 1993
    • Cited By: 157
  3. Intra-articular injection of expanded autologous bone marrow mesenchymal cells in moderate and severe knee osteoarthritis is safe: a phase I/II study
    • Published Year: 2017
    • Cited By: 139
  4. Impact of climate and land use changes on water and food security in Jordan: Implications for transcending “the tragedy of the commons”
    • Published Year: 2013
    • Cited By: 126
  5. Performance of solar still under Jordanian climate
    • Published Year: 1999
    • Cited By: 102