Ali OUBELKACEM | Energy | Best Researcher Award

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Prof. Ali OUBELKACEM | Energy | Best Researcher Award

Professor at FS/UMI, Morocco

Prof. Ali Oubelkacem is a distinguished academic in the Department of Computer Science at Université Moulay Ismail, Meknès, Morocco. He holds a Doctorate in Computer Science and a Master’s degree from INSA Lyon, specializing in Information Systems and Networks. With a career spanning over two decades, he has contributed significantly to research in material physics, magnetism, numerical scientific computing, and deep learning, particularly in energy applications. His involvement in various national and international research projects, including studies on nanostructured systems and the impact of technology on environmental issues, underscores his commitment to advancing scientific knowledge. Prof. Oubelakcem has presented at numerous international conferences and has published extensively in peer-reviewed journals, showcasing his expertise in perovskite solar cells and magnetic materials. His academic leadership is complemented by his role in training future scientists and his active participation in educational technology initiatives.

Professional Profile

Education

Prof. Ali Oubelkacem holds a robust academic background in the fields of computer science and physics. He earned his Doctorate in Science with a focus on Computer Physics from Université Moulay Ismail in 2004, achieving the distinction of Très honorable. Prior to this, he completed a Master’s Degree in Specialized Computer Science at INSA Lyon in collaboration with the École Nationale de l’Industrie Minérale in Rabat in 2005, where he specialized in Information Systems and Networks, graduating with A.Bien. His foundational education includes a Diploma in Advanced Studies in Mechanics, Energy, and Thermodynamics from Université Abdelmalek Essaâdi in Tétouan in 2000, and a Master’s Degree in Specialized Science in Mechanics from Université Cadi Ayyad in 1998, both with A.Bien. Prof. Oubelkacem’s extensive education has provided him with a solid foundation for his research and teaching career in computer science and materials physics.

Professional Experience

Prof. Ali Oubelkacem is a distinguished academic and researcher at the Département d’Informatique, Faculté des Sciences, Université Moulay Ismail in Meknès, Morocco. He has held the position of Professor of Higher Education since 2010, contributing significantly to the field of computer science. With a robust academic background, including a Doctorate in Computational Physics and a Specialized Master’s in Computer Science, he specializes in materials physics, magnetism, and deep learning applied to energy systems. His professional journey includes various roles, such as a trainer at the Institut Spécialisé Industriel de Mohammedia, where he taught modules related to information systems and networks. Prof. Oubelkacem is also an active member of several research teams and has participated in numerous national and international research projects. His involvement in organizing conferences and publishing research papers highlights his commitment to advancing knowledge in his field.

Research Interests

Prof. Ali Oubelkacem specializes in various fields of research, including the physics of materials and magnetism, scientific numerical calculations, and deep learning applications in energy domains. His work focuses on the modeling of nanostructured systems, emphasizing the magnetic properties and behavior of innovative materials. He has been actively involved in numerous national and international research projects, including the use of information and communication technologies (ICT) for the analysis and modeling of marine acidification. Prof. Oubelkacem has also explored the application of machine learning techniques to optimize photovoltaic parameters, contributing to advancements in renewable energy technologies. His extensive publication record in international journals highlights his commitment to advancing scientific knowledge in materials science, particularly in the development of perovskite solar cells and magnetic materials. Through his research, he aims to bridge theoretical concepts with practical applications, fostering innovation in both academia and industry.

Awards and Honors

Prof. Ali Oubelkacem has garnered recognition for his significant contributions to the field of computer science and material physics. He has been awarded multiple grants for his research projects, including funding for his participation in international collaborations such as the “I-WALAMAR” project with German research institutions. His dedication to academic excellence is further demonstrated through his active involvement in numerous international conferences, where he has not only presented his findings but also contributed to the advancement of knowledge in his areas of expertise. In addition to his research accomplishments, Prof. Oubelkacem is known for his commitment to teaching and mentoring students, inspiring the next generation of scientists and researchers. His work has been acknowledged through various publication accolades in reputable journals, highlighting his innovative approach in areas such as deep learning and material magnetism. These achievements underscore Prof. Oubelkacem’s stature as a leading researcher in his field.

Conclusion

Pr. Ali Oubelkacem demonstrates a robust profile as a researcher with significant contributions to the fields of material physics and informatics. His strengths in academic qualifications, professional experience, research contributions, publications, and conference engagement position him as a suitable candidate for the Best Researcher Award. By addressing areas for improvement, particularly in enhancing the societal impact of his research and expanding his collaborative efforts, he could further amplify his contributions to the scientific community. His commitment to ongoing professional development and involvement in national and international projects underscores his potential to continue making valuable contributions to his field.

Publication Top Note

  1. Effects of moringa (Moringa oleifera) leaf powder supplementation on growth performance, haematobiochemical parameters and gene expression profile of stinging catfish, Heteropneustes fossilis
    • Authors: Sharker, M.R., Hasan, K.R., Alam, M.A., Islam, M.M., Haque, S.A.
    • Year: 2024
    • Journal: Aquaculture Reports
    • Volume/Page: 39, 102388
    • Citations: 0
  2. Diversity pattern of ichthyofaunal assemblage in South-central coastal region of Bangladesh
    • Authors: Sharker, M.R., Kabir, M.A., Choi, S.D., Rahman, M.M., Shamuel, T.A.
    • Year: 2024
    • Journal: European Zoological Journal
    • Volume/Issue/Page: 91(2), pp. 830–841
    • Citations: 0
  3. Nutritional composition of available freshwater fish species from homestead ponds of Patuakhali, Bangladesh
    • Authors: Sumi, K.R., Sharker, M.R., Rubel, M., Islam, M.S.
    • Year: 2023
    • Journal: Food Chemistry Advances
    • Volume/Page: 3, 100454
    • Citations: 2
  4. Nutritional profiling of some selected commercially important freshwater and marine water fishes of Bangladesh
    • Authors: Ullah, M.R., Rahman, M.A., Haque, M.N., Islam, M.M., Alam, M.A.
    • Year: 2022
    • Journal: Heliyon
    • Volume/Issue/Page: 8(10), e10825
    • Citations: 8
  5. Non-Financial and Financial Factors Influencing the Mode of Life of the Gher Farmers from the Western Coastal Areas of Bangladesh
    • Authors: Roy, P., Choi, S.D., Nadia, Z.M., Kamrujjaman, M., Sharker, M.R.
    • Year: 2022
    • Journal: Egyptian Journal of Aquatic Biology and Fisheries
    • Volume/Issue/Page: 26(2), pp. 555–576
    • Citations: 0
  6. Twoblotch ponyfish Nuchequula blochii (Valenciennes, 1835) in the Sundarban Reserve Forest habitat of Bangladesh: Second record and establishment probability
    • Authors: Hanif, M.A., Hossen, S., Sharker, M.R., Siddik, M.A.B.
    • Year: 2021
    • Journal: Lakes and Reservoirs: Science, Policy and Management for Sustainable Use
    • Volume/Issue/Page: 26(3), e12368
    • Citations: 0
  7. Construction of a Genetic Linkage Map Based on SNP Markers, QTL Mapping and Detection of Candidate Genes of Growth-Related Traits in Pacific Abalone Using Genotyping-by-Sequencing
    • Authors: Kho, K.H., Sukhan, Z.P., Hossen, S., Jung, H.-J., Nou, I.-S.
    • Year: 2021
    • Journal: Frontiers in Marine Science
    • Volume/Page: 8, 713783
    • Citations: 8
  8. Effective accumulative temperature affects gonadal maturation by controlling expression of GnRH, GnRH receptor, serotonin receptor and APGWamide gene in Pacific abalone, Haliotis discus hannai during broodstock conditioning in hatcheries
    • Authors: Sukhan, Z.P., Cho, Y., Sharker, M.R., Rha, S.-J., Kho, K.H.
    • Year: 2021
    • Journal: Journal of Thermal Biology
    • Volume/Page: 100, 103037
    • Citations: 11
  9. Thermal Stress Affects Gonadal Maturation by Regulating GnRH, GnRH Receptor, APGWamide, and Serotonin Receptor Gene Expression in Male Pacific Abalone, Haliotis discus hannai During Breeding Season
    • Authors: Sukhan, Z.P., Sharker, M.R., Cho, Y., Choi, K.S., Kho, K.H.
    • Year: 2021
    • Journal: Frontiers in Marine Science
    • Volume/Page: 8, 664426
    • Citations: 10
  10. First record of whitespot sandsmelt, Parapercis alboguttata (Günther, 1872) from the southeast coast of Bangladesh
    • Authors: Hanif, M.A., Siddik, M.A.B., Sharker, M.R.
    • Year: 2021
    • Journal: Indian Journal of Geo-Marine Sciences
    • Volume/Issue/Page: 50(6), pp. 498–501
    • Citations: 0

 

Dr. Ridha Boudhiaf | Energy | Best Scholar Award

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Dr. Ridha Boudhiaf | Energy | Best Scholar Award

Assistant Professor at Higher Institute of Biotechnology of Sfax, Tunisia

Dr. Ridha Boudhiaf is an Assistant Professor of Chemical Engineering at the Higher Institute of Biotechnology of Sfax, Tunisia. He holds a Ph.D. in Chemical Engineering from the National Engineering School of Gabès, specializing in solar energy conversion, storage, and solar pond systems. His research focuses on numerical modeling of thermal, hydrodynamic, and mass transfer phenomena, particularly in solar energy applications such as solar stills and salt-gradient solar ponds. Dr. Boudhiaf has published extensively in reputable scientific journals, including Energy Conversion and Management and Energies, and has presented his work at international conferences. His expertise includes numerical simulation tools like Ansys Fluent and programming languages such as Matlab and Fortran. With a strong academic background, Dr. Boudhiaf has contributed significantly to advancing renewable energy technologies and thermal energy storage systems through both his research and teaching. He is actively involved in mentoring students and collaborating on various research projects.

Profile:

Education

Dr. Ridha Boudhiaf has a strong academic background in Chemical Engineering with a focus on processes and renewable energy. He earned his Doctorate in Chemical Engineering-Processes from the National Engineering School of Gabès, University of Gabès, Tunisia, in November 2013, graduating with high honors and the jury’s commendation. Prior to this, he obtained a Master’s degree in Chemical Engineering-Processes from the same institution in November 2006, where he also achieved a distinction of “Very Good.” His academic journey began with a Bachelor’s degree in Chemical Engineering-Processes in July 1996, following his completion of specialized studies in the field in 2002. Throughout his education, Dr. Boudhiaf demonstrated a consistent focus on energy conversion, thermal processes, and the application of chemical engineering to energy storage systems, specifically in the context of solar energy. His rigorous education laid the foundation for his subsequent research and professional contributions in renewable energy systems.

Professional Experiences 

Dr. Ridha Boudhiaf is a highly experienced academic with a robust background in Chemical Engineering and Process Systems. Currently serving as a Maître-Assistant at the Higher Institute of Biotechnology of Sfax (ISBS) since January 2015, he has held several notable positions throughout his career. He worked as a Maître-Technologue at the Higher Institute of Technological Studies of Sfax in 2014 and as a Technologue at the Higher Institute of Technological Studies of Gafsa from 2003 to 2013. Prior to that, Dr. Boudhiaf served as an Assistant Technologist at the Higher Institute of Technological Studies of Zaghouan in 2002-2003. His industrial experience includes a role as a production engineer at the Tuniso-Algerian White Cement Company (SOTACIB) in Fériana from 1999 to 2000. With a strong focus on solar energy research, Dr. Boudhiaf’s expertise encompasses numerical modeling, thermal performance studies, and energy conversion systems.

Research Interests

Dr. Ridha Boudhiaf’s research interests are primarily centered around the field of solar energy conversion, storage, and its applications in thermal systems. His work focuses on the thermal and hydrodynamic performance of solar thermal collectors and solar distillers with various geometries. Dr. Boudhiaf also explores the use of numerical modeling, particularly employing Navier-Stokes equations for Newtonian and incompressible fluids, to simulate the behavior of solar ponds. His expertise extends to the study of salt-gradient solar ponds, investigating the intricate heat and mass transfer mechanisms, with an emphasis on optimizing solar energy storage. Furthermore, his research delves into the influence of buoyancy and Rayleigh numbers on fluid flow stability within solar ponds. Dr. Boudhiaf also contributes to understanding entropy production in thermosolutal convection systems with Dufour effects, aiming to enhance the efficiency of solar energy systems through improved design and optimization techniques.

Research Skills

Dr. Ridha Boudhiaf possesses extensive research skills in the field of chemical engineering, particularly in solar energy conversion, storage, and thermal system optimization. His expertise includes the numerical modeling of thermal, hydrodynamic, and mass transfer phenomena, with a focus on solar ponds and energy storage systems. Dr. Boudhiaf is skilled in the simulation of complex fluid behavior using software tools like Ansys Fluent, Matlab, and Fortran, enabling him to develop precise models for studying convection and thermal diffusion. His research extends to investigating the thermosolutal convection with the Dufour effect, contributing valuable insights into entropy production in thermal systems. Dr. Boudhiaf has a strong foundation in both experimental and theoretical approaches, having published several peer-reviewed articles on fluid mechanics, heat transfer, and renewable energy systems. His ability to integrate numerical analysis with practical applications makes him a proficient researcher in sustainable energy technologies.

Award And Recognition 

Dr. Ridha Boudhiaf is an accomplished researcher and academic, recognized for his significant contributions to the field of Chemical Engineering and Solar Energy Systems. His work on hydrodynamic, heat, and mass transfer in solar ponds has garnered international attention, leading to several publications in esteemed scientific journals, including Energy Conversion and Management and Energies. Dr. Boudhiaf’s innovative research on the optimization of energy storage systems and the numerical modeling of solar ponds has earned him invitations to present at numerous international conferences. His contributions to the scientific community extend beyond research, as he has actively mentored students and collaborated on projects with leading institutions. His dedication to advancing the understanding of solar energy technologies has positioned him as a respected figure in his field, with accolades reflecting his commitment to both academic excellence and practical applications of renewable energy systems.

Conclusion

Dr. Ridha Boudhiaf demonstrates a high level of scholarly achievement, particularly in the fields of chemical engineering and renewable energy. His focus on solar energy systems is timely and important in the context of global energy challenges. To further strengthen his candidacy for the Research for Best Scholar Award, he could explore interdisciplinary research and expand his collaboration efforts. Nonetheless, his contributions to solar energy research are significant, making him a suitable candidate for the award.

Publication Top Notes
  1. Numerical Study of the Air Outlet Effect Inside a Living Room Connected to an Aerovoltaic Solar Air Heater
    Authors: Driss, S., Boudhiaf, R., Hmid, A., Kammoun, I.K., Abid, M.S.
    Year: 2024
  2. Experimental analysis of triangular solar distiller with a new form of absorber
    Authors: Boudhiaf, R., Kessentini, S., Driss, Z., Abid, M.S., Aissa, A.
    Year: 2024
  3. Illizi city sand impact on the output of a conventional solar still
    Authors: Khamaia, D., Boudhiaf, R., Khechekhouche, A., Driss, Z.
    Year: 2022
  4. Transient hydrodynamic, heat and mass transfer in a salinity gradient solar pond: A numerical study
    Authors: Boudhiaf, R., Baccar, M.
    Year: 2014
  5. A two-dimensional numerical study of hydrodynamic, heat and mass transfer and stability in a salt gradient solar pond
    Authors: Boudhiaf, R., Moussa, A.B., Baccar, M.
    Year: 2012

 

 

Alexander Gusev | Hydrogen Energy | Environmental Engineering Impact Award

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Dr. Alexander Gusev | Hydrogen Energy | Environmental Engineering Impact Award

Scientific Director, Professor at Fermaltech Montenegro Limited, Montenegro

Alexander L. Gusev is a distinguished academic and researcher in hydrogen energy and environmental engineering, serving as an academician at the European Academy of Natural Sciences and a professor at multiple institutions including STC “TATA” and the Institute of Hydrogen Economics. Renowned for his contributions to hydrogen safety and alternative energy, he is among the top-cited scientists in his field and has authored over 500 scientific works. Gusev’s expertise spans hydrogen technologies, cryogenics, and nanomaterials, with notable innovations in extinguishing large fires using cryogenic gases and developing advanced hydrogen storage systems. His leadership in organizing international scientific forums and his role as an expert on various governmental programs highlight his impact on the field. Gusev’s accolades include the K.E. Tsiolkovsky Medal and recognition from several scientific and technological societies. His work continues to shape advancements in energy efficiency and environmental safety.

Profile

Education

Alexander L. Gusev’s educational background is distinguished and comprehensive. He began his academic journey at the Physics and Mathematics School in Frunze, USSR, from 1968 to 1978, followed by studies at the Correspondence School of Physics and Mathematics at Moscow Institute of Physics and Technology in 1977-1978. He pursued higher education at the Military Engineering Institute named after A.F. Mozhajskij, graduating in 1983 with a focus on solid-state physics, chemistry, thermodynamics, and space technology. Gusev continued his advanced studies with postgraduate work from 1989 to 1995 at NPO “Cryogenmash,” where he specialized in hydrogen technologies and cryogenics, earning accolades for his thesis on large-scale cryo vacuum systems. His commitment to continuous learning is reflected in additional refresher courses in German and English language skills, enhancing his professional and international capabilities.

Professional Experience

Alexander L. Gusev is a distinguished academic and researcher with extensive experience in alternative energy and ecology. He serves as the head of the Department of Alternative Energy and Ecology at the European Academy of Natural Sciences in Hanover, Germany, and holds professorships at STC “TATA” and the Institute of Hydrogen Economics. Gusev has a notable background in hydrogen technologies, ranking fifth globally in hydrogen safety research according to Google Scholar. His career includes significant contributions to the development of cryogenic systems and hydrogen energy technologies, with over 70 patents and more than 500 scientific works to his name. He has led and participated in over 25 R&D projects, including groundbreaking work on large-scale cryo vacuum systems and hydrogen fuel technologies. Gusev’s expertise extends to the organization of major international scientific forums and collaboration with leading global institutions such as Toyota, Bayer, and NASA.

Research Interest

Alexander L. Gusev is renowned for his research in hydrogen energy technologies and their environmental impact. His work focuses on the development and application of hydrogen production from both renewable and non-renewable sources, emphasizing environmentally friendly methods and energy efficiency. Gusev’s research encompasses hydrogen safety, fuel cells, and advanced materials such as nanocatalysts and porous materials for energy applications. He has made significant contributions to cryogenic and vacuum technologies, particularly in the storage and transportation of hydrogen. His interests also include the integration of alternative energy systems and ecological considerations in energy use. Gusev’s innovative projects extend to large-scale technological solutions, such as extinguishing technological fires using cryogenic gases and developing hydrogen recombiners. His research aims to enhance sustainable energy practices and address environmental challenges through advanced scientific and technical solutions.

Research Skills

Alexander L. Gusev possesses extensive research skills in the field of hydrogen energy and environmental engineering. His expertise spans a range of critical areas, including hydrogen production from renewable sources, energy storage and transportation, and advanced cryogenic technologies. Gusev’s proficiency in hydrogen safety and its applications is reflected in his significant contributions to the development of hydrogen energy technologies, such as cryogenic systems and hydrogen fuel cells. He excels in material characterization and nanotechnology, with a particular focus on nanocatalysts and gas adsorption. His skills also extend to designing and implementing innovative solutions for environmental safety, including large-scale fire suppression and cryogenic vacuum systems. Gusev’s extensive experience in leading international research projects and his role in developing standards for hydrogen technologies further highlight his advanced capabilities in scientific research and technological innovation.

Award and Recognition

Alexander L. Gusev is a distinguished scientist renowned for his contributions to alternative energy and hydrogen technologies. He has earned significant accolades, including the prestigious K. E. Tsiolkovsky Medal for his advancements in cosmonautics and recognition as a Veteran of Nuclear Energy and Industry by Rosatom. Gusev’s work in hydrogen safety and cryogenics has positioned him as a leading figure globally, ranking fifth in hydrogen safety research according to Google Scholar. His innovative approaches have garnered over 70 patents and numerous international awards. He has also been honored as an Academician of both the European Academy of Natural Sciences and the Serbian Royal Academy of Science and Art. Gusev’s visionary leadership in developing eco-friendly energy solutions and his role in major international scientific events underscore his exceptional impact on the field of environmental engineering and energy technologies.

Conclusion

Alexander L. Gusev is a highly suitable candidate for the Research for Environmental Engineering Impact Award due to his extensive expertise, significant contributions to hydrogen energy technologies, and broad recognition in the field. His innovative solutions and leadership in international scientific events reflect his commitment to advancing environmental engineering. By expanding his focus to emerging environmental issues and increasing public engagement, Gusev could further enhance his impact and contributions to the field.

Publication Top Notes

  • Title: Economic Aspects of Nuclear and Hydrogen Energy in the World and Russia
    • Authors: SZ Zhiznin, VM Timokhov, AL Gusev
    • Year: 2020
    • Journal: International Journal of Hydrogen Energy
    • Volume: 45
    • Issue: 56
    • Pages: 31353–31366
    • Citations: 133
  • Title: Economics of Secondary Renewable Energy Sources with Hydrogen Generation
    • Authors: SZ Zhiznin, S Vassilev, AL Gusev
    • Year: 2019
    • Journal: International Journal of Hydrogen Energy
    • Volume: 44
    • Issue: 23
    • Pages: 11385–11393
    • Citations: 73
  • Title: Algorithm for Optimal Pairing of RES and Hydrogen Energy Storage Systems
    • Authors: AS Ufa, R.A. Malkova, Y.Y. Gusev, A.L. Ruban, N.Y. Vasilev
    • Year: 2021
    • Journal: International Journal of Hydrogen Energy
    • Pages: 33659–33669
    • Citations: 55
  • Title: Hydrogen Production by Low-Temperature Plasma Decomposition of Liquids
    • Authors: NA Bulychev, MA Kazaryan, AS Averyushkin, AA Chernov, AL Gusev
    • Year: 2017
    • Journal: International Journal of Hydrogen Energy
    • Volume: 42
    • Issue: 33
    • Pages: 20934–20938
    • Citations: 55
  • Title: Economics of Hydrogen Energy of Green Transition in the World and Russia. Part I
    • Authors: ALG SZ Zhiznin, VM Timokhov
    • Year: 2022
    • Journal: International Journal of Hydrogen Energy
    • Status: In Print
    • Citations: 54*
  • Title: Thermodynamic Peculiarities of Low-Temperature Regeneration of Cryosorption Devices in Heat-Insulation Cavities of Hydrogenous Cryogenic Tanks
    • Authors: AL Gusev
    • Year: 2001
    • Journal: International Journal of Hydrogen Energy
    • Volume: 26
    • Issue: 8
    • Pages: 863–871
    • Citations: 39
  • Title: Cleaning System for Corrosive Gases and Hydrogen
    • Authors: AL Gusev
    • Year: 2009
    • Journal: Chemical and Petroleum Engineering
    • Volume: 45
    • Issue: 9
    • Page: 640
    • Citations: 37
  • Title: Hydrogen Sensor for Cryogenic Vacuum Objects
    • Authors: AL Gusev, VM Belousov, IV Bacherikova, LV Lyashenko, EV Rozhkova
    • Year: 2002
    • Journal: Hydrogen Materials Science and Chemistry of Metal Hydrides
    • Pages: 41–47
    • Citations: 35
  • Title: О Механизме Анодного Окисления Алюминия В Водных Растворах Электролитов (On the Mechanism of Anodic Oxidation of Aluminum in Aqueous Electrolyte Solutions)
    • Authors: ИЛ Батаронов, АЛ Гусев, ЮВ Литвинов, ЕЛ Харченко, ЮН Шалимов
    • Year: 2007
    • Journal: Альтернативная Энергетика И Экология
    • Pages: 118–126
    • Citations: 34
  • Title: Main Environmental Problems in Nizhny Novgorod Region and Ways to Transition to a Hydrogen Economy
    • Author: AL Gusev
    • Year: 2006
    • Journal: International Scientific Journal for Alternative Energy and Ecology (ISJAEE)
    • Citations: 33

 

Armel Zambou Kenfack | Energy | Young Scientist Award

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Mr. Armel Zambou Kenfack | Energy | Young Scientist Award

Mr. Armel Zambou Kenfack, University of Yaoundé I, Cameroon

Based on the details provided, Armel Zambou Kenfack appears to be a strong candidate for the Research for Young Scientist Award. Here are a few reasons why:

Publication profile

Academic Background

Armel holds a Master’s degree in Energy and Environment from the University of Yaoundé 1, Cameroon, with a commendable “Very Good” distinction. His academic path also includes a Bachelor’s degree in Physics, specializing in Mechanics and Energetics, showcasing his foundational knowledge in energy-related fields.

Research Experience

He has actively contributed to research in renewable energy, particularly focusing on photovoltaic/thermal (PV/T) hybrid systems, solar energy optimization, and thermal storage. His involvement in multiple projects, including designing AI models for optimizing PV/T systems, demonstrates his commitment to advancing renewable energy technologies.

Publications 

  • Sensitivity analysis of the thermal performance of a parabolic trough concentrator using Al2O3 and SiO2/Vegetable oil as heat transfer fluid 🌡️🌞 – Cited by 6, 2024
  • Exergetic optimization of some design parameters of the hybrid photovoltaic/thermal collector with bi-fluid air/ternary nanofluid (CuO/MgO/TiO2) 🔋🔧 – Cited by 4, 2023
  • Techno-economic and environmental analysis of a hybrid PV/T solar system based on vegetable and synthetic oils coupled with TiO2 in Cameroon 📉🌿 – Cited by 3, 2024
  • Sectoral Assessment of the Energy, Water, Waste and Land Nexus in the Sustainability of Agricultural Products in Cameroon 🌾💧 – Cited by 2, 2024
  • Energy and exergo-environmental performance analysis of a Stirling micro-fridge with imperfect regenerator ❄️🔄 – Cited by 1, 2024
  • Performance Improvement of Hybrid Photovoltaic/Thermal Systems: A Metaheuristic Artificial Intelligence Approach to Select the Best Model Using 10E Analysis 🤖⚡  2024
  • Evaluation of the Hydrogen/Oxygen and Thermoelectric Production of a Hybrid Solar Pv/T-Electrolyzer System ⚡🔋  2024

Awards and Recognition

He has received several awards, such as the Zacharias Tanee Excellence Award for the most successful young student-researcher, and accolades for his master’s thesis, highlighting his academic and research excellence.

Professional and Teaching Experience

Currently working as a research and development engineer and a part-time teacher at the University of Yaoundé 1, Armel balances his time between hands-on research and mentoring students. His dual roles enrich his professional experience and demonstrate his capability to contribute to both practical and theoretical aspects of his field.

Skills and Expertise

His expertise includes the simulation and optimization of energy systems, proficiency in various programming and simulation tools (Matlab, Fortran, Python, ANSYS), and experience in techno-economic and thermo-electric analysis, all of which are critical skills for an impactful career in renewable energy research.

Conclusion

Armel Zambou Kenfack’s combination of academic achievements, research contributions, publication record, and recognition make him a promising candidate for the Research for Young Scientist Award. His focus on innovative solutions in energy and environmental sustainability aligns with the award’s objectives, making him a deserving nominee.

 

Yibo Wang | Distributed Generation | Best Researcher Award

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Dr. Yibo Wang | Distributed Generation | Best Researcher Award

Northeastern University, China.

Yibo Wang is a dedicated researcher in electrical engineering, currently pursuing his Master’s degree at Northeastern University, China. His research centers on the stability analysis of distributed generation in cyber-energy systems, a crucial area for modern energy infrastructure. He has co-authored several high-impact papers published in top-tier journals, such as the Journal of Energy Storage and IEEE Journal of Emerging and Selected Topics in Power Electronics, showcasing his significant contributions to the field. Yibo’s work on virtual energy storage systems and multi-inverter stability has positioned him as a promising young researcher. His collaboration with established experts like Rui Wang and Pinjia Zhang further highlights his research potential. While his academic background and research outputs are impressive, expanding his research scope and demonstrating independent project leadership could further enhance his profile as a leading researcher in the field.

Profile
Education

Yibo Wang holds a robust educational background in Electrical Engineering, beginning with his Bachelor’s degree from the Shenyang Institute of Engineering, where he studied from September 2017 to June 2022. His undergraduate studies focused on Electrical Engineering and Automation, providing him with a solid foundation in the principles and practices of electrical systems. Building on this, Yibo pursued a Master’s degree at Northeastern University, China, specializing in Electrical Engineering from September 2022 to June 2024. During his graduate studies, he delved deeper into advanced topics such as the stability analysis of distributed generation in cyber-energy systems. His academic journey is marked by a commitment to excellence and a keen interest in emerging energy technologies, positioning him as a promising researcher in the field. Yibo’s education has equipped him with the technical knowledge and analytical skills necessary to contribute meaningfully to the future of energy systems engineering.

Professional Experience

Yibo Wang is a dedicated researcher in the field of electrical engineering, with a particular focus on the stability analysis of distributed generation in cyber-energy systems. He has co-authored several high-impact research papers published in prestigious journals, including the Journal of Energy Storage and IEEE Journal of Emerging and Selected Topics in Power Electronics. His work primarily explores innovative solutions in virtual energy storage systems, multi-inverter stability, and virtual asynchronous machine controllers. Yibo’s collaboration with leading experts like Rui Wang and Pinjia Zhang highlights his integration into a network of prominent researchers, further enhancing the impact of his contributions. Currently, he is advancing his academic pursuits as a Master’s degree candidate in Electrical Engineering at Northeastern University. His strong educational background, coupled with his research achievements, positions him as an emerging talent in the domain of cyber-energy systems and electrical engineering.

Research Interest

Yibo Wang’s research is centered on the stability analysis of distributed generation within cyber-energy systems, a critical area in modern electrical engineering. His work explores the intricate dynamics between energy generation, storage, and distribution, particularly focusing on virtual energy storage systems and multi-inverter networks. Yibo’s research aims to enhance the robustness and reliability of energy systems by developing advanced control strategies, such as virtual synchronous generators (VSG) and virtual asynchronous machine controllers. These strategies are designed to stabilize power systems in real-time, ensuring seamless integration of renewable energy sources into the grid. His contributions are particularly relevant in the context of increasing reliance on distributed generation and the need for resilient energy infrastructures. By addressing these challenges, Yibo Wang’s research not only advances theoretical understanding but also has practical implications for the future of sustainable energy systems.

Research Skills

Yibo Wang possesses a robust set of research skills, particularly in the field of electrical engineering and energy systems. His expertise in stability analysis of distributed generation in cyber-energy systems is evidenced by his contributions to high-impact publications. Yibo is proficient in advanced analytical techniques, such as the Guardian Map Method, which he has applied to optimize parameter selection in complex energy systems. His ability to collaborate effectively with leading researchers and contribute to significant studies on virtual energy storage and multi-inverter systems demonstrates his strong teamwork and communication skills. Additionally, Yibo’s research is grounded in a deep understanding of both theoretical principles and practical applications, allowing him to develop innovative solutions for contemporary challenges in energy infrastructure. His technical proficiency, coupled with a commitment to advancing knowledge in his field, makes him a valuable asset in any research setting.

Awards and Recognition

Yibo Wang possesses a robust set of research skills, particularly in the field of electrical engineering and energy systems. His expertise in stability analysis of distributed generation in cyber-energy systems is evidenced by his contributions to high-impact publications. Yibo is proficient in advanced analytical techniques, such as the Guardian Map Method, which he has applied to optimize parameter selection in complex energy systems. His ability to collaborate effectively with leading researchers and contribute to significant studies on virtual energy storage and multi-inverter systems demonstrates his strong teamwork and communication skills. Additionally, Yibo’s research is grounded in a deep understanding of both theoretical principles and practical applications, allowing him to develop innovative solutions for contemporary challenges in energy infrastructure. His technical proficiency, coupled with a commitment to advancing knowledge in his field, makes him a valuable asset in any research setting.

Conclusion

Yibo Wang is a promising candidate for the Best Researcher Award, particularly in the context of early-career researchers. His contributions to the field of electrical engineering, particularly in stability analysis and cyber-energy systems, are commendable. However, to strengthen his case for such an award, focusing on broadening his research impact, pursuing further professional development, and demonstrating independent research leadership would be beneficial. Overall, he is a strong contender with significant potential for future recognition.

Publications Top Notes

  1. A study of novel real-time power balance strategy with virtual asynchronous machine control for regional integrated electric-thermal energy systems
    • Authors: Wang, R., Li, M.-J., Wang, Y., Sun, Q., Zhang, P.
    • Year: 2024
  2. An Algorithm for Calculating the Parameter Selection Area of a Doubly-Fed Induction Generator Based on the Guardian Map Method
    • Authors: Wang, Y., Chen, F., Jia, W., Wang, R.
    • Year: 2024
  3. Research on Load State Sensing and Early Warning Method of Distribution Network under High Penetration Distributed Generation Access
    • Authors: Gu, C., Wang, Y., Wang, W., Gao, Y.
    • Year: 2023
  4. New Distributed Control Strategy of Power System Based on Existing Technology
    • Authors: Jia, Y., Zheng, Q., Pan, Z., Tian, R., Wang, Y.
    • Year: 2022 (presented in 2023)
  5. Distributed Optimal Control Strategy of New Energy in Novel Power Systems
    • Authors: Jia, Y., Zheng, Q., Pan, Z., Wang, Y., Tian, R.
    • Year: 2022 (presented in 2023)

 

 

Shunchun Yao | Energy | Best Researcher Award

Posted on by ScienceFather

Prof. Shunchun Yao | Energy | Best Researcher Award

Prof . Shunchun Yao, South China University of Technology, China

Prof. Shunchun Yao is a distinguished professor at South China University of Technology in China. He is renowned for his contributions to his field and is an integral part of the university’s academic and research community. His expertise and leadership have significantly advanced the institution’s research capabilities and educational programs.

Profile

Education

Prof. Shunchun Yao holds a Ph.D. in Power Plant System & Control, which he obtained in June 2011 from the School of Electric Power at South China University of Technology. His doctoral research focused on advanced control systems and optimization techniques for power plants, contributing significantly to the field of electric power engineering. Prior to this, Prof. Yao earned his Bachelor’s degree in Thermal and Dynamic Engineering from the School of Physics at Soochow University in June 2006. His undergraduate studies provided a solid foundation in the principles of thermodynamics and fluid mechanics, essential for understanding and improving thermal systems. Throughout his academic journey, Prof. Yao has demonstrated a strong commitment to advancing knowledge in power systems and control engineering, laying the groundwork for his successful career in academia and research. His educational background reflects a blend of theoretical expertise and practical skills, making him a distinguished figure in his field.

Professional Experience

Prof. Shunchun Yao is a distinguished professor at South China University of Technology, China. He earned his Ph.D. in Power Plant System & Control in June 2011 from the School of Electric Power at South China University of Technology and holds a B.D. in Thermal and Dynamic Engineering from the School of Physics at Soochow University, obtained in June 2006. Prof. Yao has made significant contributions to the scientific community, supported by prestigious talent programs such as the Talent Program for Young Scientists of LIBS (2017), Guangdong province’s high-level personnel special support program (2015), the Pearl River S&T Nova Program of Guangzhou (2014), and the Outstanding Youth Innovative Talents of Higher Learning Institutions of Guangdong (2012). He actively serves as a member of the LIBS committee of the Chinese Society for Optical Engineering and the Tanpuhui expert committee in Guangdong, showcasing his dedication to advancing scientific research and innovation.

Project Management (as Project Manager)

Prof. Shunchun Yao has led numerous significant projects, showcasing his expertise in power plant systems, control, and environmental measurement technologies. His notable projects include the National Natural Science Foundation of China-funded studies on spark-induced plasma spectroscopy of particle flow and unburned carbon in fly ash (2017-2020) and laser plasma characteristics for coal particle flow measurement (2013-2015). Additionally, he contributed to the Guangdong province train high-level personnel special support program (2015-2018) and the Science and Technology Project of Guangdong Province, focusing on online measurement technology for PM2.5 and heavy element emissions from stationary sources (2016-2018). His work in the Pearl River S&T Nova Program of Guangzhou (2014-2017) and collaborations with Shunde Inspection Institute (2016-2019) and Zhuhai coal-fired power plant (2017-2019) further emphasize his contributions. Prof. Yao also secured funding from the Guangdong Natural Science Foundation (2012-2014) and the Fundamental Research Funds for the Central Universities for studies on plasma characteristics of coal and NOx distribution optical sensors (2014-2015, 2018-2020). His leadership and dedication have significantly impacted environmental measurement technologies.

Research Focus

Professor Shunchun Yao is a leading expert in the field of clean energy utilization and thermal systems optimization. His work focuses on developing innovative solutions to improve energy efficiency and reduce emissions in various thermal systems. By leveraging advanced combustion diagnosis techniques, Professor Yao is able to identify and address inefficiencies in combustion processes, leading to more sustainable and environmentally friendly energy use. His research also includes emission monitoring, where he develops and implements cutting-edge technologies to accurately measure and control pollutants released from combustion systems. Through his comprehensive approach, Professor Yao contributes significantly to the advancement of clean energy technologies, ensuring that thermal systems operate at optimal performance while minimizing their environmental impact. His work is instrumental in the global effort to transition towards sustainable energy solutions, making him a prominent figure in the field of energy research and environmental protection.

Award

Prof. Shunchun Yao has garnered numerous accolades for his exceptional contributions to science and technology. In 2017, he was honored with the Young Scientist of LIBS award under the Talent Program for Young Scientists, recognizing his groundbreaking work in the field. His remarkable contributions to high-level personnel training earned him a spot in the Guangdong Province High-Level Personnel Special Support Program in 2015. Further cementing his status as a leading scientist, Prof. Yao was awarded the Pearl River S&T Nova Program of Guangzhou in 2014, acknowledging his significant scientific and technological achievements. His commitment to innovation and higher education was recognized early on when he was named one of the Outstanding Youth Innovative Talents of Higher Learning Institutions of Guangdong in 2012. These prestigious awards reflect Prof. Yao’s sustained dedication to advancing scientific research and fostering innovation, underscoring his influential role in the academic and scientific communities.

Publication Top Notes

  1. “Multi-parameter co-optimization for NOx emissions control from waste incinerators based on data-driven model and improved particle swarm optimization”
    • Authors: Li, Z., Yao, S., Chen, D., Liu, W., Yu, Z.
    • Year: 2024
    • Citations: 0
  2. “Development of laser-induced breakdown spectroscopy based spectral tandem technology: A topical review”
    • Authors: Yao, S., Yu, Z., Hou, Z., Wang, Q., Wang, Z.
    • Year: 2024
    • Citations: 0
  3. “Simultaneous measurement of NH3 and NO by mid-infrared tunable diode laser absorption spectroscopy based on machine-learning algorithms”
    • Authors: Guo, S., Li, Z., Liu, Z., Ren, W., Yao, S.
    • Year: 2024
    • Citations: 0
  4. “Research of Plasma Spectrum Diagnosis and Quantitative Analysis for Coal Powder Flow”
    • Authors: Qin, H., Yao, S., Yu, Z., Dong, M., Lu, J.
    • Year: 2024
    • Citations: 0
  5. “Defect Engineering of Nanocrystal-In-Glass Composites for Ultrashort Optical Pulse Monitoring”
    • Authors: Lin, Q., Lin, X., Feng, X., Qiu, J., Zhou, S.
    • Year: 2024
    • Citations: 0
  6. “Research on etalon-free CO2 measurement based on direct absorption signal fitting”
    • Authors: Yang, Y., Guo, S., Li, J., Zhang, X., Yao, S.
    • Year: 2024
    • Citations: 0
  7. “Quantum cascade laser absorption sensor for in-situ, real-time and sensitive measurement of high-temperature SO2 and SO3”
    • Authors: Duan, K., Wen, D., Ji, Y., Yao, S., Ren, W.
    • Year: 2024
    • Citations: 1
  8. “Application and Analysis of Multi-Component Simultaneous Measurement of Forest Combustibles Pyrolysis Gas Based on TDLAS”
    • Authors: Guo, S.-J., Wang, L.-P., Chen, J.-Z., Lu, Z.-M., Yao, S.-C.
    • Year: 2024
    • Citations: 0
  9. “Modelling nitrogen oxide emission trends from the municipal solid waste incineration process using an adaptive bi-directional long and short-term memory network”
    • Authors: Li, Z., Yao, S., Chen, D., Lu, Z., Yu, Z.
    • Year: 2024
    • Citations: 1
  10. “Current situation and prospect of machine learning-driven boiler combustion optimization technology”
    • Authors: Yao, S., Li, L., Lu, Z., Li, Z.
    • Year: 2024
    • Citations: 0