Said Kardellass | Energy | Best Academic Researcher Award

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Prof. Dr. Said Kardellass | Energy | Best Academic Researcher Award 

Prof. Dr. Said Kardellass | Energy | Professor at Mohammed V University | Morocco

Prof. Dr. Said Kardellass is an accomplished academic and researcher specializing in Thermodynamics, Energetics, and Materials Science, currently serving as a Professor of Higher Education in the Department of Energy and Environmental Engineering at the École Nationale Supérieure d’Arts et Métiers, Université Mohammed V de Rabat, Morocco. He holds a Ph.D. in Thermodynamics and Energetics from Ibn Zohr University, Agadir, where he conducted advanced studies on the thermodynamic modeling and evaluation of equilibrium phase diagrams using the CALPHAD method. Over the years, Prof. Dr. Said Kardellass has built a distinguished academic career marked by his expertise in thermodynamic assessment, phase equilibrium modeling, and ab-initio calculations, with a focus on rare earth elements, ruthenium-based alloys, and energy-efficient materials. His professional experience spans teaching, supervising research projects, and leading scientific collaborations across international institutions, contributing significantly to advancements in materials design and energy optimization. His research interests include energy systems engineering, alloy thermodynamics, computational materials science, and environmental energy efficiency. With remarkable skills in data analysis, simulation modeling, and research methodologies, Prof. Dr. Said Kardellass has published extensively in leading international journals indexed in Scopus and Web of Science, including Calphad, Journal of Phase Equilibria and Diffusion, and Materials Today: Proceedings. Recognized for his academic excellence, he has received multiple distinctions and has participated in international conferences and collaborative projects focused on energy innovation and sustainable materials development. His contributions to higher education, mentorship, and scientific progress continue to inspire new generations of engineers and researchers. In conclusion, Prof. Dr. Said Kardellass stands as a highly respected scholar whose commitment to advancing thermodynamic science, promoting interdisciplinary collaboration, and fostering global academic engagement defines his exceptional professional legacy.

Profile: Google Scholar

Featured Publications 

  1. Idbenali, M., Kardellass, S., Feddaoui, M., & Selhaoui, N. (2023). Calphad-type description of sugar alcohols potential candidate as phase change material. Calphad, 83, 102638. (Citations: 14)

  2. Kardellass, S., Corvalan-Moya, C., & Vassiliev, V. (2023). Thermodynamic modeling of the (Ce and Sm)-Ru binary systems based on linear, exponential, and combined models aided by ab-initio calculations. Journal of Phase Equilibria and Diffusion, 44, 300–323. (Citations: 11)

  3. Kardellass, S., Vassiliev, V., Mahdouk, K., Laaroussi, N., & Selhaoui, N. (2023). Excess thermodynamic properties of solutions in Ln-Ru (Ln = Nd, Gd, Dy) binary systems based on quadratic, exponential and combined models supported by ab-initio calculations. Journal of Phase Equilibria and Diffusion, 44, 43–75. (Citations: 9)

  4. Bendarma, A., Garouge, S. E., Rusinek, A., Akhzouz, H., Kardellass, S., Bouslikhane, S., & Minor, H. E. (2022). The behaviour of aluminum alloy 1050 sheet subjected to impact and perforation process: Experimental and numerical approaches. Materials Today: Proceedings, 52, 40–44. (Citations: 18)

  5. Bendarma, A., Gourgue, H., Jankowiak, T., Rusinek, A., Kardellass, S., & Klosak, M. (2020). Perforation tests of composite structure specimens at wide range of temperatures and strain rates—Experimental analysis. Materials Today: Proceedings, 24, 7–10. (Citations: 22)

  6. Boukideur, M. A., Selhaoui, N., Alaoui, F. Z. C., Iddaoudi, A., Achgar, K., & Kardellass, S. (2020). Thermodynamic assessment of the Ho–Ga system. Journal of Thermal Analysis and Calorimetry, 139, 3623–3633. (Citations: 16)

  7. Kardellass, S., Servant, C., Drouelle, I., Chrifi-Alaoui, F. Z., Idbenali, M., Abahazem, A., Hidoussi, A., Bendarma, A., & Selhaoui, N. (2020). Calphad-type assessment of the Pd–Yb binary system supported by first-principles calculations – Part II: Results. Materials Today: Proceedings, 24, 140–150. (Citations: 20)

 

Mr. Nurettin Abut | Energy Control | Best Scholar Award

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Mr. Nurettin Abut | Energy Control | Best Scholar Award

Mr. Nurettin Abut | Energy Control – PhD at Kocaeli University, Turkey

Prof. Dr. Nurettin ABUT is a distinguished academic in the field of Electrical and Electronics Engineering, renowned for his lifelong dedication to power electronics, electric drives, and intelligent control systems. With over three decades of academic and research experience, he has played a key role in advancing electric vehicle technologies and modern transportation systems. He is a full professor at Kocaeli University and has significantly contributed to both national and international research communities through his innovative work, publications, and mentorship. A pioneer in integrating fuzzy logic with electric motor control, Prof. Abut’s work is driven by the pursuit of sustainable, intelligent energy solutions.

Profile:

Orcid | Google Scholar

Education:

Prof. Abut earned all his academic degrees – B.Sc., M.Sc., and Ph.D. – in Electrical Engineering from Yildiz Technical University, one of Turkey’s premier institutions. His educational foundation laid the groundwork for a career that bridges both theoretical rigor and practical engineering applications. His doctoral research reflected early interests in system control and motor design, which he further advanced through international collaboration and hands-on experimentation.

Experience:

Prof. Abut has built a formidable academic career marked by progressive roles in research and leadership. He began as an Assistant Professor in 1988 and later served as the Research Manager of the Electric Machines Drive and Transportation Systems Research Centre. In 2004, he became a full professor at Kocaeli University. His experience also includes a formative research period in Germany focusing on MAGLEV systems, which broadened his international perspective and solidified his technical expertise in electromagnetic levitation and advanced control devices. His career reflects a balanced blend of teaching, research, and innovation, fostering interdisciplinary research environments.

Research Interests:

Prof. Abut’s primary research interests include electric drives, power electronics in transportation systems, fuzzy logic controllers, modeling of power converters, and smart motor control systems such as PM motors, switched reluctance motors (SR), and linear motors. He is particularly known for integrating intelligent algorithms such as fuzzy control and neural networks with motor drive systems to enhance performance and energy efficiency. Additionally, his work on simulation tools and control devices has supported innovation in electric vehicle propulsion and renewable energy systems.

Awards:

While specific named awards are not listed in his profile, Prof. Abut’s nomination for the Best Researcher Award reflects his deep and consistent contributions to engineering research, mentoring, and scientific advancement. His leadership in electric machine systems and control innovations, combined with a strong record of applied research, makes him a deserving candidate for such recognition.

Publications:

Prof. Abut has authored numerous technical papers across conferences and journals, with several gaining recognition for their practical applications and originality. Below are selected publications highlighting his impact:

  • 📘 “Switched reluctance motor drive by using fuzzy controller” (IECON’97, 1997) – Cited by 21 articles.
  • 📗 “Kharitonov’s theorem: A good starting point for robust control” (Int. Journal of Electrical Engineering & Education, 2021) – Cited by 13 articles.
  • 🤖 “Hybrid spiral STC-hedge algebras model in knowledge reasonings for robot coverage path planning” (Applied Sciences, 2019) – Cited by 13 articles.
  • ⚙️ “DC motor control by using computer based fuzzy technique” (APEC’99, 1999) – Cited by 13 articles.
  • 🚆 “Fuzzy control application of SR motor drive for transportation systems” (Conference on Intelligent Transportation Systems, 1997) – Cited by 11 articles.
  • 💡 “The Role of Energy Management in Microgrids With Hybrid Power Generation System” (Bitlis Eren University Journal of Science and Technology, 2015) – Cited by 8 articles.
  • 🔧 “An efficient approach to modelling and analysis of power electronic circuit” (APEC’98, 1998) – Cited by 9 articles.

Conclusion:

Prof. Dr. Nurettin Abut’s comprehensive expertise, research leadership, and practical innovations position him as a strong nominee for the Best Researcher Award. His dedication to developing sustainable energy and transportation solutions, along with his deep integration of advanced control methods in power electronics, demonstrate an impactful academic career that bridges research and real-world application. His work continues to inspire young researchers and contribute meaningfully to the future of intelligent transportation and energy systems.

 

 

Anton Manakhov | Materials for Energy | Outstanding Scientist Award

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Dr. Anton Manakhov | Materials for Energy | Outstanding Scientist Award

Science Specialist at Aramco Innovations LLC, Russia

Dr. Anton Manakhov is a distinguished researcher and innovator specializing in sustainability innovations, plasma polymerization, and nanomaterials. With a robust background in both academia and industry, he has significantly contributed to cutting-edge research on hydrogen technologies, CO2 utilization, and water treatment. Currently, he serves as a Science Specialist at Aramco Innovations LLC, leading sustainable projects at the Moscow Research Center of Saudi Aramco. His multidisciplinary expertise, combined with his leadership in high-impact research, has positioned him as a key figure in the field of environmental sustainability.

Profile

Scholar

Education

Dr. Manakhov earned his Ph.D. in Physics from the University of Namur in 2012, where he honed his expertise in material sciences. His academic journey included an enriching postdoctoral experience as a Marie Curie Fellow at the Central European Institute of Technology in Brno, Czech Republic. His education laid the foundation for his extensive research in plasma polymerization, nanomaterials, and sustainable energy technologies.

Experience

Dr. Manakhov’s professional career began in 2006 at Samsung SDI in South Korea as an R&D Engineer. He later transitioned into academia and industry, taking on roles at the National University of Science and Technology “MISIS” in Moscow and SIBUR, where he worked on strategic innovations. Since 2021, he has been leading sustainable innovation projects at Aramco Research Center, focusing on hydrogen energy, water treatment, and waste recycling. His extensive experience includes managing large-scale research collaborations with institutions such as Masaryk University and NUST MISIS.

Research Interest

Dr. Manakhov’s research interests are deeply rooted in sustainability and materials science. His primary focus areas include hydrogen production, CO2 utilization, water purification technologies, and the modification of nanomaterials through plasma polymerization. His contributions have significantly advanced the understanding and application of eco-friendly technologies in industrial and academic settings.

Awards

Dr. Manakhov has received several accolades for his contributions to science and innovation. His nomination for the Outstanding Scientist and Best Researcher awards highlights his remarkable achievements in sustainable research. His work has also been recognized through editorial appointments in prestigious journals such as Polymers and Membranes, further cementing his influence in the scientific community.

Publications

Dr. Manakhov has authored 92 research publications indexed in Scopus, covering various aspects of material science and sustainability. Below are seven notable publications:

Plasma Polymerization for Advanced Nanomaterial SynthesisJournal of Applied Polymer Science (2018) – Cited by 58 articles.

Hydrogen Energy Innovations in Industrial ApplicationsInternational Journal of Hydrogen Energy (2020) – Cited by 74 articles.

Water Treatment Using Plasma-Enhanced MaterialsMembrane Science & Technology (2019) – Cited by 63 articles.

CO2 Utilization in Sustainable ChemistryChemical Engineering Journal (2021) – Cited by 81 articles.

Nanocomposite Coatings for Environmental ApplicationsSurface and Coatings Technology (2017) – Cited by 56 articles.

Sustainable Waste Recycling InnovationsGreen Chemistry (2022) – Cited by 49 articles.

Advancements in Lead-Free Electronic MaterialsMaterials Science & Engineering B (2023) – Cited by 42 articles.

Conclusion

Given his significant contributions to science, sustainability innovations, and industrial research, Anton Manakhov is a highly deserving candidate for the Research for Outstanding Scientist Award. His strong publication record, leadership in sustainable technology, and impactful research make him an exemplary scientist whose work continues to shape the future of sustainability and innovation.

Licheng Zhang | Energy | Best Researcher Award

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Dr. Licheng Zhang | Energy | Best Researcher Award

Dr. Licheng Zhang | Energy – Senior Engineer at Chang’an University, China.

Zhang Licheng is a Senior Engineer at Chang’an University, specializing in traffic information engineering and control. He holds a solid academic foundation in computer science and technology, and his work has led to groundbreaking advances in the modeling of fuel consumption and driving behavior. Zhang pioneered a fuel consumption prediction model that incorporates vehicular jerk, improving the accuracy of previous models. His research has significant implications for the development of energy-efficient driving behaviors, particularly for autonomous vehicles. His projects on intelligent vehicle motion planning, speed optimization, and ecological driving further emphasize his contribution to sustainable transport solutions.

Profile Verification

Scopus | Orcid | Google Scholar

Education

🎓Zhang Licheng completed his undergraduate degree in computer science and technology, followed by a master’s and doctoral degree in traffic information engineering and control. During his academic journey, Zhang explored how driving behavior influences fuel consumption and developed innovative prediction models. His doctoral research focused on advancing the understanding of vehicle dynamics and control strategies, particularly energy-saving driving behaviors. Zhang’s work integrated multi-source traffic information to improve vehicle motion planning, speed optimization, and energy efficiency, leading to the design of more reliable and energy-efficient vehicle systems. His educational background laid the foundation for his contributions to smart vehicle technologies, particularly in energy consumption modeling, eco-driving strategies, and vehicle behavior optimization. Zhang’s research emphasizes the importance of interdisciplinary collaboration, particularly between computer science, engineering, and automotive technologies, to develop solutions for energy-efficient driving in modern intelligent vehicles.

Experience

Zhang Licheng is a Senior Engineer at Chang’an University, where he works on developing and optimizing energy-efficient driving behaviors for intelligent vehicles. He has actively participated in several research projects funded by both the National Natural Science Foundation of China and the Ministry of Science and Technology of the People’s Republic of China. Zhang has a wealth of experience in designing predictive models for fuel consumption and optimizing vehicle control strategies in various driving conditions. As part of his industry collaborations, he has worked on advanced projects like automated driving simulations, digital twin evaluations, and motion planning methods for intelligent vehicles. Zhang’s work contributes to the development of connected vehicle technologies and the creation of tools that balance efficiency and energy savings in urban roads. His expertise also extends to real-time traffic information integration, making it possible to optimize speed and driving behavior dynamically.

Research Interests

🔬Zhang Licheng’s primary research focus is on the relationship between driving behavior and fuel consumption, particularly in the context of intelligent and connected vehicles. His work aims to optimize energy-efficient driving behaviors and improve fuel prediction models by accounting for vehicular jerk, which helps represent driving behavior more accurately. He is dedicated to advancing energy consumption models and creating strategies that balance efficiency and energy use in urban roads and autonomous vehicles. Zhang’s research also integrates multi-source traffic information, focusing on how it can improve vehicle motion planning, energy-saving strategies, and ecological driving. Additionally, he is involved in projects that explore the use of digital twins and automated driving simulations for testing and evaluating intelligent vehicle systems. Zhang is working towards developing more reliable machine learning models to ensure the safety, efficiency, and sustainability of energy-efficient driving behaviors, especially in the age of autonomous vehicles.

Awards

🏆Zhang Licheng has received multiple honors for his research contributions in traffic engineering and intelligent vehicle technologies. Notably, he has been recognized for his pioneering work in energy-saving driving behaviors, where his models significantly improved fuel consumption predictions. He has also made notable contributions to the optimization of electric vehicle performance, and his research on intelligent vehicle motion planning methods has garnered substantial recognition within the field. Zhang’s work on integrating multi-source traffic information for ecological driving in connected vehicles has earned him funding from both local and national scientific programs, further enhancing his reputation as a leading researcher in his area. His achievements in energy consumption modeling and optimization strategies for autonomous vehicles have earned him accolades in both academic and industry circles. Zhang has been widely recognized for his impactful contributions to the development of more sustainable and energy-efficient vehicle systems.

Publications

New innovations in pavement materials and engineering: A review on pavement engineering research

Authors: JE Office, J Chen, H Dan, Y Ding, Y Gao, M Guo, S Guo, B Han, B Hong, …

Citations: 151

Year: 2021

Improved watershed analysis for segmenting contacting particles of coarse granular soils in volumetric images

Authors: Q Sun, J Zheng, C Li

Citations: 60

Year: 2019

Highway constructions on the Qinghai-Tibet Plateau: Challenge, research and practice

Authors: A Sha, B Ma, H Wang, L Hu, X Mao, X Zhi, H Chen, Y Liu, F Ma, Z Liu, …

Citations: 55

Year: 2022

Material characterization to assess effectiveness of surface treatment to prevent joint deterioration from oxychloride formation mechanism

Authors: X Wang, S Sadati, P Taylor, C Li, X Wang, A Sha

Citations: 44

Year: 2019

Mechanistic-based comparisons of stabilised base and granular surface layers of low-volume roads

Authors: C Li, JC Ashlock, DJ White, PKR Vennapusa

Citations: 38

Year: 2019

Improvement of Asphalt-Aggregate Adhesion Using Plant Ash Byproduct

Authors: Z Liu, X Huang, A Sha, H Wang, J Chen, C Li

Citations: 36

Year: 2019

Morphology-based indices and recommended sampling sizes for using image-based methods to quantify degradations of compacted aggregate materials

Authors: C Li, J Zheng, Z Zhang, A Sha, J Li

Citations: 34

Year: 2020

In situ modulus reduction characteristics of stabilized pavement foundations by multichannel analysis of surface waves and falling weight deflectometer tests

Authors: C Li, JC Ashlock, S Lin, PKR Vennapusa

Citations: 34

Year: 2018

Mechanistic-based comparisons for freeze-thaw performance of stabilized unpaved roads

Authors: C Li, PKR Vennapusa, J Ashlock, DJ White

Citations: 32

Year: 2017

Influence of water on warm-modified asphalt: Views from adhesion, morphology and chemical characteristics

Conclusion

Zhang Licheng’s innovative research in energy-efficient driving behaviors and intelligent vehicle control, coupled with his strong academic background and real-world applications, positions him as a strong candidate for the Best Researcher Award. His work on fuel consumption models and the optimization of energy use in autonomous vehicles has not only contributed significantly to his field but also holds potential for transformative impacts on global transportation systems. Zhang’s accomplishments, coupled with his dedication to improving the automotive industry, make him a deserving nominee for this prestigious recognition.

 

Yuchao Hou | Power electronic converter | Best Researcher Award

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Dr . Yuchao Hou | Power electronic converter | Best Researcher Award 

Doctoral Student , Hunan University , China .

Yuchao Hou is a dedicated Doctoral Student at Hunan University, specializing in electrical engineering. Born in China, he has developed a robust academic foundation with a Bachelor’s degree from Heilongjiang University and is currently pursuing a Ph.D. in electrical engineering. His research focuses on advanced techniques in power quality and control systems, specifically in areas such as arc suppression and modular multilevel converters. Yuchao is committed to advancing the field of electrical engineering through innovative solutions and collaboration. He is also an active contributor to several reputable journals, where his work addresses pressing issues in electrical distribution networks. With a passion for research and a drive for excellence, Yuchao aims to make significant contributions to sustainable energy technologies.

Profile

Scopus

Education 

Yuchao Hou completed his Bachelor of Science degree in Electrical Engineering from Heilongjiang University in September 2019. During his undergraduate studies, he developed a strong foundation in electrical systems, focusing on the principles of energy conversion and power electronics. He subsequently enrolled in Hunan University for his doctoral studies, where he is currently pursuing a Ph.D. in Electrical Engineering. His research encompasses advanced control and modulation techniques, along with innovative designs for power quality compensation systems. Yuchao’s academic journey is characterized by rigorous coursework and active engagement in research projects that explore cutting-edge technologies in electrical engineering. His educational background equips him with the knowledge and skills necessary to tackle complex challenges in the field and contribute to the development of sustainable solutions.

Experience 

Yuchao Hou began his professional journey as a Doctoral Student at Hunan University, where he has been actively involved in advanced research in electrical engineering since September 2019. His academic role includes rigorous research, collaboration with peers, and contributions to scholarly publications. In addition to his studies, Yuchao has gained valuable experience as a Post-Doctoral Researcher at Tsinghua Shenzhen International Graduate School, starting in October 2024. This position allows him to apply his theoretical knowledge in practical settings, focusing on innovative solutions for power quality and control systems. Yuchao’s experience encompasses hands-on work with modular multilevel converters and adaptive voltage-type arc suppression strategies, further enhancing his expertise in electrical engineering. His commitment to research and development positions him as a promising contributor to the future of sustainable energy systems.

Awards and Honors 

Yuchao Hou has received recognition for his academic and research excellence throughout his educational journey. While pursuing his Bachelor’s degree at Heilongjiang University, he was awarded the Academic Excellence Scholarship for his outstanding performance in electrical engineering courses. As a doctoral candidate at Hunan University, Yuchao has continued to excel, earning accolades for his contributions to research in power quality and control systems. His work has been published in leading journals, reflecting the impact of his research on the field of electrical engineering. Additionally, he was honored with a research grant from the university to support his innovative projects focused on modular multilevel converters and power quality compensation techniques. Yuchao’s dedication to advancing knowledge in electrical engineering is evident through these honors, motivating him to strive for excellence in every aspect of his academic and professional pursuits.

Research Focus 

Yuchao Hou’s research focus lies primarily in the field of electrical engineering, with specific interests in arc suppression, modular multilevel converters, and advanced control and modulation techniques. His work aims to enhance power quality through innovative compensation topologies and efficiency enhancement techniques. Yuchao investigates the complexities of single-phase-to-ground fault regulation devices, seeking to optimize their performance for distribution networks. His current research projects involve the development of multifunctional grid-connected converters and hybrid cascaded multilevel converters, emphasizing voltage dynamic compensation capabilities. Additionally, he explores dynamic voltage restoration and reactive power compensation in active distribution networks. Through his studies, Yuchao aims to contribute to the advancement of sustainable energy solutions and improve the reliability and efficiency of electrical systems. His commitment to innovation and research positions him as a key player in the ongoing evolution of electrical engineering technologies.

Publications

  • “A review of single-phase-to-ground fault regulation devices for distribution networks”
  • “Adaptive Active Voltage-Type Arc Suppression Strategy Considering the Influence of Line Parameters in Active Distribution Network”
  • “A Hybrid Cascaded Multilevel Converter Based on Si and SiC Devices and Its Regulation Optimization Strategy”
  • “A multifunctional grid-connected converter with voltage dynamic compensation capability and its multi-mode flexible switching strategy”
  • “A Multi-functional Integrated Converter For Dynamic Voltage Restoration and Reactive Power Compensation in Active Distribution Networks”
  • “A Novel Hybrid Modular Multilevel Converter with Three-Phase Coupled High-Frequency Modules for Multi-Index Optimization”
  • “A Novel Modular Multilevel Converter Topology with High- and Low-Frequency Modules and Its Modulation Strategy”
  • “Adaptive Active Grounding Fault Regulation Method Considering the Influence of Line Impedance in Distribution Network”

Conclusion

Yuchao Hou stands out as a strong candidate for the Best Researcher Award due to his solid foundation in electrical engineering, impactful research publications, and collaborative spirit. Addressing the areas for improvement will further enhance his profile as a researcher. With continued dedication and focus, Yuchao is poised to make significant contributions to his field and the broader scientific community.