Shuiting Ding | Renewable Energy | Best Researcher Award

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Prof. Shuiting Ding | Renewable Energy | Best Researcher Award

Dean | Beihang University | China

Prof. Shuiting Ding is a distinguished scholar and leader in aerospace engineering, serving as President of the Civil Aviation University of China and a Changjiang Scholar Distinguished Professor. He has held key national roles, including Chief Scientist of the National Defense 973 Program and leader of the Ministry of Education’s Innovation Team for Aero-Engine Safety and Airworthiness. Renowned for his research on complex aero-engine systems and safety, he has authored numerous publications, secured multiple patents, and received prestigious national and provincial awards, establishing himself as a leading figure in civil aviation science and technology innovation.

Publication Profile

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Academic Background

Prof. Shuiting Ding is a highly accomplished academic and leader in the field of aerospace engineering with a strong educational and professional foundation. As President of the Civil Aviation University of China and a Changjiang Scholar Distinguished Professor, he has combined his academic expertise with leadership excellence. His career has been marked by appointments as Chief Scientist of the National Defense Program and leader of the Ministry of Education’s Innovation Team for Aero-Engine Safety and Airworthiness. With extensive research on aero-engine systems, numerous patents, and acclaimed awards, he has advanced civil aviation science and technology innovation globally.

Professional Experience

Prof. Shuiting Ding is a renowned expert in aerospace engineering who has dedicated his career to advancing aero-engine safety and airworthiness. He serves as President of the Civil Aviation University of China and has previously held influential roles such as Director of the Ministry of Education’s Advanced Aero-Engine Collaborative Innovation Center and Deputy Head of the Safety and Airworthiness Group for the Two-Aircraft Special Project. His leadership in major national research programs, extensive publications, patented innovations, and recognition through prestigious honors reflect his outstanding contributions to civil aviation science and his enduring impact on aerospace research and education.

Awards and Honors

Prof. Shuiting Ding has earned widespread recognition for his outstanding contributions to aerospace engineering and civil aviation. He has been honored as a Leading Talent in Civil Aviation Science and Technology Innovation and has received the prestigious Feng Ru Aviation Science and Technology Elite Award from the Chinese Society of Aeronautics and Astronautics. In addition, he has been acknowledged as an Outstanding Talent of Tianjin and selected among the Leading Talents of Beijing. His achievements have also been recognized with the State Council Special Allowance, highlighting his remarkable influence and enduring impact on national scientific and technological progress.

Research Focus

Prof. Shuiting Ding has devoted his research to advancing the safety, reliability, and innovation of complex aero-engine systems. His work emphasizes aero-engine safety and airworthiness, addressing critical challenges in the design, testing, and performance of civil aviation engines. He has played a central role in major national projects that push the boundaries of aerospace technology while ensuring safety standards. His research outcomes include influential publications, patents, and monographs that have guided both academic inquiry and practical applications, strengthening the integration of scientific discovery with engineering practice and shaping the development of future civil aviation advancements.

Publication Top Notes

LCA and TEA analyses of bio-jet fuel prepared from Arundo donax

Year: 2025 | Cited by: 1

Conclusion

Prof. Shuiting Ding is a distinguished scholar and leader in aerospace engineering, widely recognized for his pioneering research on aero-engine safety and airworthiness. Serving as President of the Civil Aviation University of China and holding prestigious national roles, he has made significant contributions through extensive publications, patents, and impactful projects. His leadership and innovation have earned him multiple honors, reflecting his influence in advancing civil aviation science and technology, and positioning him as a strong candidate for the Best Researcher Award.

Mohammad Mahdi Heyhat | Solar Energy | Best Researcher Award

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Assoc. Prof. Dr. Mohammad Mahdi Heyhat | Solar Energy | Best Researcher Award

Associate Professor | Tarbiat Modares University | Iran

Assoc. Prof. Dr. Mohammad Mahdi Heyhat is an accomplished academic in the Faculty of Mechanical Engineering at Tarbiat Modares University, specializing in energy conversion, heat transfer, nanofluidics, and thermal system optimization. He earned his bachelor’s degree from Ferdowsi University of Mashhad, followed by master’s and doctoral degrees in energy conversion from the University of Tehran, where his PhD thesis was recognized as the best by the Iranian Society of Mechanical Engineering. With extensive teaching and research experience, numerous high-impact publications, and a strong record of academic achievements, he has made significant contributions to advancing mechanical and energy engineering.

Publication Profile

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Academic Background

Assoc. Prof. Dr. Mohammad Mahdi Heyhat has built a strong academic foundation in mechanical engineering with a focus on energy conversion and heat transfer. He completed his undergraduate studies in mechanical engineering at Ferdowsi University of Mashhad, where he specialized in heat and fluids. He then pursued advanced studies at the University of Tehran, earning both his master’s and doctoral degrees in energy conversion. His doctoral research on nanofluid heat transfer was recognized as an outstanding thesis by the Iranian Society of Mechanical Engineering, establishing his reputation as a dedicated researcher in thermal sciences and engineering applications.

Professional Experience

Assoc. Prof. Dr. Mohammad Mahdi Heyhat has developed a distinguished professional career in mechanical engineering with a focus on energy conversion and thermal sciences. He is currently serving as an assistant professor at Tarbiat Modares University, where he teaches and supervises research in areas such as nanofluidics, heat transfer, and thermal system design. He has previously contributed his expertise as a faculty member at K. N. Toosi University of Technology and has been actively involved in research at the Nano-technology Research Centre of the Institute of Petroleum. His experience also includes refereeing for international scientific journals.

Awards and Honors

Assoc. Prof. Dr. Mohammad Mahdi Heyhat has earned notable recognition throughout his academic journey for his outstanding contributions to mechanical engineering and energy research. His doctoral thesis at the University of Tehran was selected as the best by the Iranian Society of Mechanical Engineering, reflecting the high quality and originality of his work. He was also distinguished as the top-ranked student in both his undergraduate and doctoral entrance examinations, highlighting his consistent academic excellence. These honors demonstrate his dedication, intellectual strength, and commitment to advancing knowledge in the fields of heat transfer and energy conversion.

Research Focus

Assoc. Prof. Dr. Mohammad Mahdi Heyhat has established a strong research focus in the fields of heat transfer, energy conversion, and thermal system optimization. His expertise covers experimental and numerical studies on conduction, convection, radiation, and two-phase flow, with particular emphasis on nanofluids and microfluidics. He has also contributed to advancing exergy analysis and the design of efficient thermal systems, including applications in heat exchangers and energy storage technologies. Through his investigations, he aims to enhance heat transfer performance and develop sustainable solutions that address modern challenges in mechanical engineering and applied energy systems.

Publication Top Notes

Battery thermal management with thermal energy storage composites of PCM, metal foam, fin and nanoparticle

Year: 2020 | Cited by: 479

Experimental investigation of laminar convective heat transfer and pressure drop of water-based Al2O3 nanofluids in fully developed flow regime

Year: 2013 | Cited by: 283

Experimental study of convective heat transfer and pressure drop of TiO2/water nanofluid

Year: 2012 | Cited by: 251

Experimental investigation of turbulent flow and convective heat transfer characteristics of alumina water nanofluids in fully developed flow regime

Year: 2012 | Cited by: 190

Effect of a micro heat sink geometric design on thermo-hydraulic performance: A review

Year: 2020 | Cited by: 187

Conclusion

Assoc. Prof. Dr. Mohammad Mahdi Heyhat is a distinguished researcher in mechanical engineering with specialization in energy conversion, heat transfer, nanofluidics, and thermal system optimization. His doctoral thesis was recognized by the Iranian Society of Mechanical Engineering, reflecting the high quality of his research. With widely cited publications and a solid academic record, he has contributed to both theoretical and applied aspects of engineering. His expertise and impact make him a strong candidate for the Best Researcher Award.

Morteza Habibi | Energy | Best Researcher Award

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Assoc. Prof. Dr. Morteza Habibi | Energy | Best Researcher Award

Assoc. Prof. Dr. Morteza Habibi | Amirkabir University of Technology | Iran

Dr. Morteza Habibi is an Associate Professor of Fusion Energy at Amirkabir University of Technology, Tehran, Iran, specializing in plasma physics, fusion engineering, and plasma-material interaction. Since earning his Ph.D. in Fusion Engineering, he has led research in plasma focus devices, X-ray sources, and advanced coating technologies. With over 15 ISI-indexed publications, multiple conference papers, patents, and authored books, he has significantly contributed to Iran’s fusion research capacity. He has also held key academic roles, including Deputy of Research Affairs and Head of the Plasma Engineering Group. His work bridges experimental physics, device development, and innovative surface engineering.

Academic Profile

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Educational Background

Dr. Morteza Habibi holds a Ph.D. in Fusion Engineering and Plasma Physics from Amirkabir University of Technology, Tehran, Iran. His academic focus centers on plasma-material interaction, fusion energy systems, and the development of plasma-based technologies. Throughout his career, he has combined theoretical knowledge with experimental practice, contributing to the design and operation of advanced plasma focus devices. His education laid the foundation for a productive research career, marked by numerous scientific publications, technical innovations, and authored books. Dr. Habibi’s educational background continues to support his contributions to plasma engineering and his leadership in academic and research initiatives.

Professional Experience

Dr. Morteza Habibi has over 15 years of academic and research experience in the field of fusion energy and plasma physics. He began his career as an Assistant Professor at Amirkabir University of Technology in 2008 and was promoted to Associate Professor in 2015. He has served in several key administrative roles, including Deputy of Research Affairs (2014–2019) and Deputy of Graduate and Research Affairs (2021–2023). He also led the Plasma Engineering Group from 2019 to 2021. His professional work focuses on plasma diagnostics, fusion devices, X-ray sources, and surface coating technologies through plasma applications.

Awards and Honors

Dr. Morteza Habibi has been recognized for his significant contributions to plasma physics and fusion engineering through multiple academic and technical honors. His innovative work led to several national patents, including the development of a miniature pulsed plasma generator and a switching repetitive power supply. His translation and authorship of key plasma physics books have also been acknowledged within academic circles. As a dedicated researcher and educator, he has received institutional commendations for his leadership roles and scientific achievements. His efforts have strengthened Iran’s capabilities in fusion research and advanced plasma technology development.

Research Focus

Dr. Morteza Habibi’s research is centered on fusion energy, plasma physics, and plasma-material interaction, with a strong emphasis on experimental and applied plasma technologies. He has extensively worked on the design and operation of plasma focus devices, hard and soft X-ray generation, and high-energy ion beam applications. His studies also cover surface modification, plasma diagnostics, and the development of advanced coating techniques for industrial and energy applications. Through numerous journal publications, conference presentations, and technical innovations, Dr. Habibi’s research contributes to the advancement of fusion science and the development of efficient plasma-based engineering solutions.

Publication Top Notes

Improvement of corrosion and electrical conductivity of 316L stainless steel as bipolar plate by TiN nanoparticle implantation using plasma focus
Year: 2012 | Cited by: 52

High-voltage charging power supply based on an LCC-type resonant converter operating at continuous conduction mode
Year: 2019 | Cited by: 45

Experimental study of current discharge behavior and hard X-ray anisotropy by APF plasma focus device
Year: 2009 | Cited by: 43

Angular distribution of argon ions and X-ray emissions in the APF plasma focus device
Year: 2011 | Cited by: 32

TiCrN-TiAlN-TiAlSiN-TiAlSiCN multi-layers utilized to increase tillage tools useful lifetime
Year: 2019 | Cited by: 31

Enhanced electrical conductivity of two layers AlN–TiN coating on SS316L as bipolar plate using plasma focus device
Year: 2016 | Cited by: 31

A novel method for observation by unaided eyes of nitrogen ion tracks and angular distribution in a plasma focus device using 50 Hz–HV electrochemically-etched polycarbonate detectors
Year: 2012 | Cited by: 31

Conclusion

Dr. Morteza Habibi is a distinguished researcher in fusion engineering and plasma physics, with a focus on plasma-material interactions and plasma focus devices. As an Associate Professor at Amirkabir University of Technology, he has held key leadership roles and contributed extensively to experimental plasma research, publishing widely and securing multiple patents. His work on the Amirkabir Plasma Focus device has advanced national capabilities, making him a strong candidate for the Best Researcher Award based on innovation, leadership, and scientific impact.

 

 

Jacinta Okwako | Renewable Energy | Best Researcher Award

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Ms. Jacinta Okwako | Renewable Energy | Best Researcher Award

Ms. Jacinta Okwako at University of Nairobi, Kenya

Jacinta Okwako 🎓 is an innovative researcher in renewable energy, specializing in solar-powered smart window technologies 🌞🪟. With a PhD in Physics from the University of Nairobi and a Master’s in Energy Policy from PAUWES 🌍, she blends science, sustainability, and education seamlessly. Her work focuses on smart infrastructure, energy efficiency, and advanced material development ⚡🔬. Jacinta has taught physics at multiple institutions and thrives in multicultural, interdisciplinary research environments 🤝🌐. She’s presented internationally, won poster awards 🏅, and is passionate about solving global energy challenges for a greener future 🌱🌎.

Publication Profile

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Academic Background

Jacinta Okwako holds a PhD in Physics from the University of Nairobi (2020–present) , where she focuses on the fabrication and characterization of doped tungsten oxide nanoparticles for photoelectrochromic applications . She earned a Master’s in Energy Policy from PAUWES, Algeria (2016–2018) 🌍, researching energy efficiency in Kenyan industries. Additionally, she holds a Master’s in Physics (2013–2019) from the University of Nairobi, specializing in Cu₂ZnSnS₄ thin film characterization . Jacinta also completed a Bachelor of Education in Physics and Mathematics (2008–2012) 🎓 and scored an ‘A’ grade at Moi Forces Academy in 2006 🏅.

Professional Experience

Jacinta Okwako has built a solid career in education and research, currently serving as a Physics Lecturer at the Kenya Institute of Survey and Mapping since 2020. Her passion for teaching began at Moi Forces Academy, Mombasa (2012–2013) 🎓, and continued through Kianda School in Nairobi (2014–2015) and Windle Trust Kenya in Dadaab Refugee Camp (2015–2016) 📚, where she taught physics and mathematics. Her roles reflect dedication to shaping future scientists and addressing educational needs in both urban and underserved communities 💡🌱.

Awards and Honors

Jacinta Okwako has earned several prestigious certifications that showcase her commitment to continuous learning and innovation in energy and education. She attended the SE4A Summer School in Cameroon (2017), earning 3rd place for best poster presentation 🏅. She also participated in a Renewable Energy Summer School in Cologne, Germany , and the Solar Energy Materials Conference in Tunisia . Beyond energy, she completed Lay Counselling Training with UKaid in Garissa 🤝 and an Entrepreneurship Workshop for Scientists and Engineers in Nairobi (2014) 🧪, highlighting her multidisciplinary engagement.

Research Focus

Jacinta Okwako is dedicated to advancing cutting-edge research in renewable energy technologies, with a special focus on solar-powered smart window systems. Her goal is to contribute to sustainable, energy-efficient building solutions that align with global environmental priorities. With a strong interdisciplinary background in physics, energy policy, and education, she strives to drive innovation, support evidence-based policymaking, and engage in collaborative projects that tackle critical energy and environmental challenges 🌐🔥. Her work aims to bridge scientific discovery with real-world impact for a more sustainable and resilient future💡.

Publication Top Notes

Conclusion

Dr. Jacinta Okwako stands out as an exceptional candidate for the “Best Researcher Award” due to her impactful research in renewable energy, particularly in the development of photoelectrochromic smart window technologies that advance sustainable building solutions. Her academic achievements, including a PhD in Physics, multiple peer-reviewed publications, and collaborations with international institutions, reflect both scientific rigor and global relevance. Coupled with her interdisciplinary background in physics, energy policy, and education, she demonstrates a rare blend of innovation, technical depth, and societal impact. Her teaching experience, outreach in refugee settings, and recognition in international forums further highlight her as a well-rounded and inspiring researcher. 🌍🔬🏆

 

Sirine Saidi | Solar Energy | Best Researcher Award

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Dr. Sirine Saidi | Solar Energy | Best Researcher Award

Dr. Sirine Saidi at National engineering school of Monastir, Tunisia

Sirine Saidi is a dedicated PhD student in Energy Engineering at the University of Monastir, Tunisia 🇹🇳, with a strong background in renewable energy systems, hydrogen technologies, and academic instruction 🎓. Passionate about innovation, she combines research, teaching, and hands-on engineering experience to contribute to the global energy transition 🌍. Her work bridges academia and industry, focusing on practical applications of sustainable technologies like PV systems and hydrogen production ⚡. Sirine is also an avid reader and a technology enthusiast, continuously seeking growth and excellence through both research and collaboration 🤝.

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Academic Background

Sirine Saidi holds a National Doctoral Diploma in Energy Engineering from the University of Monastir 🏫, where she also completed her National Engineering Diploma in the same field. Prior to that, she earned a National Diploma for Entrance to Engineering Programs from ISSAT Gabès 🎓, following her Bachelor’s Degree in Experimental Sciences from Medenine Technical High School 🧪. Her academic path reflects a strong foundation in physics, chemistry, and energy systems, setting the stage for her advanced research in renewable energy and hydrogen technologies 🔬.

Professional Background

Sirine has gained diverse technical and academic experience through internships and teaching positions 👩‍🏫. She completed multiple internships in PV system design, hybrid power plants, and condenser sizing at major institutions like the Tunisian Chemical Group and SONEDE 🏭. She also served as a part-time lecturer at ENIM, teaching Energy Software (EES), Python programming, and fluid mechanics 💻. Her combined field and classroom experience have made her a versatile and impactful contributor to the energy engineering field ⚙️.

Awards and Honors

Sirine Saidi’s promising contributions have positioned her as a strong candidate for prestigious recognitions like the Best Researcher Award 🏆. Though formal awards are not listed yet, her impactful publications, international conference participation 🌐, and teaching excellence mark her as a rising star in energy research 🌟. Her published work in the International Journal of Hydrogen Energy and other reputable platforms demonstrate the academic rigor and practical relevance of her research 📚.

Research Focus

Sirine’s research focuses on renewable energy systems, specifically hydrogen production via PEM electrolyzers, thermodynamic modeling, and solar PV technologies ☀️🔋. She has published multiple papers on simulation and performance optimization using tools like MATLAB/Simulink, EES, and Python 🧠. Her work addresses key sustainability challenges, including green hydrogen, hybrid energy systems, and energy efficiency. With a balance of theoretical modeling and hands-on experimentation, her research contributes directly to a cleaner, more sustainable energy future 🌱⚡.

Publication Top Notes

📘 Numerical investigation of indirect parallel PVT solar systems using MATLAB/Simulink
Year: 2025 |  Author: S. Saidi, T. Brahim, A. Jemni | Journal: Engineering Research Express

Conclusion

Sirine Saidi is a highly qualified and competitive candidate for the Best Researcher Award, with a focused PhD in Energy Engineering and a strong track record in renewable energy research, particularly in hydrogen technologies, photovoltaic systems, and energy modeling. Her academic foundation is complemented by hands-on technical internships and impactful teaching roles at the National School of Engineering of Monastir. She has contributed to peer-reviewed journals like the International Journal of Hydrogen Energy and Engineering Research Express, showcasing expertise in PEM electrolyzers, hydrogen compression, and PVT solar systems using tools like MATLAB/Simulink and EES. With a passion for sustainable energy, advanced simulation, and academic mentorship, Sirine embodies the qualities of a next-generation energy leader committed to addressing global energy challenges.