Ma Haohao | Intelligent Construction | Best Researcher Award

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Ma Haohao | Intelligent Construction | Best Researcher Award

Assist Prof. Dr. Ma Haohao at Zhongyuan University of Technology | China

Dr. Ma Haohao is an Associate Professor at the School of Intelligent Construction and Civil Engineering, Zhongyuan University of Technology. He obtained his academic training in civil and geotechnical engineering at Henan University of Urban Construction and Chang’an University, where he advanced from undergraduate to doctoral studies. He has devoted his career to teaching and research in geotechnical engineering, soil mechanics, slope stability, and construction technologies. Dr. Ma has authored research articles in recognized journals, contributed to academic monographs, and developed patented experimental devices, showcasing his integration of scientific research with practical engineering innovation.

Professional Profile

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Education

Dr. Ma pursued his studies in civil engineering and specialized in geotechnical engineering, completing his undergraduate, master’s, and doctoral degrees at respected Chinese universities. His educational journey provided him with a strong foundation in soil mechanics, slope stability, and structural engineering.

Experience

Dr. Ma has been affiliated with Zhongyuan University of Technology for his academic career, beginning as a lecturer and later serving as an associate professor. He has contributed to both the School of Civil Engineering and the School of Intelligent Construction and Civil Engineering. His work includes teaching, guiding students, and carrying out research in applied geotechnical engineering and intelligent construction methods.

Professional Development

Dr. Ma Haohao’s professional development reflects a strong commitment to advancing geotechnical engineering and intelligent construction. He has continuously deepened his expertise by applying new testing techniques, such as fiber optic sensing and centrifugal modeling, while also integrating intelligent technologies into soil analysis and foundation studies. His participation in interdisciplinary collaborations, research publications, and academic exchanges has strengthened his ability to bridge theoretical knowledge with practical solutions. Through these efforts, he has cultivated a professional profile that emphasizes innovation, teaching excellence, and impactful contributions to the development of civil and geotechnical engineering practices.

Research Interests 

Dr. Ma’s research focus lies in the field of geotechnical engineering with an emphasis on intelligent construction applications. His studies address soil parameter inversion, slope instability, and foundation pit deformation, while also exploring advanced methods such as neural networks and fiber optic sensing for monitoring and prediction. He is particularly interested in combining artificial intelligence with geotechnical analysis to enhance construction safety and performance. By concentrating on the integration of theoretical modeling and experimental validation, his research aims to solve practical engineering problems, improve structural durability, and support the sustainable development of civil infrastructure projects.

Awards and Recognitions 

Dr. Ma has achieved recognition through his contributions to geotechnical research and engineering practice. His work includes the authorship of academic publications in international and national journals, highlighting his scholarly influence in the field. He has co-authored a specialized monograph on tunnel durability and is the inventor of a patented geotechnical soil testing device, which underscores his ability to translate academic insights into applied technologies. These achievements, combined with his dedication to teaching and mentoring, reflect his growing impact and recognition within the academic and engineering communities.

Top Noted Publications 

Title: Small-sample-oriented time-dependent reliability calculational methodology for tunnel lining structures
Year: 2025

Title: Centrifugal model test study on instability mechanism by rain of widened roadbed slope
Year: 2023

Conclusion

In conclusion, Dr. Ma Haohao is an accomplished academic whose career reflects a balance of education, research, and innovation in geotechnical engineering. His dedication to teaching, combined with his scholarly publications and patented contributions, demonstrates a commitment to advancing both theoretical knowledge and practical engineering applications. By integrating intelligent technologies into geotechnical research, he continues to shape the future of civil engineering education and practice. His achievements illustrate not only academic excellence but also a forward-looking vision for sustainable and intelligent construction development.

Ziyu Li | Environmental | Best Researcher Award

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Ziyu Li | Environmental | Best Researcher Award

Dr. Ziyu Li at North China University of Water Resources and Electric Power | China

Dr. Ziyu Li is a researcher at the North China University of Water Resources and Electric Power, specializing in water resources management and hydraulic engineering safety. He holds a PhD from the same institution and has contributed to several national and provincial-level projects. His research integrates advanced monitoring technologies, computational modeling, and environmental safety analysis to improve the performance, stability, and sustainability of hydraulic structures. With multiple publications in leading journals such as Water Research X and Water Resources Management, Dr. Li’s work provides technical foundations for enhancing the safety and efficiency of water resource systems in China and beyond.

Professional Profile

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Education 

Dr. Ziyu Li obtained his PhD in Engineering from the North China University of Water Resources and Electric Power, where he developed expertise in hydraulic structures, water management, and environmental monitoring.

Experience 

Dr. Li has led and participated in numerous research projects funded by national and provincial programs, focusing on hydraulic engineering safety, vibration monitoring, and rainfall prediction. He has authored articles in indexed journals, contributed to water resources innovation projects, and collaborated with multiple research teams across China. His professional experience spans structural monitoring, environmental safety, and computational modeling, supporting sustainable water resource utilization.

Professional Development

Dr. Li has consistently advanced his professional growth through active participation in major national and provincial research initiatives. He has contributed to the development of innovative methodologies for vibration analysis, rainfall prediction, and hydrological data imputation, combining computational techniques with real-world applications. As a principal and collaborative researcher, he has enhanced his expertise by engaging with interdisciplinary teams and applying his findings to hydraulic safety and environmental sustainability. His professional development also includes publishing in high-impact journals, contributing to research innovation, and applying his knowledge to industry-related projects, reinforcing his position as a dedicated and impactful researcher in his field.

Research Interests 

Dr. Li’s research is centered on hydraulic engineering safety monitoring , environmental science , and sustainable water resource management . His work integrates advanced computational models , such as entropy analysis and machine learning, with structural monitoring technologies to improve the safety and reliability of dams, pipelines, and hydropower facilities. He also develops predictive models for rainfall and hydrological data to support climate resilience and resource planning. By combining environmental safety with engineering innovation, his research contributes to the long-term stability, efficiency, and ecological sustainability of water resources systems, bridging science, engineering, and environmental protection.

Awards and Recognitions 

Dr. Ziyu Li has been recognized for his active contributions to water resources engineering and safety monitoring through involvement in prestigious research programs, including the National Key Research and Development Program of China, the National Natural Science Foundation of China, and several provincial-level innovation projects. He has published in internationally indexed journals and developed patentable innovations in hydraulic monitoring. His recognition also extends to collaborative roles in high-impact projects supporting water management and environmental protection. His consistent research contributions demonstrate his standing as an emerging leader in hydraulic engineering and sustainable water resource management.

Top Noted Publications 

Title: The Method for Determining Optimal Analysis Length of Vibration Data Based on Improved Multiscale Permutation Entropy
Year: 2021

Title: Study on Vibration-Transmission-Path Identification Method for Hydropower Houses Based on CEEMDAN-SVD-TE
Year: 2022

Title: Study on Vibration Characteristics of the Dike Crossing Pipeline Based on EWT and CWT
Year: 2024

Title: A Novel Coupled Model for Monthly Rainfall Prediction Based on ESMD-EWT-SVD-LSTM
Year: 2024

Title: The Superior Coupled Model with Innovative Strategy for Accurate Imputation of Missing Hydrological Monitoring Data in Water Research – A Case of Groundwater Level Data
Year: 2025

Conclusion

Dr. Ziyu Li has built a strong academic and research portfolio that bridges engineering, technology, and environmental sustainability. Through advanced modeling, monitoring, and predictive analysis, he has enhanced the safety and resilience of hydraulic infrastructure while supporting efficient water management. His contributions reflect both academic excellence and real-world impact, positioning him as a promising researcher dedicated to advancing sustainable solutions for water resources and environmental protection.

Hamid El Qarnia | Thermal Energy | Best Researcher Award

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Hamid El Qarnia | Thermal Energy | Best Researcher Award

Prof. Hamid El Qarnia at Cadi Ayyad University | Morocco

Prof. Hamid El Qarnia is a renowned scholar in thermal sciences and renewable energy systems, with decades of teaching and research experience. He is a Full Professor at the Department of Physics, Faculty of Sciences Semlalia, Cadi Ayyad University, Marrakesh, Morocco. His expertise spans heat and mass transfer, phase change materials, solar energy systems, thermal energy storage, cooling of electronic components, and computational fluid dynamics. Widely published in international journals and conferences, he has collaborated globally and contributed significantly to sustainable energy solutions. His academic leadership, supervision, and editorial service reflect his lasting impact on science and engineering.

Professional Profile

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Education 

Prof. El Qarnia holds a Ph.D. in Mechanical Engineering from the University of Sherbrooke, Canada, and a Doctorat in Energetics from Cadi Ayyad University, Morocco.

Experience 

He began his academic career at Cadi Ayyad University, advancing through all ranks to Full Professor. He has also taught and conducted research at the University of Sherbrooke in Canada, at ENERSTATE in Canada, and has served as a visiting professor in France. In addition, he has taught at the Private University of Marrakesh and at Mohammed VI University in Benguérir. Over the course of his career, he has taught courses in heat transfer, thermodynamics, mechanics, and fluid dynamics, while supervising numerous graduate and undergraduate students. He has also played an active role in faculty committees, research collaborations, and scientific community service.

Professional Development

Prof. El Qarnia has significantly advanced the academic and research landscape of thermal sciences through leadership and active engagement. He has organized and chaired major international scientific events, ensuring a platform for collaboration and knowledge exchange. He serves on scientific, editorial, and organizing committees of international conferences, as well as editorial boards of peer-reviewed journals. As a reviewer for journals, conferences, and research projects, he has contributed to the dissemination and quality of global research. He has authored book chapters, led funded projects, examined dissertations, and carried out research stays abroad. His career reflects a strong commitment to education, research, and international cooperation.

Research Interests 

Prof. El Qarnia’s research focuses on heat and mass transfer, phase change materials (PCM), and advanced thermal energy storage systems . He has extensively worked on solar energy systems, cooling technologies for electronics and Li-ion batteries, and innovative heat exchangers. His studies combine experimental methods, thermodynamics, and computational fluid dynamics (CFD) to optimize efficiency and sustainability. A key aspect of his work is the development of energy storage systems using PCMs, essential for renewable energy integration and green technologies. By advancing heat transfer enhancement techniques, he addresses pressing challenges in sustainable energy, climate adaptation, and energy-efficient engineering.

Awards and Recognitions 

Prof. El Qarnia is widely recognized in the scientific community for his contributions to energy and thermal sciences. He has organized and chaired international conferences, delivered keynote lectures, and served as session chair in global scientific events. He has authored book chapters, reviewed research projects, and served as a jury member for numerous dissertations. His involvement as a reviewer, editorial board member, and research collaborator with universities abroad highlights his strong international presence. His distinguished service as a mentor, organizer, and scientific leader demonstrates his enduring contributions to academic excellence and innovation.

Top Noted Publications 

Title: 3D Two Phases Reduced Model of a Rock Bed Thermocline Thermal Energy Storage Unit: Parametric Study on Thermal Performances
Year: 2025

Title: Acoustic, Mechanical, and Thermal Characterization of Polyvinyl Acetate (PVA)-Based Wood Composites Reinforced with Beech and Oak Wood Fibers
Year: 2025

Title: A New Modelization of Concentrated/Simple Industrial InGaP/InGaAs/Ge and Silicon Solar Cells: Insights on High Leverage Variables
Year: 2025

Title: Electrification of Africa through CPV Installations in Small-Scale Industrial Applications: Energetic, Economic, and Environmental Analysis
Year: 2022

Conclusion

Prof. Hamid El Qarnia’s career demonstrates a deep commitment to renewable energy, heat transfer, and advanced thermal systems. Through decades of teaching, pioneering research, and international collaboration, he has established himself as a leading figure in energy science and engineering. His dedication to sustainable solutions and his mentorship of young researchers have left a lasting mark on academia and industry alike.

Xikui Li | Computational Mechanics | Best Researcher Award

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Xikui Li | Computational Mechanics | Best Researcher Award

Prof. Xikui Li at Dalian University of Technology | China

Prof. Xikui Li is a distinguished scholar in computational mechanics, serving as Professor in the Department of Engineering Mechanics at Dalian University of Technology, China. With a long and impactful academic career, he has contributed pioneering research in porous media mechanics, finite element methods, granular materials, and multiphase fluid–structure interaction. His collaborations with global leaders such as Prof. O.C. Zienkiewicz have produced influential works that advanced finite element theory and applications. As the author of numerous journal papers, Prof. Li has made lasting contributions to civil, mechanical, and oil engineering fields, earning widespread national and international recognition.

Professional Profile

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Education & Experience

Prof. Li graduated from the Department of Mechanical Engineering at Dalian University of Technology (DUT). He pursued further studies in Computational Mechanics at Swansea University, UK, under the mentorship of Prof. O.C. Zienkiewicz, where he earned his Ph.D. He began his academic career at DUT, advancing through faculty ranks to become a full professor. In addition to his academic work, he also served as a senior finite element software engineer at FEA Ltd., London. Later, he was awarded the Australia Research Council International Fellowship at the University of Newcastle, further strengthening his international research collaborations.

Professional Development

Throughout his professional journey, Prof. Li has held influential academic and leadership positions. He served as Vice-Chairman and Chairman of the Academic Committee of Solid Mechanics of China, contributing to national research strategy and academic growth. As Director of the Division of “Structures, Architectures and Environments” at the National Science Foundation of China (NSFC), he evaluated and guided major projects. He is currently Director of the Division of Computational Mechanics of Granular Materials under the Association of Computational Mechanics of China. His editorial roles in International Journal for Numerical Methods in Engineering and International Journal of Damage Mechanics demonstrate his global impact.

Research Interests 

Prof. Li has received numerous prestigious honors recognizing his outstanding contributions. He was awarded the APACM Award for Senior Scientists by the Asian Pacific Association for Computational Mechanics. His research has been recognized with both the Scientific and Technical Progress Award and the Natural Science Award from the Ministry of Education of China. In addition, he was selected as an ARC International Fellow at the University of Newcastle. His continued service on editorial boards and academic committees further reflects his international recognition.

Awards and Recognitions 

Hind Hallabia has been recognized through her successful collaborations with international research institutions such as the French Alternative Energies and Atomic Energy Commission, Aix-Marseille University, and the Digital Research Center of Sfax. Her doctoral and postdoctoral contributions in pansharpening and segmentation have been acknowledged within academic and applied research communities. She has also gained recognition by completing advanced training validated by NASA’s Applied Remote Sensing Training Program. Her continuous participation in cross-disciplinary projects and teaching assignments further reflects the professional trust placed in her expertise, marking her as a promising researcher and educator in the field of signal and image processing.

Top Noted Publications 

Title: Effective Pressure and Generalized Effective Biot Stress of Porous Continuum in Unsaturated Granular Materials
Year: 2023
Cited By: 1

Title: A Numerical Model of Discrete Element – Liquid Bridge – Liquid Thin Film System for Wet Deforming Granular Medium at Low Saturation
Year: 2022
Cited By: 6

Title: Flow Regimes and Phase Transitions in Granular Matter: Multiscale Modeling from Micromechanics to Continuum – Editorial
Year: 2022
Cited By: 1

Title: Effective Hydro-Mechanical Material Properties and Constitutive Behaviors of Meso-Structured RVE of Saturated Granular Media
Year: 2020
Cited By: 8

Conclusion

Prof. Xikui Li is a pioneering figure in computational mechanics, recognized for his innovative contributions to finite element methods, porous media modeling, and granular material mechanics. His research has bridged theoretical foundations with real-world applications in engineering, leading to advances in civil, mechanical, and environmental systems. Through over 150 publications, leadership in national committees, and international collaborations, he has played a vital role in shaping the development of modern computational mechanics. His career reflects a sustained commitment to scientific excellence, mentorship, and global academic exchange, leaving a profound and lasting impact on the field.

Hind Hallabia | Signal and Image Processing | Best Researcher Award

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Hind Hallabia | Signal and Image Processing | Best Researcher Award

Dr. Hind Hallabia at National Institute and School of Applied Sciences of Centre Loire Valley | France

Hind Hallabia is a researcher and educator in Electrical Engineering with expertise in signal and image processing. She has served as a teaching and research assistant in several universities in France and Tunisia, contributing to courses in telecommunications, multimedia, electronics, and digital systems. Her academic journey reflects strong interdisciplinary skills, combining engineering education with advanced training in signal and image analysis. She has actively engaged in applied research, particularly in pansharpening, segmentation, and remote sensing technologies, while also mentoring students in technical subjects. With both research and teaching experience, she continues to bridge innovation and education in engineering.

Professional Profile

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Education 

Hind Hallabia earned a Ph.D. in Electrical Engineering, specializing in signal and image processing, from the University of Sfax in collaboration with the National Graduate School of Engineering of Sfax. Her doctoral thesis focused on pansharpening techniques using sensor-adjusted filter banks for automatic object detection. She also holds a Master of Science in Electronics, with research conducted at the French Alternative Energies and Atomic Energy Commission and ENIS, centered on optimizing segmentation of primate brain data. Additionally, she earned an Engineering Diploma in Electrical Engineering with a focus on computer systems, and her earlier studies were rooted in experimental sciences.

Experience 

She has worked extensively as a teaching and research assistant at institutions in France and Tunisia, including Aix-Marseille University, the University Institute of Technology of Blois, the University Institute of Technology of Aix-Marseille Arles, and the National Graduate Schools of Electronics, Telecommunications, and Engineering of Sfax. Her teaching spans a wide range of subjects such as signals and systems, digital and analog processing, telecommunications, web integration, information theory, operating systems, and cybersecurity. Alongside teaching, she has actively contributed to research laboratories in applied signal and image processing, remote sensing, and computational modeling.

Professional Development

Hind Hallabia has consistently strengthened her professional development through diverse academic and research engagements across Tunisia and France. She has designed and delivered lectures, tutorials, and practical sessions in electronics, telecommunications, multimedia, and digital systems. Her professional growth is further enriched by postdoctoral and collaborative research on pansharpening methods, deep learning, segmentation, and remote sensing applications. She has acquired technical expertise in MATLAB, Python, C++, GDAL, and specialized image processing toolkits. By combining advanced research with higher education teaching, she has cultivated a balanced academic profile that integrates innovation, applied knowledge, and pedagogical excellence to support both students and research communities.

Research Interests 

Hind Hallabia’s research is focused on signal and image processing, with a strong specialization in pansharpening, segmentation, and remote sensing technologies. She has developed novel approaches to improve image resolution, quality, and spectral analysis, applying methods such as superpixel segmentation, polynomial regression modeling, and adaptive detail injection. Her work also extends to biomedical image processing, where she applied segmentation techniques to brain imaging and cardiac scintigraphy. More recently, she has explored LiDAR technology, oceanographic data analysis, and deep learning applications for satellite imaging. Her research bridges engineering, artificial intelligence, and environmental sciences, advancing both theoretical and applied methods.

Awards and Recognitions 

Hind Hallabia has been recognized through her successful collaborations with international research institutions such as the French Alternative Energies and Atomic Energy Commission, Aix-Marseille University, and the Digital Research Center of Sfax. Her doctoral and postdoctoral contributions in pansharpening and segmentation have been acknowledged within academic and applied research communities. She has also gained recognition by completing advanced training validated by NASA’s Applied Remote Sensing Training Program. Her continuous participation in cross-disciplinary projects and teaching assignments further reflects the professional trust placed in her expertise, marking her as a promising researcher and educator in the field of signal and image processing.

Top Noted Publications 

Title: A Graph-Based Superpixel Segmentation Approach Applied to Pansharpening
Year: 2025

Title: Land and aquatic spectral signatures analysis over a spatio-temporal hazardous area acquired by Worldview satellite
Year: 2025

Title: Advanced Trends in Optical Remotely Sensed Data Fusion: Pansharpening Case Study
Year: 2025

Title: A novel detail injection framework using latent low-rank decomposition for multispectral pan-sharpening
Year: 2023

Title: A Graph-Based Textural Superpixel Segmentation Method for Pansharpening Application
Year: 2021

Title: An Optimal Use of SCE-UA Method Cooperated With Superpixel Segmentation for Pansharpening
Year: 2021

Title: An Enhanced Pansharpening Approach Based on Second-Order Polynomial Regression
Year: 2021

Title: A context-driven pansharpening method using superpixel based texture analysis
Year: 2021

Rachid Jalal | Molecular Modeling | Best Researcher Award

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Rachid Jalal | Molecular Modeling | Best Researcher Award

Prof. Rachid Jalal at Université Cadi Ayya | Morocco

Prof. Rachid Jalal is a distinguished professor and researcher at the Faculty of Sciences and Techniques, Cadi Ayyad University in Marrakech. He holds doctorates from both Aix-Marseille University in France and Cadi Ayyad University in Morocco. His expertise lies in organic and theoretical chemistry, where he has made lasting contributions to teaching, research, and academic leadership. Over the course of his career, he has guided numerous student projects, created innovative teaching resources, and advanced digital education within his institution. His research integrates organic synthesis, molecular modeling, and chemical formulation, marking him as a key figure in Moroccan higher education.

Professional Profile

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Education 

Prof. Jalal pursued advanced studies in chemistry, earning a doctorate from Aix-Marseille University in France and later a Doctorat d’État from Cadi Ayyad University in Morocco. His academic training reflects a strong foundation in both experimental and theoretical aspects of chemistry.

Experience 

He has built a long-standing career as a faculty member at the Faculty of Sciences and Techniques, Cadi Ayyad University. His teaching covers organic chemistry, molecular modeling, quantum mechanics, chemical formulation, and biopolymers across different university levels. Beyond teaching, he has held multiple responsibilities, including coordinating modules, overseeing laboratory work, guiding final-year projects, and leading the Master’s program focused on natural substances and biopolymers.

Professional Development

Throughout his career, Prof. Jalal has actively advanced professional development in both teaching and research. He has designed and delivered innovative digital learning resources, such as video-based organic chemistry lessons and interactive online platforms that strengthen student engagement. He has also taken leadership roles in managing academic modules, the chemistry department’s library, and its IT infrastructure, as well as coordinating advanced Master’s programs. His contributions extend to participation in national initiatives on open education and learning assessment, where his insights supported educational reforms. His trajectory highlights a blend of pedagogy, scientific research, and academic service to the community.

Research Interests 

Prof. Jalal’s research is centered on organic chemistry, theoretical chemistry, and molecular modeling, with a special interest in the preparation and transformation of carboxylic acids. His work blends experimental laboratory research with computational approaches to study chemical reactivity and reaction mechanisms. His inventive contributions include patented methods in carboxylation processes, demonstrating innovation in synthetic chemistry. In parallel, he explores natural substances and biopolymers, with an emphasis on sustainable applications that connect chemistry with environmental needs. His work stands at the crossroads of fundamental science and applied solutions, offering advancements for future-oriented chemistry.

Awards and Recognitions 

Prof. Jalal has been recognized through patents on novel processes for the synthesis of carboxylic acids, achieved in collaboration with international researchers. These inventions highlight his pioneering contributions to the field of organic synthesis. Within his university, he has consistently been entrusted with leadership roles, including the coordination of academic modules, management of Master’s programs, and promotion of digital education. His contributions to national educational events and reflective initiatives on learning and teaching practices further underline his academic recognition. These achievements affirm his standing as a respected researcher and educator within Morocco and the international scientific community.

Top Noted Publications 

  • Title: Improved synthesis of 1-chloroadamantane by hydride transfer induced by tertiarybutylchloride
    Year: 1989

  • Title: Synthesis of carboxylic acids from alkanes by transcarboxylation. A novel transfunctionalization reaction involving a hydride transfer
    Year: 1992

  • Title: Convenient preparation of 1-adamantanol from adamantane induced by a hydride transfer
    Year: 1992

  • Title: AM1 theoretical study on the mechanism of 1,3-dipolar cycloaddition reaction of 1,2,4-triazepine and formonitrile oxide
    Year: 1998

  • Title: 2,7-Dimethyl-3,5-bis-methylthio-6-(1’-phenyl-4’-methyl-Δ2-oxazolinyl-3’-one)-2H[1,2,4]triazepine
    Year: 2001

  • Title: 2,7-Dimethyl-3-thioxo-5-(-2oxo-2-phenyl)ethylidene-3,4,5,6-tetrahydro-2H[1,2,4]triazepine
    Year: 2001

  • Title: Ab initio and density functional theory studies of peri- and regioselectivity in 1,3-dipolar cycloaddition reaction of 1,2-diazepine with nitrile oxide
    Year: 2002

Yuhong Ding | Construction Material | Best Researcher Award

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Yuhong Ding | Construction Material | Best Researcher Award

Prof. Yuhong Ding at Macau University of Science and Technology | China

Prof. Yuhong Ding is a Ph.D. student in Architecture at the Faculty of Humanities and Arts, Macau University of Science and Technology, and a Professor at the School of Civil and Architectural Engineering, Liming Vocational University. Her research bridges traditional architectural heritage and modern innovation, focusing on structural durability, digital modeling, and sustainable restoration. She has published multiple academic papers, including a notable work unveiling the triple durability mechanism of Quanzhou’s brick-faced clay core walls. Holder of several national invention patents, she actively integrates research, patents, industry, and teaching, championing the vision of “science benefiting society.”

Professional Profile

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Education 

Yuhong Ding is currently pursuing her Ph.D. in Architecture at the Faculty of Humanities and Arts, Macau University of Science and Technology. Her academic training combines deep expertise in architectural heritage, structural analysis, and preservation techniques.

Experience 

She serves as a Professor at the School of Civil and Architectural Engineering, Liming Vocational University, where she has guided students to top national awards in architectural skills competitions. She has authored academic papers and developed national invention patents, successfully implementing them in the preservation and construction sectors.

Professional Development

Yuhong Ding has advanced her academic and professional profile by combining research, technological innovation, and practical training. Her publications have introduced the triple durability mechanism of brick-faced clay core walls in Quanzhou’s heritage architecture, contributing to restoration strategies in the Fujian–Taiwan region. She has designed digital control models, construction training devices, and BIM management systems, securing national patents with real-world applications. Her closed-loop model of “scientific research – patent – industry – teaching” underscores her holistic approach, while her leadership in skills competitions demonstrates her dedication to fostering future professionals in architectural engineering.

Research Interests 

Yuhong Ding’s research lies at the intersection of architectural heritage conservation, structural engineering, and digital construction technologies. Her primary focus is on the durability and sustainable restoration of traditional residential architecture, particularly the unique brick-faced clay core walls in the Quanzhou World Heritage area. She integrates advanced analysis methods with practical conservation strategies, emphasizing culturally sensitive preservation. Beyond structural studies, her work extends to developing patented digital control and BIM-based systems to enhance heritage management. By merging tradition with innovation, she seeks to ensure the long-term resilience of historical buildings while contributing to regional cultural sustainability.

Awards and Recognitions 

Yuhong Ding has earned multiple distinctions for her contributions to research, innovation, and education. She has guided her students to win top national honors in architectural skills competitions. Her publications have been recognized for pioneering analysis of heritage wall durability in Quanzhou. In addition, she has been granted national invention patents, each implemented in professional practice, further underscoring her impact on the architectural engineering field. These achievements reflect her commitment to integrating academic research with tangible societal and industry benefits.

Top Noted Publications 

  • Title: Durability Analysis of Brick-Faced Clay-Core Walls in Traditional Residential Architecture in Quanzhou, China
    Year: 2025

  • Title: Exploring the Techniques of Pile Cutting in Fujian and Taiwan through Oral History Method
    Year: 2025

  • Title: Analysis of Dimensional Design Rules for Ancient Buildings in Southern Fujian: A Case Study of the Hui’an River Bottom School
    Year: 2021

  • Title: Exploration into the Traditional Exterior Wall Decoration of Buildings in Quanzhou City: “Putting Bricks into Stones”
    Year: 2019

Seung Won Lee | High Voltage Power Cable | Best Researcher Award

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Seung Won Lee | High Voltage Power Cable | Best Researcher Award

Dr. Seung Won Lee at Korea Electrotechnology Research Institute | South Korea

Dr. Seung Won Lee is a dedicated researcher at the Korea Electrotechnology Research Institute (KERI), specializing in high-voltage electrical systems. He earned his Ph.D. in Electronic Engineering from Mokpo National Maritime University in 2022. Since joining KERI in 2016, Dr. Lee has been actively involved in advanced research focused on the reliability and diagnostics of HVAC and HVDC power cable systems. With a deep commitment to energy system safety and sustainability, his work contributes significantly to Korea’s evolving power infrastructure. He currently works within the Superconductivity Research Center at KERI, located in Changwon-si, South Korea.

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Education and Experience 

Seung Won Lee obtained his Ph.D. degree in Electronic Engineering from Mokpo National Maritime University in 2022, where he developed expertise in high-voltage diagnostics. He began his professional career in 2016 as a researcher at the Korea Electrotechnology Research Institute (KERI), where he continues to work in the Superconductivity Research Center. His research has primarily focused on the reliability assessment and diagnostic techniques for aging high-voltage alternating current (HVAC) and high-voltage direct current (HVDC) power cable systems. His educational background and hands-on experience have positioned him as a valuable contributor to Korea’s energy research landscape.

Professional Development

Throughout his career, Dr. Seung Won Lee has continually pursued professional growth through both academic and practical engagements. At KERI, he has contributed to multiple national projects related to high-voltage energy systems and has collaborated with cross-disciplinary teams to advance diagnostic technologies. He has also participated in international conferences and workshops, presenting findings on cable system aging and reliability. His involvement in long-term infrastructure safety initiatives underlines his dedication to building a more resilient power grid. Dr. Lee remains engaged with professional societies to stay updated on emerging technologies and maintain excellence in the energy engineering sector.

Research Interests 

Dr. Seung Won Lee’s research centers on high-voltage power cable diagnostics and system reliability, particularly in HVAC and HVDC systems. His focus involves advanced techniques for detecting and analyzing aging phenomena in power cables, enhancing preventive maintenance and fault prediction capabilities. By leveraging both experimental data and simulation methods, his work ensures stability and efficiency in electrical transmission infrastructure. He is especially engaged in projects that address energy sustainability and grid modernization, often within superconductivity and insulation aging domains. His research is vital for the safe operation of critical energy networks and long-distance electricity transmission systems.

Awards and Recognitions 

Dr. Seung-Won Lee has been recognized for his valuable contributions to the field of electrical engineering through several internal and collaborative awards at the Korea Electrotechnology Research Institute (KERI). His research efforts in diagnosing aging mechanisms in high-voltage power cables have led to commendations within the Superconductivity Research Center for excellence in innovation and applied engineering. Additionally, his published works and presentations in international conferences have earned him peer acknowledgment and invitations to expert panels on energy infrastructure diagnostics. These accolades reflect his continued commitment to enhancing power system reliability and his impact on national energy resilience.

Top Noted Publications 

  • Title: Calculation of Aging Coefficient for Establishing Aging Condition Index of Thermoplastic Insulated Power Cables
    Year: 2025

  • Title: Reliability Evaluation of Improved Sampling Method for Mechanical Test of Cable Insulation
    Year: 2025

  • Title: Assessment of Cooling Conditions of Thermoplastic Insulation and Uniformity of Breakdown Strength for Medium-Voltage Direct Current Extruded Cable Insulation
    Year: 2024

  • Title: Reliability Assessment of Statistical Distributions for Analyzing Dielectric Breakdown Strength of Polypropylene
    Year: 2023

  • Title: Evaluation of Electrical Performance and Life Estimation of PPs for HVDC Power Cable
    Year: 2021

Noureddine Menad | Electronic Waste | Best Researcher Award

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Noureddine Menad | Electronic Waste | Best Researcher Award

Mr. Noureddine Menad at Bureau de Recherches Géologiques et Minières | France

Noureddine Menad is an expert engineer and project leader at BRGM, specializing in the physico-chemical treatment and recycling of industrial wastes such as metallurgical residues, electronic waste, and automotive shredder residues. With a doctorate in geoscience focused on pyro-metallurgical waste treatment from INPL Nancy (1995), he has accumulated decades of experience in both academic and industrial research environments. He has served as an associate professor at Luleå University of Technology in Sweden and contributed to multiple national and European recycling projects. Since 2006, he has led innovative waste management initiatives at BRGM, emphasizing environmental sustainability and circular economy practices.

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ORCID

Education

Noureddine Menad holds a strong academic background in geoscience and mineral valorization. He graduated from the École des Mines in Saint Petersburg, Russia, in 1985, and also completed a Master’s degree in mineral valorization the same year. Upon returning to France, he earned a DESS (Diplôme d’Études Supérieures Spécialisées) in geoscience in 1990 and was also recognized as an expert engineer in mineral valorization during the same period. He further advanced his expertise by completing a Doctorate in Geoscience at INPL Nancy in 1995, focusing on the pyro-metallurgical treatment of industrial waste.

Experience

With a multidisciplinary and international career, Noureddine Menad has over three decades of experience in the field of waste treatment and recycling. He served as an Associate Professor (Docent) at the Luleå University of Technology in Sweden in 2004, where he contributed to academic and industrial research collaborations. Since 2006, he has been serving as a Project Manager at BRGM (French Geological Survey), leading several major projects related to the recycling of industrial wastes, including metallurgical slags, used phosphor powders, and WEEE (waste electrical and electronic equipment). His work spans from laboratory-scale experimentation to European-level project coordination, emphasizing innovation and sustainable waste management practices.

Professional Development

Noureddine Menad’s professional development has been marked by a strong commitment to applied geoscience, sustainable engineering, and international collaboration. His early training in Russia and France laid a robust foundation in mineral valorization and waste processing. He transitioned seamlessly from academia to high-level applied research, taking on roles such as associate professor and leading multi-year projects funded by European and national agencies. At BRGM, he has advanced technologies for recycling steel slags, phosphor powders, and WEEE, and contributed to environmental research on emissions from recycling industries. His multidisciplinary expertise has positioned him as a leader in circular economy innovation.

Research Interests 

Noureddine Menad’s research primarily revolves around industrial waste recycling, environmental geoscience, and resource recovery. His focus includes developing physico-chemical treatment methods for metallurgical byproducts, automotive shredder residues, and electronic waste . His pioneering work has improved the recovery of rare and valuable metals like vanadium, chromium, and rare earths from complex waste streams. He is also engaged in pyrolysis modeling, emissions control, and slags utilization for pollution mitigation and resource reuse. His contributions directly support sustainable industrial practices and the advancement of a circular economy framework across Europe and beyond .

Awards and Recognitions 

While specific named awards are not listed, Noureddine Menad’s recognition is evident through his leadership roles in numerous prestigious national and European projects such as ANR’s ORLA and VALOPLUS, and the EU’s REWARD and BIOMINE. His selection as an associate professor in Sweden and long-standing position at BRGM underscore his status as a trusted expert in waste valorization and environmental engineering. His work has contributed significantly to policy-shaping scientific research and the advancement of recycling technologies, earning him recognition within international research and environmental innovation communities.

Top Noted Publications 

Title: Process Development for Concentrating Valuable Metals Present in the Non-Valorized Solid Fractions from Urban Mining
Year: 2025

Title: Electrostatic Separation of Valuable Metals From Finely-Ground WEEE
Year: 2025

Title: Innovative Process for Strategic Metal Recovery from Electric Arc Furnace Slag by Alkaline Leaching
Year: 2024

Title: Characterization of a Chromium-Bearing Carbon Steel Electric Arc Furnace Slag after Magnetic Separation to Determine the Potential for Iron and Chromium Recovery
Year: 2021

Title: Process for Enhancing the Valuable Metal Recovery from “Electric Arc Furnace” (EAF) Slags
Year: 2021

Title: Advances in Carboxylate Collectors Adsorption on Monazite Surface: Part 1 – Assessment of the Hydroxylation and Carbonation of Surface Lanthanide Ions
Year: 2019

Title: Economic Assessment and Carbon Footprint of Recycling Rare Earths from Magnets: Evaluation at Lab Scale Paving the Way Toward Industrialization
Year: 2019

Jiangdong Xu | Modeling | Best Researcher Award

Published on by Composite Awards

Jiangdong Xu | Modeling | Best Researcher Award

Mr. Jiangdong Xu at Shandong University of Technology | China

Jiangdong Xu is a dedicated researcher affiliated with Shandong University of Technology in Zibo, Shandong, China. As a first author, he has contributed significantly to advancements in agricultural machinery and simulation modeling, particularly in the design of vertical threshing drums under high-moisture conditions and in developing a discrete meta-model of crushable maize kernels. His work addresses critical issues in crop processing efficiency and precision. Jiangdong’s research demonstrates both theoretical depth and experimental innovation, earning him publication in high-impact SCI journals and recognition for pioneering discrete element modeling techniques in agricultural engineering.

Professional Profile

ORCID

Education

Mr. Jiangdong Xu holds a Bachelor’s degree in Agricultural Engineering . He is either pursuing or has completed postgraduate research at Shandong University of Technology, reflecting his active engagement in academic and applied research in the field.

Experience

Mr. Xu is currently a researcher at Shandong University of Technology in Zibo, China. He has contributed as both lead and co-author to several SCI-indexed publications, particularly within Zones II to IV. His expertise includes the use of EDEM simulation software for mechanical modeling and parameter testing. Additionally, he has been practically involved in machinery design and orthogonal experimental analysis, highlighting his applied engineering skills and analytical capabilities

Professional Development

Jiangdong Xu has continuously expanded his research capabilities by combining advanced modeling tools with experimental testing. His work on maize threshing mechanics and seed crush simulations reflects a growing expertise in discrete element modeling (DEM), particularly in agricultural applications. He actively engages in collaborative research and stays updated with cutting-edge simulation software like EDEM. Jiangdong also contributes to scholarly publishing as a first and third author in recognized SCI journals. His ability to translate complex mechanical behavior into accurate digital simulations marks his professional development in both academic and applied engineering domains.

Research Interests 

Jiangdong Xu’s research focuses on Agricultural Engineering and Computational Modeling, particularly the use of Discrete Element Method (DEM) for simulating crop mechanics . His primary interests include threshing mechanism optimization, crushable seed kernel simulation, and mechanical property testing of agricultural materials. He specializes in reducing breakage in high-moisture maize threshing, improving machinery efficiency, and creating metamodels for accurate simulation of seed interactions. His work bridges experimental mechanics with computational simulation to enhance the precision and performance of agricultural equipment—contributing innovative solutions to global food engineering challenges.

Awards and Recognitions 

Jiangdong Xu has received recognition for his pioneering work in the field of agricultural machinery and simulation modeling. His first-author paper on the design of a vertical threshing drum under high-moisture conditions was published in an SCI Zone IV journal, while his innovative meta-modeling work on maize kernel crushability, a first in international research, was published in a Zone II journal with an impact factor of 3.6. He is also a contributing third author to a Zone II Top journal submission with an impact factor of 5.3, reflecting the academic value and impact of his interdisciplinary research contributions.

Top Noted Publications 

Title: Discrete Meta-Modeling Method of Breakable Corn Kernels with Multi-Particle Sub-Area Combinations
Year: 2025