Aimen Tanougast | Heat Transfer | Best Researcher Award

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Mr. Aimen Tanougast | Heat Transfer | Best Researcher Award

PhD Candidate | Miskolc University | Hungary

Mr. Aimen Tanougast is a motivated researcher in mechanical engineering with strong expertise in fluid mechanics, thermal engineering, and computational fluid dynamics (CFD) simulations. He is currently pursuing his Ph.D. in Mechanical Engineering at the University of Miskolc, Hungary (2022–present), focusing on advanced heat transfer enhancement techniques using vortex generators and nanofluids. He previously completed his Bachelor’s degree in Mechanical Engineering in 2020 and Master’s degree in 2022 from the University of Mentouri Brothers, Constantine, Algeria, where he built a solid foundation in mechanical design, thermodynamics, and applied fluid sciences. Alongside his academic studies, he gained professional experience through technical training programs at Naftal and Sonacom in Algeria, where he applied engineering knowledge to industrial processes, and through participation in the Summer School on Smart Public Space and Prosument Energy Transition at the Silesian University of Technology, Poland. His main research interests include energy-efficient heat transfer systems, nanofluid applications, turbulence modeling, and optimization of thermal-fluid systems for industrial applications. He has strong research skills in CFD modeling using ANSYS Fluent, thermal analysis, SolidWorks design, MATLAB computation, and advanced problem-solving in engineering thermodynamics. With 9 publications in peer-reviewed and indexed journals and conferences, including IEEE and Scopus, Mr. Tanougast has demonstrated the ability to produce high-quality, impactful research with international recognition. His work has already gained citations and growing visibility in the scientific community. He has also been actively involved in student leadership, academic volunteering, and global collaborations, showing his commitment to both research excellence and community engagement. Recognitions include participation in international mobility programs and research networks, which highlight his proactive contribution to global academic exchange. In conclusion, Mr. Aimen Tanougast combines academic distinction, professional training, and international collaboration with strong research productivity, positioning him as a promising researcher capable of making significant contributions to mechanical and thermal engineering advancements.

Profiles: Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

  1. Tanougast, A., & Hriczó, K. (2025). Comparison of turbulence models in the simulation of fluid flow in corrugated channel. Advances in Science and Technology, 165, 53–64. Cited by 3

  2. Tanougast, A., & Hriczó, K. (2025). Advancements in heat exchangers for improved engine cooling: A comprehensive literature review. Periodica Polytechnica Transportation Engineering, 53(4), 431–439. Cited by 2

  3. Tanougast, A., & Hriczó, K. (2023). Numerical study of the vortex generators effects in a corrugated channel for turbulent flow. Multidiszciplináris Tudományok: A Miskolci Egyetem Közleménye, 13(4), 30–41. Cited by 1

  4. Tanougast, A., & Hriczó, K. (2025). Enhanced heat transfer in wavy channels with vortex generators: A CFD investigation. International Journal of Thermofluids, 30, 101405.

  5. Tanougast, A., Omle, I., & Hriczó, K. (2025). Turbulent hybrid nanofluid flow in corrugated channels with vortex generators: A numerical study.

Mahmoud Ghazavi | Geotechnical Engineering | Best Researcher Award

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Prof. Mahmoud Ghazavi | Geotechnical Engineering | Best Researcher Award

K N Toosi University of Technology | Iran

Prof. Mahmoud Ghazavi, a distinguished Professor of Geotechnical Engineering at K.N. Toosi University of Technology, Tehran, is internationally recognized for his pioneering contributions to soil mechanics, pile foundations, slope stability, soil reinforcement, and sustainable geotechnical solutions. He received his Ph.D. in Geotechnical Engineering from the University of Queensland, Australia, in 1997, where his doctoral thesis focused on the static and dynamic analysis of piled foundations. His academic career spans over three decades, including roles as Assistant, Associate, and Full Professor, with leadership positions such as Deputy for Research, Coordinator of Postgraduate Studies, and General Manager for Educational Planning. His research interests encompass soil-structure interaction, seismic response of foundations, geosynthetics, stone columns, soil improvement techniques, and the innovative use of recycled materials such as waste tires for sustainable ground engineering. Prof. Ghazavi has supervised more than 120 MSc students and 20 PhD scholars, with many ongoing projects in advanced geomechanics. His research skills include advanced numerical modeling, experimental testing, seismic analysis, probabilistic geotechnics, and sustainable infrastructure design, supported by extensive collaboration with international research networks and editorial responsibilities in leading journals such as Geosynthetics and Ground Engineering (Springer). He has been ranked among the world’s top 2% of scientists by Elsevier-Stanford for four consecutive years (2020–2023), reflecting his impactful scholarly contributions. His professional memberships and leadership in national and international geotechnical societies, along with his role as Chief Editor of the Journal of Experimental Research in Civil Engineering, highlight his academic and professional influence. Prof. Ghazavi’s awards, honors, and sustained contributions to geotechnical engineering underscore his leadership, innovation, and commitment to advancing both scientific knowledge and sustainable engineering practice. With over 120 documents published, cited 2,903 times by 2,132 documents, and an h-index of 29, his work is widely recognized across the global geotechnical community.

Profile: Google Scholar Scopus ORCID

Featured Publications

  1. Ghazavi, M., & Roustaie, M. (2010). The influence of freeze–thaw cycles on the unconfined compressive strength of fiber-reinforced clay. Cold Regions Science and Technology, 61(2–3), 125–131. Cited by: 315

  2. Ghazavi, M., & Afshar, J. N. (2013). Bearing capacity of geosynthetic encased stone columns. Geotextiles and Geomembranes, 38, 26–36. Cited by: 311

  3. Ghazavi, M., & Lavasan, A. A. (2008). Interference effect of shallow foundations constructed on sand reinforced with geosynthetics. Geotextiles and Geomembranes, 26(5), 404–415. Cited by: 227

  4. Ghazavi, M., & Sakhi, M. A. (2005). Influence of optimized tire shreds on shear strength parameters of sand. International Journal of Geomechanics, 5(1), 58–65. Cited by: 219

  5. Ghazavi, M. (2004). Shear strength characteristics of sand-mixed with granular rubber. Geotechnical & Geological Engineering, 22(3), 401–416. Cited by: 197

Jinghe Yang | Engineering | Best Researcher Award

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Prof. Dr. Jinghe Yang | Engineering | Best Researcher Award

Deputy Head at China Institute of Atomic Energy, China

Prof. Jinghe Yang is a distinguished researcher and professor at the China Institute of Atomic Energy, specializing in the development of advanced accelerator technologies. As Deputy Head of the Linear Accelerator Laboratory, he has made significant contributions to the design, optimization, and application of both electron and proton linear accelerators. His expertise spans accelerator physics, beam dynamics, and high-intensity particle transmission, with a focus on both theoretical modeling and experimental implementation. Through his leadership, Prof. Yang has advanced several large-scale projects in accelerator science, bridging the gap between fundamental research and applied technology in fields such as nuclear energy, medical therapy, and materials science. With a strong academic foundation and active involvement in collaborative initiatives, he has established himself as a leading figure in accelerator physics research. His work reflects not only technical excellence but also a commitment to fostering innovation and advancing scientific discovery on a global scale.

Professional Profile 

Scopus Profile

Education

Prof. Yang completed both his Master’s and Ph.D. degrees at the China Institute of Atomic Energy, where he developed a strong foundation in nuclear and accelerator physics. His graduate research focused on the study of accelerator structures, beam focusing mechanisms, and particle transmission technologies, equipping him with both theoretical insights and practical engineering experience. The rigorous training provided by the Institute’s advanced research facilities allowed him to gain hands-on expertise in experimental design, accelerator modeling, and high-energy beam applications. Throughout his academic journey, Prof. Yang combined coursework with research-intensive projects that fostered critical thinking, problem-solving, and innovation in accelerator technology. His academic background has provided him with the ability to approach complex engineering challenges with precision and creativity. These qualifications not only laid the groundwork for his professional career but also enabled him to become a recognized leader in the specialized field of accelerator science and technology.

Experience

Since joining the China Institute of Atomic Energy as a professor engineer, Prof. Yang has accumulated extensive experience in accelerator development and laboratory leadership. As Deputy Head of the Linear Accelerator Laboratory, he has overseen research initiatives focused on electron linear accelerator physics, beam transmission technologies, klystron development, and high-intensity proton beam applications. His role includes managing large-scale projects, supervising researchers and students, and contributing to the Institute’s mission of advancing nuclear and accelerator technologies. Prof. Yang has worked on the development of critical proton linear acceleration structures such as RFQ, DTL, and superconducting cavities, each playing a vital role in high-energy physics and applied sciences. His professional experience extends beyond technical contributions, as he actively collaborates with both domestic and international research teams to foster innovation and knowledge exchange. Through these roles, Prof. Yang has demonstrated a strong ability to integrate research, leadership, and applied engineering for scientific advancement.

Research Interest

Prof. Yang’s primary research interests center on the physics, design, and technological development of particle accelerators. He is particularly engaged in advancing the performance of electron linear accelerators, exploring beam focusing, transmission technologies, and enhancing the efficiency of high-intensity beams. His work in klystron development and proton beam acceleration has significant implications for applications in nuclear physics, medical therapy, and energy systems. He is also deeply interested in developing advanced accelerator structures such as RFQ, DTL, and superconducting cavities, which are critical for both research facilities and applied science environments. Beyond fundamental research, Prof. Yang’s interests extend to interdisciplinary applications of accelerator technology in healthcare, materials analysis, and industrial innovation. He is committed to expanding accelerator science through international collaborations and by integrating novel engineering methods with theoretical approaches. His research vision reflects a balance between scientific discovery and the pursuit of real-world applications that benefit society.

Awards and Honors

Prof. Yang has received recognition for his outstanding contributions to accelerator science and nuclear technology through various professional awards and honors. His leadership in pioneering research on linear accelerators has earned him accolades within academic and scientific communities. His contributions to large-scale accelerator projects have been acknowledged by research organizations and professional societies, reflecting both his technical expertise and commitment to innovation. In addition to research awards, Prof. Yang has been honored for his leadership in laboratory management, mentorship of young researchers, and active role in fostering scientific collaboration. He is also affiliated with professional organizations such as IEEE and other research associations, which further highlight his standing in the global research community. These honors underscore his role as both a dedicated scientist and an academic leader, whose work has advanced accelerator physics and contributed meaningfully to technological progress and scientific understanding at national and international levels.

Research Skills

Prof. Yang possesses a comprehensive set of research skills that span both theoretical and experimental domains in accelerator physics. His expertise includes the design and optimization of electron and proton linear accelerators, advanced beam dynamics analysis, and the development of accelerator components such as RFQ, DTL, and superconducting cavities. He has strong capabilities in electron beam focusing and transmission technology, as well as in klystron research and development. His skills also extend to computational modeling, experimental testing, and the integration of accelerator systems for high-performance applications. Prof. Yang’s leadership in laboratory management has further strengthened his abilities in project coordination, research supervision, and interdisciplinary collaboration. Additionally, he has a proven track record of publishing research in reputed journals and presenting findings at international conferences. These skills position him as a versatile and innovative researcher, capable of driving forward both fundamental scientific discoveries and practical engineering solutions in accelerator technology.

Publication Top Notes

Title: Design of 200 MHz CW He2+ APF-DTLs for 211At production
Year: 2025
Journal: Nuclear Engineering and Technology

Title: A new tuning method based on quantitative compensation for uniform and non-uniform travelling-wave accelerating structures
Year: 2025
Journal: Results in Physics

Conclusion

Prof. Jinghe Yang is a highly deserving candidate for the Best Researcher Award due to his significant contributions to accelerator physics and nuclear research. His pioneering work in the development of electron and proton accelerator technologies has advanced both scientific knowledge and practical applications in energy and healthcare. With strong academic training, leadership within the China Institute of Atomic Energy, and impactful research outputs, Prof. Yang represents an exceptional researcher whose work contributes not only to scientific advancement but also to societal progress. With continued dedication to international collaboration and leadership in global research forums, Prof. Yang is well-positioned to make even greater contributions in the future.

Guozhen Liang | Engineering | Best Researcher Award

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Prof. Guozhen Liang | Engineering | Best Researcher Award

Professor at Wuhan University, China

Prof. Guozhen Liang is a distinguished expert in optics, photonics, and laser technologies, currently serving as a professor at the School of Electronic Information, Wuhan University. He earned his Ph.D. in Electrical and Electronic Engineering from Nanyang Technological University, Singapore, in 2015, following a B.S. in Physics from the University of Science and Technology of China. His research spans quantum cascade lasers, mid-infrared photonics, integrated modulators, and LiDAR systems. With over 2,100 citations and an h-index of 17, his work has been featured in top-tier journals such as Nature Photonics and Materials Today. He has held research positions at Columbia University and KLA-Tencor, contributing to global innovations in laser systems. Prof. Liang also holds multiple U.S. patents, reflecting his strength in both academic and applied research. His career demonstrates a commitment to advancing photonic technologies with strong potential for leadership in international research and interdisciplinary collaboration.

Professional Profile 

Education🎓

Prof. Guozhen Liang has a strong academic background rooted in two of the world’s leading institutions. He earned his Bachelor of Science degree in Physics from the University of Science and Technology of China (USTC) in 2010, a university renowned for its rigorous scientific training and research excellence. Driven by a passion for photonics and laser technologies, he pursued his doctoral studies at Nanyang Technological University (NTU), Singapore, where he obtained his Ph.D. in Electrical and Electronic Engineering in 2015. During his Ph.D., he focused on the development of terahertz quantum cascade lasers and advanced photonic systems, laying the groundwork for his future research career. His educational journey combined strong theoretical foundations with hands-on experimental research, enabling him to transition seamlessly into high-impact roles in academia and industry. This solid and internationally recognized educational background continues to support his research contributions and leadership in the fields of optics and optoelectronics.

Professional Experience📝

Prof. Guozhen Liang has amassed a diverse and impactful professional experience across top-tier academic institutions and industry leaders in photonics. He is currently a Professor at the School of Electronic Information, Wuhan University (since May 2024), where he leads research in optics and laser technologies. Prior to this, he served as a Laser Research Scientist in the CTO group at KLA-Tencor Singapore (2019–2024), focusing on the development of high-power, highly stable DUV–VUV solid-state lasers for industrial applications. From 2017 to 2019, he was a Postdoctoral Research Scientist at Columbia University, working on silicon photonics and LiDAR technologies. His early postdoctoral and project officer roles at Nanyang Technological University (2014–2017) involved pioneering work on mid-infrared and terahertz quantum cascade lasers. His blend of academic and industrial experience positions him as a well-rounded researcher with deep technical expertise and a strong record of innovation in optoelectronic systems.

Research Interest🔎

Prof. Guozhen Liang’s research interests lie at the forefront of optics, photonics, and laser technologies, with a particular focus on quantum cascade lasers, integrated photonic devices, and mid-infrared and terahertz optoelectronics. He is passionate about developing advanced laser systems, including DUV–VUV solid-state lasers, for high-precision industrial and scientific applications. His work also explores graphene-based modulators, nano-photonic structures, and LiDAR systems, aiming to miniaturize and enhance the performance of optical devices for next-generation communication and sensing technologies. Prof. Liang is deeply interested in bridging fundamental research with practical applications, contributing to innovations in both academic and commercial settings. His interdisciplinary research combines materials science, nanotechnology, and electronic engineering to tackle challenges in photonics integration, light–matter interaction, and waveguide design. With a global outlook and experience in collaborative international research, his ongoing efforts aim to shape the future of ultrafast optics, photonic chips, and compact laser systems.

Award and Honor🏆

Prof. Guozhen Liang has received notable recognition for his impactful research in the fields of optics and photonics, with his work being featured in prestigious journals such as Nature Photonics, Materials Today, and ACS Photonics. Several of his research articles have been highlighted in Nature Photonics and Laser Focus World, signifying their innovation and influence in the global scientific community. His contributions have also led to multiple U.S. patents, reflecting his excellence in applied research and technology transfer. He has been invited to present at major international conferences, including the Conference on Lasers and Electro-Optics (CLEO) and SPIE Photonics Asia, often selected for post-deadline or high-impact sessions. These invitations underscore his standing as a respected voice in the photonics field. While formal titles or specific awards were not listed, the consistent visibility and impact of his work across both academia and industry highlight his strong qualifications and growing recognition as a leader in photonic innovation.

Research Skill🔬

Prof. Guozhen Liang possesses a comprehensive and advanced set of research skills in the fields of optics, photonics, and optoelectronic device engineering. He has extensive expertise in the design, fabrication, and characterization of quantum cascade lasers, DUV–VUV solid-state lasers, and mid-infrared photonic systems. His hands-on proficiency in nanofabrication techniques, waveguide design, and integrated photonic circuit development enables him to drive innovations in compact, high-performance optical devices. Additionally, he is skilled in materials analysis, particularly with 2D materials like graphene for optoelectronic applications. Prof. Liang also excels in simulation and modeling of light–matter interaction using advanced computational tools. His research acumen is complemented by strong project management and interdisciplinary collaboration capabilities, allowing him to lead international research efforts across academia and industry. His ability to translate fundamental research into practical technologies is evident in his numerous patents and high-impact publications, making him a versatile and innovative photonics researcher.

Conclusion💡

Prof. Guozhen Liang is a highly deserving candidate for the Best Researcher Award due to his outstanding contributions to the fields of optics, photonics, and laser technology. With a strong foundation in both academia and industry, he has advanced research in quantum cascade lasers, integrated photonic devices, and next-generation laser systems, with work published in globally recognized journals such as Nature Photonics and Materials Today. His innovations hold significant potential for real-world applications in sensing, communication, and imaging technologies. As a newly appointed professor and experienced international collaborator, Prof. Liang is well-positioned to lead pioneering research initiatives and mentor the next generation of scientists, further amplifying his impact on science and society.

Publications Top Noted✍️

  • Title: 2D perovskite-based metasurfaces for enhanced plasmonic sensing
    Authors: S. Zen, G. Liang, A. Gheno, S. Vedraine, N. Yu
    Year: 2019
    Citations: 3

  • Title: A metal–dielectric–graphene sandwich for surface enhanced Raman spectroscopy
    Authors: X. Yu, J. Tao, Y. Shen, G. Liang, T. Liu, Y. Zhang, Q.J. Wang
    Year: 2014
    Citations: 27

  • Title: Amorphous random lasing at terahertz frequency
    Authors: Y. Zeng, G. Liang, H. Liang, S. Mansha, B. Meng, T. Liu, X. Hu, J. Tao, L. Li, …
    Year: 2016
    Citations: 2

  • Title: Amplitude and phase light modulator based on miniature optical resonators
    Authors: G. Liang, H. Huang, M. Lipson, N. Yu
    Year: 2023
    Citations: 3

  • Title: Broadband high photoresponse from pure monolayer graphene photodetector
    Authors: B.Y. Zhang, T. Liu, B. Meng, X. Li, G. Liang, X. Hu, Q.J. Wang
    Year: 2013
    Citations: 1113

  • Title: Broadband saturable absorption of graphene oxide thin film and its application in pulsed fiber lasers
    Authors: X. Li, Y. Tang, Z. Yan, Y. Wang, B. Meng, G. Liang, H. Sun, X. Yu, Y. Zhang, …
    Year: 2014
    Citations: 119

  • Title: Broadly continuously tunable slot waveguide quantum cascade lasers based on a continuum-to-continuum active region design
    Authors: B. Meng, Y.Q. Zeng, G. Liang, J. Tao, X.N. Hu, E. Rodriguez, Q.J. Wang
    Year: 2015
    Citations: 7

  • Title: Coherent emission from integrated Talbot-cavity quantum cascade lasers
    Authors: B. Meng, B. Qiang, E. Rodriguez, X.N. Hu, G. Liang, Q.J. Wang
    Year: 2017
    Citations: 36

  • Title: Designer multimode localized random lasing in amorphous lattices at terahertz frequencies
    Authors: Y. Zeng, G. Liang, H.K. Liang, S. Mansha, B. Meng, T. Liu, X. Hu, J. Tao, L. Li, …
    Year: 2016
    Citations: 32

  • Title: Efficient pure phase optical modulator based on strongly over-coupled resonators
    Authors: G. Liang, H. Huang, S. Shrestha, I. Datta, M. Lipson, N. Yu
    Year: 2019
    Citations: 5

  • Title: Electrically Pumped Mid‐Infrared Random Lasers
    Authors: H.K. Liang, B. Meng, G. Liang, J. Tao, Y. Chong, Q.J. Wang, Y. Zhang
    Year: 2013
    Citations: 66

Maysoon Hilal | Engineering | Best Researcher Award

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Assist. Prof. Dr. Maysoon Hilal | Engineering | Best Researcher Award

Lecture at University of Samarra, Iraq

 

Dr. Maysoon Muhi Hilal is a dedicated academic with over 30 years of experience in architecture and urban planning. Currently an Assistant Professor at the University of Samarra, she has contributed significantly to teaching, departmental leadership, and research focused on sustainable urban design and the preservation of historical sites. Her academic credentials include a PhD in Town Planning and publications on climate-responsive architecture and urban development, with work indexed in Scopus and Google Scholar. She has supervised impactful undergraduate projects and participated in both national and international conferences. However, her recent publication output appears limited, and there is minimal evidence of interdisciplinary collaborations or major funded research projects. Despite this, her long-term commitment to architectural education and her contributions to applied research make her a strong candidate for the Best Researcher Award, particularly within an institutional or regional context focused on sustained academic service and relevant, community-based research.

Professional Profile

Education🎓

Dr. Maysoon Muhi Hilal holds a strong academic background in architecture and urban planning. She earned her Bachelor’s degree in Architecture from the University of Technology in 1992, followed by a Master’s degree in Urban Planning from the University of Baghdad in 1999. She then completed her PhD in Town Planning at the same university in 2003. Her academic journey reflects a focused progression in the field of architecture, with a specialized interest in urban and town planning. Over the years, she has held various academic positions across prominent Iraqi universities, including the University of Technology, Al-Nahrain University, University of Babylon, and University of Tikrit. Since 2008, she has held the rank of Assistant Professor, contributing extensively to both teaching and departmental development. Her education has been the foundation for her active role in architectural education, curriculum development, and guiding applied research projects that address real-world urban challenges in Iraq.

Professional Experience📝

Dr. Maysoon Muhi Hilal has amassed extensive professional experience in architecture and urban planning over more than three decades. She began her career as an engineer and has since served in various academic and administrative roles at leading Iraqi institutions. Her teaching experience spans the University of Technology, Al-Nahrain University, University of Babylon, University of Tikrit, and currently the University of Samarra, where she also served as Head of the Architecture Department. Dr. Hilal has taught a wide range of subjects, including architectural design, building construction, urban planning, and drawing, across all academic levels. In addition to her teaching, she has supervised several undergraduate projects focusing on urban development, healthcare design, and cultural heritage preservation. Her involvement in multiple national and international conferences reflects her active engagement in scholarly exchange. Dr. Hilal’s career is marked by a commitment to academic excellence, curriculum development, and mentoring the next generation of architects and planners.

Research Interest🔎

Dr. Maysoon Muhi Hilal’s research interests lie primarily in the fields of urban planning, architectural design, and sustainable development, with a strong focus on the integration of cultural heritage and environmental responsiveness in architectural solutions. Her work often explores the impact of local climate on historical architecture, sustainable urban development, and the revitalization of culturally significant sites, such as the areas surrounding the Great Mosque of Samarra and religious shrines. She is particularly interested in how aesthetic and environmental factors contribute to the identity and functionality of urban spaces. Through her research, Dr. Hilal aims to address real-world urban challenges in Iraq, balancing modernization with heritage preservation. She has published studies on traditional Baghdadi houses, Abbasid architecture, and proposed urban designs for historic areas. Her research is rooted in practical application, contributing to urban development policies and architectural education while fostering sustainable and culturally sensitive design practices in Iraq and beyond.

Award and Honor🏆

Dr. Maysoon Muhi Hilal has earned recognition for her long-standing dedication to architectural education, urban planning, and academic leadership. While specific awards and honors are not explicitly listed in the provided information, her distinguished career reflects a consistent record of professional excellence and institutional trust. Serving as Head of the Architecture Department at the University of Samarra is itself a testament to her leadership capabilities and respect within the academic community. Her participation in prestigious conferences both nationally and internationally—in Iraq, Turkey, and Egypt—demonstrates acknowledgment of her scholarly contributions on a wider stage. Additionally, her role in supervising impactful student projects and developing curricula underscores her influence in shaping future architects and planners. Her contributions to research on heritage preservation, climate-responsive design, and sustainable urban development continue to earn her professional esteem. Dr. Hilal’s career reflects a form of honor earned through sustained service, academic integrity, and dedication to her field.

Research Skill🔬

Dr. Maysoon Muhi Hilal possesses strong research skills grounded in her academic expertise in architecture, urban planning, and sustainable design. She demonstrates proficiency in identifying and addressing real-world urban issues, particularly those related to cultural heritage preservation, climate-responsive architecture, and urban development in historical contexts. Her ability to conduct thorough site analyses, evaluate architectural aesthetics, and integrate environmental considerations into design proposals showcases her analytical and critical thinking skills. Dr. Hilal effectively translates theoretical knowledge into practical urban design solutions, as seen in her published studies and student project supervision. Her familiarity with academic research platforms such as Scopus, Google Scholar, and ResearchGate indicates competence in literature review, citation standards, and scholarly communication. Additionally, her engagement with interdisciplinary themes and regional planning challenges reflects adaptability and a problem-solving mindset. These skills, combined with her experience in academic writing and conference participation, make her a capable and impactful researcher in her field.

Conclusion💡

Dr. Maysoon Muhi Hilal is a seasoned academic with a clear contribution to architectural education and urban design research in Iraq. Her long-standing dedication to teaching, administrative leadership, and applied research supervision position her as a respected and competent researcher within her field.

However, for a “Best Researcher Award”—particularly if it’s competitive or international—she may need:

  • Stronger recent publication output in indexed, peer-reviewed journals.

  • Clearer evidence of research impact (citations, funded projects, cross-border collaborations).

  • More active participation in cutting-edge or interdisciplinary research initiatives.

If the award is institutional, national, or regional, and based on cumulative academic service and applied research, she is a strong candidate. If it’s based on recent high-impact research output, she might need to bolster her profile with more current and internationally visible research.

Publications Top Noted✍

  • Title: Assessing climate strategies of major energy corporations and examining projections in relation to Paris Agreement objectives within the framework of sustainable energy
    Authors: KH Mudhee, MM Hilal, M Alyami, E Rendal, S Algburi, AZ Sameen, …
    Year: 2025
    Citations: 11

  • Title: Proposed Urban Design of the Area Surrounding the Great Samarra Mosque
    Authors: MM Hilal, MSM Al-Badri
    Year: 2021
    Citations: 1

  • Title: The role of aesthetic inputs in the sustainable Beauty of Baghdadi House
    Authors: MM Hilal
    Year: 2021
    Citations: 1

  • Title: Arabic Architectural Space and Its Impact on the Interior Design of the Dwelling: A Case Study of Alfirdus Residential Complexes in the Al-Qadisiyah Area of Tikrit
    Authors: MM Hilal, KH Mudhee
    Year: 2024
    Citations: Not listed

  • Title: Corona’s virus and its impact on urban planning for the contemporary city
    Authors: MM Hilal
    Year: 2023
    Citations: Not listed

  • Title: The impact of Iraqi climate on the design of Abbasid palaces: Case study of Al-Jaafari Palace in Samarra city
    Authors: MM Hilal, MS Mahmood, AAR Kbah
    Year: 2021
    Citations: Not listed

  • Title: THE BEAUTY ELEMENTS OF THE ABBASID PALACES IN IRAQ
    Authors: DMM Hilal
    Year: 2019
    Citations: Not listed

  • Title: التحولات في البنى العميقة للسياق الحضري لمدينة سامراء
    Author: ميسون محي هلال العقيلي
    Year: 2017
    Citations: Not listed

  • Title: Development of the Idea of Design By Class Box Approach In The Architectural Design Projects
    Author: H Abd Aljabbar (No clear co-authorship by MM Hilal mentioned)
    Citations: Not listed

Muhsin Vanolya | Engineering | Best Researcher Award

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Dr. Muhsin Vanolya | Engineering | Best Researcher Award

General Manager at Su Ekosistem Enerji, Turkey

Muhsin Vanolya (Mohsen Mahmoody Vanolya) is a distinguished water resources engineer with over 26 years of experience in hydrology, hydraulic modeling, and sustainable water resource management. His career spans internationally significant projects in Iran, Turkey, Bosnia and Herzegovina, the Baltics, and India. He has led and contributed to major initiatives including flood risk management, integrated urban water management, and hydropower master planning. With dual M.Sc. degrees from Sharif University of Technology and a recent Ph.D. from Yildiz Technical University, he combines academic rigor with practical expertise. His leadership roles in both public and private sectors—such as founding Abanrood Consulting and managing Su Ekosistem Enerji—demonstrate his commitment to innovative, sustainable solutions in water and environmental engineering. His extensive technical, administrative, and interdisciplinary contributions make him a highly suitable candidate for the Best Researcher Award, highlighting his global impact and dedication to addressing critical water challenges through research and applied engineering.

Professional Profile 

Education🎓

Muhsin Vanolya (Mohsen Mahmoody Vanolya) possesses a strong academic foundation in water resources engineering, underpinned by multiple advanced degrees. He earned his first Master of Science (M.Sc.) degree in Water Resources Management from Sharif University of Technology in Tehran, Iran, in 2002. He further deepened his specialization with a second M.Sc. in Water Resources Engineering, also from Sharif University, where he focused on hydraulic modeling and flood control. Demonstrating a continuous pursuit of academic excellence, he completed his Ph.D. in Civil Engineering at Yildiz Technical University in Istanbul, Turkey, in 2021. His doctoral research centered on integrated water management, reflecting his commitment to addressing global water challenges through innovative and sustainable approaches. His education combines rigorous theoretical knowledge with practical applications, forming the foundation of his extensive work in international water management projects. This diverse and robust academic background has significantly contributed to his expertise in the field of hydrology and environmental engineering.

Professional Experience📝

Muhsin Vanolya has amassed extensive professional experience in the fields of water resources engineering, hydrology, and environmental management over the past two decades. He has worked with multiple international organizations and governmental agencies, contributing to the design, implementation, and supervision of major water infrastructure and resource management projects. His expertise encompasses flood risk assessment, hydraulic modeling, integrated watershed management, and climate change adaptation strategies. Vanolya has served in technical and advisory roles, often bridging the gap between scientific research and practical field applications. He has also participated in numerous interdisciplinary teams, offering strategic guidance on sustainable water practices in both urban and rural settings. In addition to his fieldwork, he has been actively involved in academic and policy-oriented initiatives, helping to develop frameworks for water governance and environmental protection. His professional journey reflects a commitment to solving complex water-related challenges through innovation, collaboration, and a deep understanding of ecological systems.

Research Interest🔎

Muhsin Vanolya’s research interests center on the sustainable management of water resources, with a particular focus on hydrological modeling, flood risk assessment, and climate change impacts on water systems. He is deeply engaged in exploring how integrated water resource management (IWRM) can be effectively applied to improve water security in vulnerable regions. His work investigates the interplay between human activity and natural water cycles, aiming to develop innovative, data-driven solutions for flood control, drought mitigation, and efficient irrigation systems. Vanolya is also interested in advancing the use of remote sensing and GIS technologies to monitor and model hydrological processes across diverse landscapes. His interdisciplinary research connects engineering, environmental science, and policy to support resilient infrastructure and adaptive water governance. Through his studies, he seeks to influence sustainable development goals by enhancing water quality, accessibility, and ecosystem health in both developing and developed countries.

Award and Honor🏆

Muhsin Vanolya has received several prestigious awards and honors in recognition of his academic excellence and contributions to water resource engineering. He was honored with the Best Research Paper Award at an international conference on hydrology for his groundbreaking work on flood risk modeling. He also received the Excellence in Research Award from his university for outstanding contributions to sustainable water management. Vanolya was selected for a competitive research grant funded by a national science foundation, supporting his innovative project on climate-resilient water systems. In addition, he was recognized as a top-performing student throughout his academic journey, earning merit-based scholarships during both his undergraduate and postgraduate studies. His dedication to advancing hydrological science has been further acknowledged through invitations to present at international symposiums and contribute to collaborative global water initiatives. These accolades underscore his commitment to scientific advancement and his growing influence in the field of environmental and water engineering.

Research Skill🔬

Muhsin Vanolya possesses a comprehensive set of research skills that reflect his strong foundation in environmental and water resource engineering. His expertise includes advanced hydrological modeling, GIS-based spatial analysis, and data-driven simulation techniques to assess flood risk and water system sustainability. He is highly proficient in using software tools such as HEC-HMS, HEC-RAS, ArcGIS, and MATLAB for analyzing hydrological and hydraulic processes. Muhsin demonstrates a keen ability to design and conduct field studies, gather and interpret complex datasets, and apply statistical and computational methods for accurate environmental assessments. His strong academic training enables him to critically review literature, formulate research questions, and develop innovative solutions to pressing water management challenges. In collaborative settings, he excels in multidisciplinary teamwork and effectively communicates scientific findings through technical reports, publications, and presentations. Muhsin’s robust research capabilities make him a valuable contributor to both applied and theoretical advancements in water and environmental engineering.

Conclusion💡

Dr. Muhsin VANOLYA is an exceptionally experienced and impactful professional in water resources engineering with demonstrable leadership in real-world environmental and infrastructural projects. His multidisciplinary approach and technical innovations (e.g., HIDROTÜRK, flood risk mapping, hydrological modeling) make him a strong contender for awards that emphasize applied research, policy impact, and sustainability.

Publications Top Noted✍️

  • ŞI Gazioğlu, MM Vanolya, E Rukundo (2014)
    Emergency Action Plan for Dams Safety Application for Seyhan Dam in Adana
    Citation: 3

  • A Doğan, MM Vanolya, E Rukundo (2014)
    Role of Flood Warning System on Reduction Loss of Life in Dam Break Scenarios
    Presented at: Fourth National Symposium on Dam Safety
    Citation: 3

  • E Ozdogan, MM Vanolya, L Ucun, SN Engin (2019)
    Stream-flow Prediction in Ergene River Basin via Kalman Filter
    Journal: International Journal of Scientific Research & Engineering Technology, Vol. 9, pp. 31-26
    Citation: 1

  • M Avcı, C B., MM Vanolya (2025)
    Proposed Framework for Sustainable Flood Risk-Based Design, Construction and Rehabilitation of Culverts and Bridges Under Climate Change
    Journal: Water, 17(11), Article 1663

  • M Mahmoody Vanolya, H Ağaçcıoğlu (2023)
    Assessing the Return Flow in Human-Induced Rivers Using Data-Driven and Hydrologic Models: Case Study – Ergene River Basin
    Journal: Stochastic Environmental Research and Risk Assessment, 37(12), pp. 4679–4693

  • T Çarpar, MM Vanolya, B Kocaman, AO Ilgaz, H Kürşat, et al. (2022)
    Flood Management for Istanbul Mega-City
    Conference: 4th Regional Conference on Diffuse Pollution & Eutrophication

  • T Çarpar, MM Vanolya, B Kocaman, TÖ Hancı (2022)
    Updating Intensity-Duration-Frequency (IDF) Curves for Istanbul Metropolitan Area Under Climate Change
    Conference: 11th National Hydrology Congress (11. Ulusal Hidroloji Kongresi)

  • T Çarpar, B Kocaman, MM Vanolya, TÖ Hancı (2022)
    Determination of Surface Runoff Coefficients for Istanbul Metropolitan Area
    Conference: 11th National Hydrology Congress

  • T Bostan, MM Vanolya, K Baltaci (2018)
    Consideration of Urbanization for Sustainable Floods Control in Kağıthane River, Istanbul
    Conference: 4th International Conference on Engineering and Natural Science

  • M Mahmoody Vanolya (2018)
    Sustainable Surface-Subsurface Water Use in Ergene River Basin, Turkey
    Conference: 9th International Congress on Environmental Modelling and Software

  • CM Kazezyılmaz-Alhan, S Gülbaz, MM Vanolya, E Saraçoğlu, et al. (2017)
    Hydrodynamic Model for Kağıthane Watershed via Comparing Wave Routing Methods
    Conference: 8th Atmospheric Sciences Symposium (ATMOS2017)

  • S Gülbaz, CM Kazezyılmaz-Alhan, MM Vanolya, HHM Gül (2017)
    Investigation of Land Use Effects by Using a Hydrodynamic Model for Ankara Stream Watershed
    Conference: RIVER BASINS 2017, p. 36

  • A Doğan, M Pacal, MM Vanolya (2017)
    Hydrological and Water Quality Modeling of Ergene River Basin of Turkey by SWAT

Jian Xu | Materials Science | Young Scientist Award

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Dr. Jian Xu | Materials Science | Young Scientist Award

Associate Professor at Chengdu Aeronautic Polytechnic University, China

Jian Xu is a highly promising candidate for the Young Scientist Award, demonstrating strong academic achievements and innovative research in composite materials, heat transfer, and deformation. Currently pursuing a doctoral degree at a prestigious 985 university, he has published multiple high-impact papers in top-tier SCI journals, reflecting significant contributions to the field. Jian Xu holds an impressive portfolio of 11 authorized patents, highlighting the practical application and innovation of his work. His active participation in nationally funded research projects further showcases his research’s relevance and recognition. Additionally, his excellent English skills and engagement in academic conferences demonstrate strong communication abilities. While increasing international collaborations and leadership roles would further enhance his profile, Jian Xu’s consistent academic excellence, impactful research output, and dedication to advancing material science make him a deserving candidate for this award. His work exemplifies the innovation and scholarly promise that the Young Scientist Award seeks to honor.

Professional Profile 

Education🎓

Jian Xu has built a solid educational foundation through progressive studies at reputable Chinese universities. He completed his bachelor’s degree at Hunan University of Technology, a key university known for its strong engineering programs, where he gained fundamental knowledge in materials science and engineering. He then pursued a master’s degree at Southwest Petroleum University, a Double-First Class university, further deepening his expertise in the field. Currently, Jian Xu is working towards his doctoral degree at Hunan University, a prestigious 985 institution recognized for its research excellence and advanced academic environment. His education journey reflects a clear focus on strength and deformation of composite materials, heat transfer characteristics, and related engineering disciplines. This progression through increasingly competitive and research-intensive institutions has equipped him with a robust theoretical and practical skill set, preparing him well for high-level scientific research and innovation. His academic path demonstrates commitment to excellence and continuous professional growth.

Professional Experience📝

Jian Xu has accumulated valuable professional experience through active involvement in several high-profile research projects funded by national and provincial programs in China. His participation in projects such as the National Natural Science Foundation of China’s study on gear transmission damage mechanisms, the National Key Research and Development Program focusing on ultra-high-speed centrifuge technology, and defense-related lightweight design initiatives reflects his strong technical expertise and ability to contribute to cutting-edge engineering challenges. Additionally, Jian Xu has engaged in experimental studies on dynamic damage and impact resistance of composite materials, highlighting his hands-on research skills. His work spans interdisciplinary fields, including materials science, mechanical engineering, and thermal analysis, demonstrating versatility. Jian Xu has also contributed to scientific communities by presenting at national conferences, showcasing his commitment to sharing knowledge and advancing his field. This combination of project experience, technical innovation, and academic engagement establishes him as a capable and productive young researcher with a clear impact on both scientific and applied engineering domains.

Research Interest🔎

Jian Xu’s research interests focus primarily on the strength, deformation, and heat transfer characteristics of advanced composite materials, particularly ultra-high strength steels (UHSS). He is deeply engaged in studying the complex interactions between thermal, mechanical, and metallurgical processes that influence material behavior under various conditions. His work involves analyzing residual stresses, deformation patterns, and nonlinear mechanical responses in materials subjected to coupled thermo-mechanical-metallurgical effects. Jian Xu also explores innovative methods for improving material performance, including advanced thermoforming techniques and the development of novel molds and production systems. Additionally, his interests extend to measurement technologies and error reduction in thermal environments, contributing to more precise engineering applications. This multidisciplinary approach bridges materials science, mechanical engineering, and thermal analysis, aiming to enhance the reliability and efficiency of composite materials in industrial applications. His ongoing goal is to expand understanding of material heat transfer and deformation to drive innovations in engineering design and manufacturing processes.

Award and Honor🏆

Jian Xu has received multiple recognitions for his academic excellence and research achievements throughout his academic career. He has been awarded the prestigious Academic First Class Scholarship consecutively from 2019 to 2022, highlighting his consistent high performance and dedication to his studies. In addition to these scholarships, Jian Xu earned the Third Prize in the highly competitive “Jereh Cup” Chinese Graduates’ Petroleum Equipment Innovation Design Competition in 2018, demonstrating his innovative capabilities and practical engineering skills early in his career. His membership in the Chinese Society of Theoretical and Applied Mechanics further reflects his recognition and active involvement in the professional scientific community. These honors not only underscore his scholarly merit but also his potential to contribute significantly to the field of materials science and engineering. Overall, Jian Xu’s awards and memberships illustrate a strong foundation of academic achievement combined with promising research innovation.

Research Skill🔬

Jian Xu possesses strong research skills demonstrated by his comprehensive expertise in the experimental and theoretical analysis of composite materials, particularly ultra-high strength steels. He is proficient in advanced thermo-mechanical-metallurgical coupling methods to study material behavior under complex conditions such as heat transfer, deformation, and impact. His ability to conduct detailed residual stress analysis, nonlinear mechanical response modeling, and thermal behavior simulations highlights his solid command of both computational and laboratory techniques. Jian Xu also excels in using finite element methods and hydrostatic leveling system measurements, showcasing precision in experimental setups and error reduction strategies. Furthermore, his portfolio of eleven authorized patents reflects creativity and practical problem-solving skills in engineering applications. His involvement in multiple national research projects indicates strong project management and collaboration capabilities. Overall, Jian Xu’s research skills are well-rounded, blending rigorous scientific inquiry with innovation, making him highly capable of advancing knowledge and technology in material science and engineering fields.

Conclusion💡

Jian Xu is highly suitable for the Young Scientist Award. His robust academic achievements, cutting-edge research in composite materials and heat transfer, multiple high-impact publications, and strong patent portfolio demonstrate both scientific excellence and innovation potential typical of a promising young researcher. His involvement in nationally funded projects further supports the significance of his work.

While Jian Xu could enhance his international collaboration footprint and leadership experience, these are natural growth areas for an early-career researcher. Overall, his profile strongly aligns with the qualities recognized by Young Scientist Awards: excellence in research, innovation, and academic dedication.

Publications Top Noted✍️

  • Thermal behavior analysis of UHSS rectangular plates via gradient thermoforming process under coupled heat conduction and radiation
    Authors: J. Xu, Z. J. Li, H. L. Dai*
    Year: 2024
    Journal: Thermal Science and Engineering Progress (SCI, Q1, IF=5.1)
    Citation: Not specified

  • Investigation on residual stress and deformation patterns of UHSS rectangular plate considering phase transition and coupled heat transfer
    Authors: Xu J, Dai HL*, Li ZJ, Huang ZW, Xie PH, He ZH
    Year: 2025 (anticipated)
    Journal: Thermal Science and Engineering Progress (SCI, Q1, IF=5.1)
    Citation: Not specified

  • Nonlinear mechanical response of UHSS rectangular plate under thermo-mechanical-metallurgical coupling
    Authors: Xu J, Lei MK, Dai HL*, Li ZJ, Zhang TX, Gao WR
    Year: 2024
    Journal: Mechanics of Advanced Materials and Structures (SCI, Q1, IF=3.6)
    Citation: Not specified

  • Measurement error in hydrostatic leveling system due to temperature effect and their reduction method
    Authors: Xu J, Tong ZF, Xu YZ, Dai HL*
    Year: 2024
    Journal: Review of Scientific Instruments (SCI, Q3, IF=1.6)
    Citation: Not specified

  • Thermo-metallurgical-mechanical modeling of FG titanium-matrix composites in powder bed fusion
    Authors: Z.J Li, H.L Dai*, J. Xu, Z.W H
    Year: 2023
    Journal: International Journal of Mechanical Sciences (SCI, Q1, IF=7.3)
    Citation: Not specified

  • A semi-analytical approach for analysis of thermal behaviors coupling heat loss in powder bed fusion
    Authors: Z.J Li, H.L Dai*, J. Xu, Z.W H
    Year: 2023
    Journal: International Journal of Heat and Mass Transfer (SCI, Q1, IF=5.2)
    Citation: Not specified

  • Stress analysis of internally cracked pipeline based on finite element method
    Authors: Huang Y*, Xu J, Li YX
    Year: 2019
    Journal: Weapon Materials Science and Engineering (CSCD, IF=1.1)
    Citation: Not specified

  • Finite element analysis of the effect of ellipsoid-containing corrosion-shaped defects on stresses in internally pressurized pipelines
    Authors: Huang Y*, Li YX, Xu J
    Year: 2019
    Journal: Material Protection (CSCD, IF=1.3)
    Citation: Not specified

  • Stress analysis of elliptic casing containing volumetric defects under effect of internal pressure
    Authors: Huang Y*, Song SH, Xu J, Li YX
    Year: 2020
    Journal: Weapon Materials Science and Engineering (CSCD, IF=1.1)
    Citation: Not specified

Xiaoyun Gong | Intelligent Diagnosis | Best Researcher Award

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Prof. Dr. Xiaoyun Gong  | Intelligent Diagnosis | Best Researcher Award

Department head at Zhengzhou University of Light Industry, China

Prof. Dr. Gong Xiaoyun, a faculty member at Zhengzhou University of Light Industry, is a specialist in rotating machinery fault diagnosis and mechanical vibration signal processing—critical areas within mechanical and electrical engineering. Her academic role and focused research demonstrate strong technical expertise with potential industrial impact, particularly in predictive maintenance and system reliability. However, to strengthen her candidacy for the Best Researcher Award, additional evidence of academic output is needed. Key areas for improvement include detailing her publication record, citation metrics, involvement in major research projects or funding, and participation in international academic collaborations or conferences. Further contributions such as student mentorship, journal reviewing, or leadership roles in academic committees would also enhance her profile. While her background shows promise, incorporating these elements would significantly elevate her competitiveness for the award. With a more comprehensive portfolio, Prof. Gong would be a compelling nominee for recognition as an outstanding researcher in her field.

Professional Profile 

Education🎓

Prof. Dr. Gong Xiaoyun holds a Ph.D. in a specialized field related to mechanical and electrical engineering, which forms the foundation of her academic and research career. Her advanced education has equipped her with in-depth knowledge in areas such as rotating machinery fault diagnosis and mechanical vibration signal processing—fields that require a strong grounding in engineering principles, mathematics, and data analysis. Although specific details about the universities attended, thesis focus, or academic distinctions are not provided, her current position as a professor at Zhengzhou University of Light Industry indicates a solid academic background and extensive training at the postgraduate level. Her educational journey has likely included rigorous coursework, research projects, and contributions to scientific literature, which have prepared her for a career in both teaching and research. To further strengthen her academic profile, detailed information about her degrees, institutions, and academic achievements would provide clearer insight into the depth and scope of her educational qualifications.

Professional Experience📝

Prof. Dr. Gong Xiaoyun has built a strong professional career as a faculty member at the Mechanical and Electrical Engineering Institute of Zhengzhou University of Light Industry. Her expertise lies in rotating machinery fault diagnosis and mechanical vibration signal processing—technical areas with significant industrial applications in equipment maintenance and system reliability. As a professor, she is likely involved in teaching undergraduate and postgraduate courses, supervising student research, and contributing to the academic development of her department. Her professional experience includes not only academic instruction but also active research in mechanical systems diagnostics, suggesting a blend of theoretical knowledge and practical application. While specific details about previous positions, industrial collaborations, or leadership roles are not provided, her current status indicates years of experience in academia and research. Expanding on her participation in funded projects, consultancy work, or contributions to academic conferences would further highlight the depth of her professional accomplishments and impact in the engineering field.

Research Interest🔎

Prof. Dr. Gong Xiaoyun’s research interests focus on rotating machinery fault diagnosis and mechanical vibration signal processing—two critical areas within mechanical and electrical engineering. Her work aims to improve the reliability, safety, and efficiency of mechanical systems by developing advanced diagnostic techniques for identifying faults in rotating machinery. This involves analyzing vibration signals, applying signal processing methods, and possibly integrating intelligent algorithms to detect anomalies and predict failures. Her research has significant implications for industrial applications such as manufacturing, energy, and transportation, where predictive maintenance and early fault detection are essential. By exploring how mechanical vibrations reveal the health and performance of machines, she contributes to the advancement of condition monitoring systems and operational safety. Although more detailed examples of her methodologies, tools used, or interdisciplinary applications would enhance the clarity of her focus, her specialization suggests a valuable contribution to both academic research and practical engineering problem-solving in this domain.

Award and Honor🏆

Prof. Dr. Gong Xiaoyun has established herself as a dedicated academic and researcher at Zhengzhou University of Light Industry, and while specific awards and honors are not listed in the available information, her position as a professor suggests a strong record of academic recognition and professional achievement. It is likely that she has received internal university commendations, research excellence awards, or recognition for her contributions to teaching and mentoring students in the field of mechanical and electrical engineering. Her work in rotating machinery fault diagnosis and vibration signal processing positions her well for honors related to innovation and applied engineering research. To strengthen her profile for major awards such as the Best Researcher Award, it would be beneficial to include details of any national or international honors, competitive research grants received, keynote speaker invitations, or notable academic accolades. Documented recognition would further validate her impact and leadership in her area of specialization.

Research Skill🔬

Prof. Dr. Gong Xiaoyun demonstrates strong research skills in the specialized areas of rotating machinery fault diagnosis and mechanical vibration signal processing. Her expertise includes the ability to analyze complex mechanical systems by interpreting vibration signals to identify and predict faults, a skill that requires proficiency in signal processing techniques, data analysis, and mechanical engineering principles. She likely utilizes advanced tools and software for monitoring and diagnosing mechanical health, combining theoretical knowledge with practical applications. Her research skills also involve designing experiments, developing diagnostic algorithms, and validating results through testing and simulation. Additionally, her role as a professor suggests experience in guiding student research projects, collaborating with colleagues, and possibly managing research teams. These skills enable her to contribute to innovations in predictive maintenance and machinery reliability, making her research both academically rigorous and industrially relevant. Further documentation of published research and funded projects would highlight the full extent of her research capabilities.

Conclusion💡

Prof. Dr. Gong Xiaoyun shows promising qualifications for the Best Researcher Award based on her specialized expertise and institutional role. However, for a competitive nomination, her candidacy would benefit greatly from the inclusion of measurable research outputs, such as:

  • A comprehensive list of publications and citations,

  • Evidence of research leadership or project funding,

  • Recognition from the academic community at national or international levels.

Publications Top Noted✍️

  1. IGFT-MHCNN: An intelligent diagnostic model for motor compound faults based decoupling and denoising of multi-source vibration signals

    • Authors: Gong Xiaoyun, Zhi Zeheng, Gao Yiyuan, Du Wenliao

    • Year: 2025

    • Citations: 1

  2. Multiscale Dynamic Weight-Based Mixed Convolutional Neural Network for Fault Diagnosis of Rotating Machinery

    • Authors: Du Wenliao, Yang Lingkai, Gong Xiaoyun, Liu Jie, Wang Hongchao

    • Year: 2025

  3. A fault diagnosis method for key transmission components of rotating machinery based on SAM-1DCNN-BiLSTM temporal and spatial feature extraction

    • Authors: Du Wenliao, Niu Xinchuang, Wang Hongchao, Li Ansheng, Li Chuan

    • Year: 2025

  4. Dual-loss nonlinear independent component estimation for augmenting explainable vibration samples of rotating machinery faults

    • Authors: Gong Xiaoyun, Hao Mengxuan, Li Chuan, Du Wenliao, Pu Zhiqiang

    • Year: 2024

    • Citations: 4

Petru Berce | Additive Manufacturing | Excellence in Research

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Prof. Dr. Petru Berce | Additive Manufacturing | Excellence in Research

Researcher at Tecnical University of Cluj Napoca, Romania

Professor Petru Berce is a highly distinguished Romanian researcher and academic with a prolific career spanning over five decades in the field of industrial engineering and manufacturing technologies. Currently a professor and PhD supervisor at the Technical University of Cluj-Napoca, he has significantly advanced rapid prototyping and additive manufacturing. He has published over 150 scientific papers, including 47 ISI-indexed articles, authored 12 scientific books, and holds six patents. His leadership includes roles such as Dean, Vice-Rector, and Director of numerous nationally and internationally funded research projects. Recognized both nationally and internationally, he has received prestigious awards including the Romanian Academy Prize and gold medals at the Geneva Salon of Inventions. His work has directly contributed to innovation in medical implant manufacturing and advanced production systems. With his remarkable scholarly output, mentorship, and global collaborations, Professor Berce is a highly suitable candidate for the Excellence in Research Award.

Professional Profile 

Education🎓

Professor Petru Berce’s educational journey reflects a lifelong commitment to academic excellence and scientific advancement. He began his academic career at the Technical University of Cluj-Napoca, where he progressed through various academic positions—from Teaching Assistant (1972–1978), to Lecturer (1978–1990), Associate Professor (1990–1992), and ultimately Full Professor from 1992 to the present. In 1997, he became an accredited PhD supervisor in Industrial Engineering, guiding over 25 doctoral theses to completion. His educational leadership extended to key administrative roles, including Head of Department, Dean of the Faculty of Machine Building (2004–2012), and Vice-Rector responsible for research and international relations (1996–2004). Professor Berce has been instrumental in shaping engineering education and research policy at both institutional and national levels. His extensive involvement in curriculum development, academic publishing, and international cooperation reflects his dedication to enhancing the quality and global relevance of higher education in Romania and beyond.

Professional Experience📝

Professor Petru Berce possesses an extensive professional background in industrial engineering, with over five decades of academic and research experience. He has served as a Professor at the Technical University of Cluj-Napoca since 1992, following roles as Associate Professor, Lecturer, and Teaching Assistant. His leadership includes serving as Dean of the Faculty of Machine Building (2004–2012), Vice-Rector for research and international relations (1996–2004), and Head of the TCM Department. He has been a PhD supervisor since 1997, overseeing more than 25 doctoral theses. Internationally recognized for his work in rapid prototyping and innovative manufacturing technologies, Professor Berce has led numerous national and international research projects, securing significant funding from programs such as TEMPUS, FP6, and Horizon 2020. His influence extends through editorial roles, scientific committee memberships, and recognition by prestigious institutions worldwide. His professional contributions have substantially advanced research, education, and innovation in the field of manufacturing engineering.

Research Interest🔎

Professor Petru Berce’s research interests are centered around advanced manufacturing technologies, with a particular focus on rapid prototyping, additive manufacturing, and their medical and industrial applications. His work explores innovative processes such as Selective Laser Sintering (SLS), Selective Laser Melting (SLM), and ultrasonic grinding, contributing significantly to the development of customized medical implants and high-performance components. Professor Berce is also deeply engaged in the integration of CAD/CAM systems and the optimization of manufacturing processes to improve efficiency, precision, and sustainability. His interdisciplinary research spans industrial engineering, materials science, and biomedical engineering, reflected in over 150 scientific publications, 47 ISI-indexed articles, and several patents. He has led major national and international research initiatives, including EU-funded projects and technology transfer programs. His scholarly output and practical innovations have positioned him as a leading figure in the field, with a strong commitment to advancing next-generation manufacturing technologies and their real-world applications.

Award and Honor🏆

Professor Petru Berce has received numerous prestigious awards and honors in recognition of his outstanding contributions to research, education, and innovation in industrial engineering. Nationally, he was awarded the Romanian Academy Prize (1991), the Excellence Prize from the Ministry of Education and Research (2000), and the AGIR (General Association of Engineers from Romania) Prize. Internationally, he has earned three gold medals at the Geneva International Salon of Inventions. His academic distinction is highlighted by honorary doctorates (Dr. H.C.) from multiple universities, including the Technical University of Kosice, the University of Oradea, and Dunărea de Jos University of Galați. He has also been named Honorary Professor at institutions such as Miskolc University and Transilvania University of Brașov. Additionally, Professor Berce is a Corresponding Member of the Romanian Academy of Technical Sciences and has played key roles in scientific committees and editorial boards, further amplifying his global recognition and influence.

Research Skill🔬

Professor Petru Berce possesses exceptional research skills that span across advanced manufacturing technologies, particularly in rapid prototyping, additive manufacturing, and innovative industrial engineering methods. His expertise is reflected in his leadership of numerous nationally and internationally funded research projects, where he has demonstrated a strong capability in project coordination, interdisciplinary collaboration, and technology transfer. Professor Berce has successfully directed significant grants, such as the creation of research platforms and innovation networks focused on the “Factory of the Future” and biocompatible materials for medical applications. His technical proficiency includes the development of ultrasonic grinding technologies and composite materials, with several patented inventions to his name. Furthermore, his research output includes over 150 scientific publications, including 47 ISI-indexed articles and 12 scientific books, showcasing his ability to conduct and disseminate high-impact research. His analytical thinking, problem-solving abilities, and mentorship as a PhD supervisor have made him a cornerstone in Romania’s industrial engineering research landscape.

Conclusion💡

Prof. Petru Berce is highly suitable for the Excellence in Research Award. His career exemplifies a blend of scholarly excellence, technological innovation, academic mentorship, and institutional leadership. The scope of his impact—ranging from foundational research to real-world manufacturing applications—reflects the award’s core values. Any minor improvements are peripheral and do not detract from his overall eligibility.

Publications Top Noted✍️

  • T Marcu, M Todea, I Gligor, P Berce, C Popa (2012)
    “Effect of surface conditioning on the flowability of Ti6Al7Nb powder for selective laser melting applications”
    Applied Surface Science 258 (7), 3276-3282
    Citations: 79

  • O Lucaciu, O Soriţău, D Gheban, DR Ciuca, O Virtic, A Vulpoi, N Dirzu, … (2015)
    “Dental follicle stem cells in bone regeneration on titanium implants”
    BMC Biotechnology 15, 1-18
    Citations: 72

  • IC Brie, O Soritau, N Dirzu, C Berce, A Vulpoi, C Popa, M Todea, S Simon, … (2014)
    “Comparative in vitro study regarding the biocompatibility of titanium-base composites infiltrated with hydroxyapatite or silicatitanate”
    Journal of Biological Engineering 8, 1-19
    Citations: 53

  • D Leordean, C Dudescu, T Marcu, P Berce, N Balc (2015)
    “Customized implants with specific properties, made by selective laser melting”
    Rapid Prototyping Journal 21 (1), 98-104
    Citations: 52

  • M Todea, E Vanea, S Bran, P Berce, S Simon (2013)
    “XPS analysis of aluminosilicate microspheres bioactivity tested in vitro”
    Applied Surface Science 270, 777-783
    Citations: 52

  • A Ilea, A Butnaru, SA Sfrângeu, M Hedeşiu, CM Dudescu, P Berce, … (2014)
    “Role of mastoid pneumatization in temporal bone fractures”
    American Journal of Neuroradiology 35 (7), 1398-1404
    Citations: 44

  • T Marcu, M Todea, L Maines, D Leordean, P Berce, C Popa (2012)
    “Metallurgical and mechanical characterisation of titanium based materials for endosseous applications obtained by selective laser melting”
    Powder Metallurgy 55 (4), 309-314
    Citations: 41

  • P Berce, N Bâlc, M Ancău, S Comşa, H Jidav, C Caizar, H Chezan (2000)
    “Fabricarea rapidă a prototipurilor”
    Editura Tehnică, Bucureşti
    Citations: 41

  • P Berce, NO Bâlc, RI Păcurar (2014)
    “Tehnologii de fabricaţie prin adăugarea de material şi aplicaţiile lor”
    Editura Academiei Romane
    Citations: 40

  • P Bere, P Berce, O Nemes (2012)
    “Phenomenological fracture model for biaxial fibre reinforced composites”
    Composites Part B: Engineering 43 (5), 2237-2243
    Citations: 37

  • P Berce, H Chezan, N Balc (2005)
    “The application of rapid prototyping technologies for manufacturing the custom implants”
    ESAFORM Conference, 679-682
    Citations: 35

  • M Todea, A Vulpoi, C Popa, P Berce, S Simon (2019)
    “Effect of different surface treatments on bioactivity of porous titanium implants”
    Journal of Materials Science & Technology 35 (3), 418-426
    Citations: 34

  • D Leordean, SA Radu, D Frățilă, P Berce (2015)
    “Studies on design of customized orthopedic endoprostheses of titanium alloy manufactured by SLM”
    The International Journal of Advanced Manufacturing Technology 79, 905-920
    Citations: 31

  • A Rus, VD Leordean, P Berce (2017)
    “Silver Nanoparticles (AgNP) impregnated filters in drinking water disinfection”
    MATEC Web of Conferences 137, 07007
    Citations: 30

Muhammad Ali | Engineering | Best Researcher Award

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Dr. Muhammad Ali | Engineering | Best Researcher Award

Asssitant Professor at University of Engineering and Technology, Pakistan

Dr. MuhammadAli Falak is a distinguished civil engineering scholar with a Ph.D. from Texas A&M University, an M.Sc. from the University of Tokyo, and a B.Sc. from UET Lahore. His expertise spans geotechnical engineering, climate change mitigation, and sustainable infrastructure. With over a decade of teaching experience, he has mentored numerous students and led impactful national and international research projects. Dr. Falak has received prestigious awards, including the Fulbright and MEXT scholarships, and recognition from the US Department of State for climate education initiatives. He is a prolific trainer, educator, and mentor, contributing significantly to academic, environmental, and community development. His leadership roles, including presidency in student associations and founding of educational platforms, reflect his commitment to global education and innovation. With multiple fellowships, scholarly publications, and media features, Dr. Falak exemplifies excellence and is highly suitable for the Best Researcher Award, showcasing research impact, leadership, and dedication to societal betterment.

Professional Profile

Education🎓

Dr. MuhammadAli Falak has an impressive and diverse educational background that reflects his global academic journey and commitment to excellence. He earned his Ph.D. in Civil Engineering from Texas A&M University, USA, where he specialized in sustainable infrastructure and geotechnical engineering. Prior to that, he obtained his M.Sc. in Civil Engineering from the University of Tokyo, Japan, under the prestigious MEXT scholarship, gaining advanced knowledge in infrastructure resilience and environmental engineering. He began his academic path with a B.Sc. in Civil Engineering from the University of Engineering and Technology (UET) Lahore, Pakistan, where he laid the foundation for his technical expertise. Throughout his educational career, Dr. Falak has been recognized with several prestigious awards and scholarships, including the Fulbright and MEXT, for his academic excellence and potential in research leadership. His diverse international education has equipped him with a global perspective and advanced interdisciplinary skills essential for impactful research and innovation.

Professional Experience📝

Dr. MuhammadAli Falak possesses a rich and dynamic professional background shaped by academic, research, and engineering leadership roles across the globe. He currently serves as a Postdoctoral Research Associate at Texas A&M University, where he contributes to pioneering research in sustainable geotechnical infrastructure and climate-resilient engineering systems. Previously, he worked as a Research Fellow at the University of Tokyo, engaging in multidisciplinary projects focused on disaster mitigation and smart infrastructure. Dr. Falak has also served as a Lecturer in Civil Engineering at UET Lahore, Pakistan, where he mentored students and led practical engineering projects. His professional journey includes collaborations with governmental and international organizations, contributing to policy and planning for sustainable urban development. With hands-on experience in both academic and applied engineering environments, Dr. Falak has demonstrated expertise in project management, interdisciplinary research, and advanced modeling techniques. His professional experience reflects a strong commitment to innovation, global collaboration, and engineering solutions that address real-world challenges.

Research Interest🔎

Dr. MuhammadAli Falak’s research interests lie at the intersection of sustainable infrastructure development, climate-resilient geotechnical engineering, and disaster risk mitigation. His work focuses on designing and evaluating engineering systems that can withstand the impacts of climate change, including extreme weather events and natural disasters. He is particularly interested in the application of advanced modeling techniques, data-driven decision-making, and geospatial analysis to develop smart and adaptive infrastructure. Dr. Falak also explores sustainable urban planning and green construction materials to reduce environmental footprints. His interdisciplinary approach integrates civil engineering, environmental science, and data analytics, enabling the development of innovative solutions for global infrastructure challenges. With a strong commitment to advancing resilient development practices, he collaborates with international institutions and policymakers to translate research into impactful applications. His research not only contributes to academic advancement but also supports sustainable growth and safety in vulnerable communities around the world.

Award and Honor🏆

Dr. MuhammadAli Falak has received numerous awards and honors in recognition of his exceptional contributions to civil and environmental engineering. His innovative research on climate-resilient infrastructure and sustainable development has earned him accolades from both academic and professional organizations. He has been honored with prestigious fellowships and research grants from international bodies that support cutting-edge scientific exploration. Dr. Falak’s leadership in interdisciplinary projects has been acknowledged through awards for excellence in engineering education and applied research. His impactful publications in high-impact journals and presentations at global conferences have also led to several best paper awards. Additionally, he has been recognized for his mentorship and dedication to student development, receiving appreciation from both institutions and professional societies. These honors reflect his unwavering commitment to advancing engineering practices for the benefit of society and the environment. His achievements serve as a testament to his visionary approach and dedication to global sustainable progress.

Conclusion💡

Dr. MuhammadAli Falak is highly suitable for the Best Researcher Award based on his:

  • Exceptional academic trajectory,

  • Leadership in impactful interdisciplinary projects,

  • International exposure and community engagement,

  • Numerous recognitions and grants,

  • Dedication to mentoring, education, and global outreach.

Publications Top Noted✍️

  • Title: A novel index to predict the cost of green resilient buildings
    Authors: M. Ali, A. Zubair, J. Israr, W. Abbass, Z. Masoud, A. Mohamed
    Year: 2025
    Cited by: 1

  • Title: Prediction of small-strain elastic stiffness of natural and artificial soft rocks subjected to freeze-thaw cycles
    Authors: M. Ali, A. Zubair, Z. Farooq, K. Farooq, Z. Masoud
    Year: 2025
    Cited by: Not yet cited

  • Title: A Review on Gas Migration Processes Through Engineered and Geological Barriers
    Authors: M. Sanchez, M.A. Falak, B. Zhou
    Year: 2019
    Cited by: Not specified

  • Title: Gas Flow through Unsaturated Scaled Barrier for the Disposal of High-Level Nuclear Waste
    Authors: M.A. Falak, M. Sanchez, E.R. Morales
    Year: 2022
    Cited by: Not specified