Jinsheng Wang – Civil Engineering – Best Researcher Award

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Professor Jinsheng Wang - Civil Engineering - Best Researcher Award

Beijing Normal University - China

AUTHOR PROFILE

GOOGLE SCHOLAR

🌊 SUMMARY

Professor Jinsheng Wang stands as a pioneering figure in hydrogeology, environmental science, and groundwater pollution control in China. He serves as Professor, Doctoral Supervisor, and Assistant Dean at the College of Water Sciences, Beijing Normal University. As the Head of two national research centers and an expert member of the Ministry of Environmental Protection, his career is marked by multidisciplinary excellence. His leadership in research, consultancy, and higher education has contributed significantly to shaping China’s groundwater management policies. With over two decades of dedicated scholarship and more than 30 landmark publications, Professor Wang's impact extends across academia, government policy, and environmental engineering practices.

🎓 EARLY ACADEMIC PURSUITS

Professor Wang began his academic journey with a Master’s degree in Hydrogeology at Jilin University (1989–1991), later completing his Doctorate in the same field at the same university (1995–1998). His foundational years were shaped by a deep interest in groundwater dynamics, which evolved into a lifelong research commitment. The rigorous training at Jilin equipped him with advanced field knowledge in hydrogeological systems, groundwater modeling, and environmental assessments. His scholarly formation during this period laid the groundwork for his later expertise in numerical simulations, aquifer dynamics, and pollution remediation. He emerged from this phase with a strong academic identity, blending geoscience with environmental applications.

🏢 PROFESSIONAL ENDEAVORS

Currently, Professor Wang holds multiple leadership roles at Beijing Normal University, including Assistant Dean of the College of Water Sciences and Head of two key research centers: the Engineering Research Center of Groundwater Pollution Control and Remediation (Ministry of Education) and the Groundwater Science and Engineering Research Center. He has served as Principal Investigator for national and international research projects sponsored by the Ministry of Science and Technology, Natural Science Foundation of China, and other governmental agencies. His consultancy contributions span emergency environmental response, water conservation planning, and transboundary water studies. He is also a part-time professor at Jilin University, nurturing the next generation of hydrogeologists.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

Professor Wang’s primary research focus revolves around groundwater renewability, pollution dynamics, and water resource modeling. His work integrates hydrochemical analysis, isotopic tracing, and numerical simulations to investigate groundwater systems in critical areas like the Beijing Plain and Yellow River Basin. He has contributed to the development of evaluation indicators for groundwater renewability, environmental impact modeling, and groundwater vulnerability assessment. His research supports sustainable water policy, enhances disaster management systems, and informs national groundwater legislation. Notably, his findings on aquifer recharge, pollutant migration, and water-rock interactions have advanced both academic literature and practical groundwater management strategies in China.

🏅 ACCOLADES AND RECOGNITION

Recognized nationally and internationally, Professor Wang has been entrusted with prestigious positions and major projects, reflecting his deep trust in scientific integrity and environmental stewardship. He was selected as a core member of the first Expert Group on Emergency Management under China’s Ministry of Environmental Protection. His scholarly outputs have been published in top-tier journals and government white papers, establishing him as a thought leader. His academic books, such as those co-authored on the Wenchuan Earthquake and groundwater in the Yellow River Basin, have become reference texts. His engineering insights are not only valued in academia but have become tools for policymakers and field engineers alike.

🌍 IMPACT AND INFLUENCE

The influence of Professor Wang extends beyond academic citations into real-world environmental and water policy reforms. His research has directly shaped groundwater protection action plans across China and improved early warning systems for environmental emergencies. He has enhanced technical understanding among stakeholders at the local and national levels, facilitating sustainable water use frameworks. Internationally, his collaborations have led to joint conferences, workshops, and peer-reviewed publications that bridge Chinese hydrogeology with global environmental concerns. Through mentorship, he has cultivated young scholars who now carry forward his mission in groundwater sustainability and environmental resilience.

🧬 LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Professor Wang is set to lead new frontiers in climate-resilient water management, groundwater recharge modeling, and integrated environmental systems. His vision includes refining vulnerability assessments using AI, promoting international knowledge exchange, and enhancing community-based water governance. His legacy is rooted in a deep understanding of natural systems and a commitment to advancing science for societal benefit. As an academic architect of China’s groundwater policies and a global contributor to environmental geosciences, Professor Wang’s future endeavors promise to leave a profound mark on the planet’s water future.

PUBLICATION

A level set method for structural topology optimization
Authors: MY Wang, X Wang, D Guo
Journal: Computer Methods in Applied Mechanics and Engineering

Molecular determinants of the response of glioblastomas to EGFR kinase inhibitors
Authors: IK Mellinghoff, MY Wang, I Vivanco, DA Haas-Kogan, S Zhu, EQ Dia, ...
Journal: New England Journal of Medicine

Contamination features and health risk of soil heavy metals in China
Authors: H Chen, Y Teng, S Lu, Y Wang, J Wang
Journal: Science of the Total Environment

State of the climate in 2015
Authors: J Blunden, DS Arndt
Journal: Bulletin of the American Meteorological Society

Postoperative biomarkers predict acute kidney injury and poor outcomes after adult cardiac surgery
Authors: CR Parikh, SG Coca, H Thiessen-Philbrook, MG Shlipak, JL Koyner, ...
Journal: Journal of the American Society of Nephrology

High-resolution magnetostratigraphy of the Neogene Huaitoutala section in the eastern Qaidam Basin on the NE Tibetan Plateau, Qinghai Province, China and its implication on …
Authors: X Fang, W Zhang, Q Meng, J Gao, X Wang, J King, C Song, S Dai, Y Miao
Journal: Earth and Planetary Science Letters

A Multicentre Study of Shigella Diarrhoea in Six Asian Countries: Disease Burden, Clinical Manifestations, and Microbiology
Authors: L Von Seidlein, DR Kim, M Ali, H Lee, XY Wang, VD Thiem, DG Canh, ...
Journal: PLoS Medicine

Parity-forbidden transitions and their impact on the optical absorption properties of lead-free metal halide perovskites and double perovskites
Authors: W Meng, X Wang, Z Xiao, J Wang, DB Mitzi, Y Yan
Journal: The Journal of Physical Chemistry Letters

“Color” level sets: a multi-phase method for structural topology optimization with multiple materials
Authors: MY Wang, X Wang
Journal: Computer Methods in Applied Mechanics and Engineering

An inactivated enterovirus 71 vaccine in healthy children
Authors: R Li, L Liu, Z Mo, X Wang, J Xia, Z Liang, Y Zhang, Y Li, Q Mao, J Wang, ...
Journal: New England Journal of Medicine

Yaoqing Gong – Structural Engineering – Best Researcher Award

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Yaoqing Gong - Structural Engineering - Best Researcher Award

Henan Polytechnic University - China

AUTHOR PROFILE

SCOPUS
ORCID

SUMMARY

Yaoqing Gong is a distinguished academic in civil and structural engineering, currently serving as Chair Professor at Henan Polytechnic University. With over four decades of teaching, research, and engineering practice, the expertise encompasses semi-analytical structural analysis, finite element modeling, and torsional analysis of complex structures. Editorial roles, committee memberships, and national-level research projects illustrate a strong reputation in academia. Recognized by leading institutions in China, including the Ministry of Education and National Natural Science Foundation, the work influences tall building mechanics and computational analysis. Extensive publications and involvement in conference proceedings highlight an active presence in both theoretical and applied engineering domains.

EDUCATION

Completed a Ph.D. in Civil Engineering at Tsinghua University, renowned for engineering excellence. Previously earned a Master’s degree in Mechanical Engineering from Huazhong University of Science and Technology and a Bachelor’s degree from Ningxia University. The academic progression reflects a deep foundation in engineering sciences, transitioning from mechanical to civil specializations. The multidisciplinary training has significantly shaped advanced research contributions in structural mechanics, particularly in analyzing super-tall buildings and complex beam structures. The educational journey through top-tier Chinese institutions has laid the groundwork for a highly productive academic and research career across decades in civil infrastructure development and modeling.

PROFESSIONAL EXPERIENCE

Began academic career as Assistant Lecturer at Ningxia University, progressing through Lecturer, Associate Professor, and Professor roles from 1981 to 2001. Since 2001, appointed as Chair Professor at Henan Polytechnic University, leading major initiatives in structural engineering. Held several key academic responsibilities, contributing to curriculum design and research mentorship. A strong connection with national academic bodies such as the Ministry of Education and NSF of China has ensured relevance and impact in teaching and applied research. Professional duties have also extended to evaluating high-level research proposals and participating in national engineering education committees, reflecting trust and leadership in the field.

RESEARCH INTEREST

Core research interests include semi-analytical methods for analyzing dynamic loads on super-tall buildings and long-span bridges, torsional behavior of noncircular beam sections, and structural interactions with elastic subgrades. Work is heavily focused on theoretical mechanics, generalized-area-coordinate systems, and conforming finite element formulations. Special emphasis is placed on dynamic load modeling and the interaction between foundation and superstructures, particularly under spatial or multi-directional loading. Research bridges practical civil infrastructure challenges with computational mechanics innovation, advancing knowledge in constrained torsion and spatial vibration of complex geometries. Integration of analytical theory and real-world applications characterizes all research endeavors and academic outputs.

AWARD AND HONOR

Honored with roles that reflect academic prestige, including Editorial Board Membership in the Journal of Engineering Mechanics (Chinese) and Committee Member of the Mechanics Instruction Committee, Ministry of Education, China. Selected as a referee for high-impact national research proposals under the Department of Engineering & Material Science, NSF of China. Contributions to national research projects and leadership in university-affiliated foundations also serve as testimony to recognition by peers. The ability to influence educational and research standards at national levels is a distinguishing achievement. These roles underscore trust, influence, and merit across China’s academic and engineering science communities.

RESEARCH SKILL

Expert in developing semi-analytical and finite element models for structural analysis under dynamic and complex boundary conditions. Advanced in formulating generalized conforming finite elements and utilizing generalized-area-coordinate systems. Skilled in solving torsional behavior for constrained, variable thickness beams with arbitrary noncircular shapes. Familiar with both theoretical development and application to large-scale infrastructure such as super-tall buildings and bridges. Possesses hands-on design experience, including work with steel tower structures for astronomical observatories. Capable of integrating analytical theory with field application, contributing both to academia and practical engineering. Strong background in mathematical modeling, ODE solvers, and high-performance structural analysis.

PUBLICATIONS TOP NOTED

Published in prestigious journals such as Composite Structures, Engineering Structures, European Journal of Mechanics/A Solids, and MethodsX. Key contributions include innovative constrained torsional analysis, theories for stocky beams with noncircular cross-sections, and finite element formulations for thick plate-shell elements. Authored books like “Structural Mechanics” and “Tall Building Structures on Elastic Subgrade,” which serve as foundational texts in Chinese structural engineering education. Presented work at global conferences including the World Congress on Computational Mechanics. Collaborated with notable researchers on interdisciplinary projects, ensuring international visibility. Research outputs continue to shape methodologies used in modern civil engineering and computational structural mechanics.

Title: Composite stocky box girders of variable thickness in high-support expressways: Constrained torsional analysis
Authors: [Not specified]
Journal: Engineering Structures (2021)

Title: An innovative method for surmounting the constrained torsional problems of stocky beams with arbitrary noncircular cross-sectional shapes and with arbitrary elastic material properties
Authors: [Not specified]
Journal: MethodsX (2021)

Title: The torsional centre position of stocky beams with arbitrary noncircular cross-sectional shapes and with arbitrary elastic material properties
Authors: [Not specified]
Journal: European Journal of Mechanics A: Solids (2021)

CONCLUSION

Yaoqing Gong’s contributions span theoretical development, practical design, high-level academic mentorship, and national-level advisory roles. Strong expertise in civil and structural engineering mechanics is demonstrated through sustained publications, impactful research funding, and leadership roles within Chinese engineering education. The emphasis on semi-analytical methods and computational mechanics provides critical solutions for modern engineering problems such as super-tall structures, complex torsional analysis, and elastic subgrade interaction. Through integration of teaching, research, and applied science, continues to influence both academic frameworks and infrastructure practices. The profile stands as a model of excellence in civil engineering innovation, research integrity, and academic leadership.

Lewis John Gooch – Structural Engineering – Best Researcher Award

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Lewis John Gooch - Structural Engineering - Best Researcher Award

The University of Newcastle - Australia

AUTHOR PROFILE

SCOPUS
ORCID
GOOGLE SCHOLAR

SUMMARY

Lewis John Gooch is a dedicated civil engineer and postdoctoral research associate specializing in structural reliability and masonry design. With academic and professional experience in seismic performance analysis, numerical modelling, and experimental mechanics, Lewis contributes to advancing safer, more resilient infrastructure. His work intersects engineering theory, laboratory experimentation, and practical design, producing high-impact research publications and real-world engineering solutions. Recognized with numerous academic and industry awards, Lewis has established strong collaborative ties with research institutions and industry stakeholders. His career reflects a strong commitment to engineering excellence, scholarly advancement, and impactful industry engagement within the Australian civil and structural engineering landscape.

EDUCATION

Lewis completed his Ph.D. in Civil Engineering at The University of Newcastle, focusing on stochastic assessment and structural reliability of unreinforced masonry walls under shear loading. Prior to this, he earned a Bachelor of Civil Engineering (Honours) with University and Faculty Medals, demonstrating exceptional academic performance. He also pursued the Academic Career Preparation Pathway, gaining university teaching competencies. These educational milestones have equipped him with expertise in structural mechanics, probabilistic modelling, and engineering pedagogy, forming a strong foundation for his academic and professional career. His academic training continues to inform his research into innovative and reliable construction design methodologies.

PROFESSIONAL EXPERIENCE

Lewis currently serves as a Postdoctoral Research Associate at the University of Technology Sydney, leading efforts to calibrate masonry design standards under ARC Discovery Project DP220102758. Concurrently, at The University of Newcastle, he contributes to infrastructure performance through digital image correlation and laboratory test development. Formerly a structural engineer at Lindsay Dynan, he managed complex assessments of bridges, concrete structures, and scaffolding systems. These roles demonstrate a seamless transition from professional engineering to high-level research, with responsibilities including supervision of students, development of experimental methods, and national code contributions—showcasing a rare blend of academic insight and practical engineering skill.

RESEARCH INTEREST

Lewis's research explores the intersection of structural engineering, material behaviour, and probabilistic modelling. His primary focus is on the performance of unreinforced masonry (URM) structures under seismic and wind loads. He develops stochastic models to simulate spatial variability and uses finite element analysis to evaluate structural response. Additionally, he investigates material uncertainties, structural reliability, and safety factor calibration within Australian design codes. His interests extend to experimental validation using high-resolution testing methods. Lewis aims to reduce risk in civil infrastructure through improved understanding of material properties and modelling uncertainties—providing engineering solutions backed by scientific rigour and innovation.

AWARD AND HONOR

Lewis has earned multiple prestigious accolades for academic and industry excellence. These include the University Medal and Faculty Medal from The University of Newcastle, along with consistent recognition on the Dean’s Merit and Commendation Lists. He has received industry awards such as the Engineers Australia Prize, Douglas Partners Prize for Applied Geotechnics, and Steel Reinforcement Institute of Australia Award. These distinctions highlight his exceptional performance in both technical proficiency and academic scholarship. His awards reflect a career marked by excellence in geotechnics, water engineering, structural analysis, and masonry design, positioning him as a rising leader in civil engineering research.

RESEARCH SKILL

Lewis demonstrates expertise in high-resolution digital image correlation, finite element modelling, and stochastic analysis of masonry structures. He is proficient in developing and validating experimental testing methods, including shear and tensile strength characterization. He applies statistical models to quantify material variability and risk in structural performance, contributing to design standard calibration. His experience in software tools for structural simulation and data interpretation supports comprehensive model validation. Furthermore, he provides supervision and technical mentorship across undergraduate and postgraduate levels. His research skillset reflects a deep integration of theoretical understanding, practical experimentation, and computational engineering, essential for advancing structural reliability.

PUBLICATIONS TOP NOTED

Lewis has authored influential journal articles and conference papers in leading engineering venues. Noteworthy publications include studies on mortar friction coefficients, URM shear wall behaviour, and statistical assessment of clay brick masonry—appearing in journals like Construction and Building Materials, Journal of Structural Engineering, and Bulletin of Earthquake Engineering. His work is widely cited for advancing knowledge in masonry design, model uncertainty, and stochastic structural analysis. He has also presented internationally on life-cycle monitoring and structural safety. His contributions play a critical role in refining seismic design methods and improving structural resilience, bridging academic research with engineering practice.

Title: Accuracy of stochastic finite element analyses for the safety assessment of unreinforced masonry shear walls
Authors: Lewis J. Gooch, Mark G. Stewart, M. J. Masia
Journal: Civil Engineering and Environmental Systems

Title: Experimental characterisation of the friction coefficient of mortar bed joints in clay-brick masonry
Authors: Lewis J. Gooch, Mark J. Masia, Mark G. Stewart, Michele Spadari
Journal: Construction and Building Materials

Title: Experimental Testing of Unreinforced Masonry Shear Walls and Comparison with Nominal Capacity Predictions
Authors: Lewis J. Gooch, Mark J. Masia, Mark G. Stewart, Md. Akhtar Hossain
Journal: Journal of Structural Engineering

Title: Model accuracy for the prediction of unreinforced clay brick masonry shear wall resistance
Authors: Lewis J. Gooch, Mark G. Stewart, Mark J. Masia
Journal: Bulletin of Earthquake Engineering

Title: Spatial Correlation of Flexural Tensile Bond Strength in Unreinforced Masonry Walls
Authors: Lewis J. Gooch, M. J. Masia, Mark G. Stewart, C. Collard
Journal: Lecture Notes in Civil Engineering

Title: Statistical assessment of tensile and shear properties of unreinforced clay brick masonry
Authors: Lewis J. Gooch, Mark J. Masia, Mark G. Stewart, Chee Yin Lam
Journal: Construction and Building Materials

CONCLUSION

Lewis John Gooch exemplifies the qualities of a modern structural engineering researcher: analytically rigorous, experimentally adept, and industry-aware. His commitment to enhancing infrastructure resilience through advanced modelling and testing informs both academic discourse and practical design. Recognized for academic excellence and industry contribution, Lewis's career continues to evolve through impactful research, scholarly publications, and teaching. With his focus on masonry structures and structural reliability, he contributes meaningfully to national design standards and global understanding of risk-informed engineering. His trajectory highlights a promising future as a thought leader in civil engineering innovation and infrastructure safety assessment.

Shujie Qin – Timber structures – Best Researcher Award

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Shujie Qin - Timber structures - Best Researcher Award

Hainan University - China

AUTHOR PROFILE

SCOPUS
ORCID

SUMMARY

Shujie Qin is a dynamic researcher in Civil Engineering, specializing in timber and composite structures, corrosion behavior of building materials, and structural analysis of heritage constructions. With a strong academic and research foundation rooted in leading Chinese institutions and enhanced by international collaboration, he has significantly contributed to the understanding of deterioration mechanisms and reinforcement strategies for historical structures. His analytical approaches and experimental investigations reflect a solid blend of theoretical depth and practical relevance, particularly in safeguarding architectural heritage through innovative engineering solutions.

EDUCATION

Shujie Qin completed his undergraduate and doctoral studies in Civil Engineering at Beijing Jiaotong University, where he was mentored by Prof. Yang Na. During his doctoral research, he enriched his academic perspective as a visiting scholar at Western Sydney University under Prof. Xinqun Zhu. This international exposure broadened his expertise in structural performance evaluation and corrosion analysis. His educational journey has been marked by rigorous training in both experimental and analytical methodologies essential for studying traditional and modern civil engineering systems.

PROFESSIONAL EXPERIENCE

Shujie Qin has gained hands-on experience through national and regional research projects focused on structural integrity and restoration. He has led and participated in programs funded by the National Natural Science Foundation of China and Hainan Provincial foundations, addressing complex issues in heritage timber frameworks and atmospheric corrosion. His work spans structural diagnostics, material degradation studies, and load-carrying capacity analysis. His research supports the preservation of historical architecture while contributing to the durability and sustainability of future constructions.

RESEARCH INTEREST

His primary research interests include the structural performance and restoration of ancient timber buildings, corrosion and deterioration of construction materials in harsh climates, and timber-steel composite behavior. Shujie Qin focuses on evaluating and enhancing the mechanical properties of historical timber joints, especially under damaged conditions. He is also interested in developing time-dependent deterioration models for steel in tropical environments. His research aims to bridge the gap between modern engineering practices and the conservation of cultural heritage through structural innovation.

AWARD AND HONOR

Shujie Qin has received competitive funding under prestigious schemes like the National Natural Science Foundation of China for Young Scholars and the Hainan Provincial High-Level Talents Program. These recognitions affirm the relevance and scientific merit of his research in structural engineering and material durability. His selection for leadership roles in national and institutional research initiatives reflects his growing reputation as a promising young scholar in the field of civil and structural engineering, particularly in historical conservation and sustainable infrastructure development.

RESEARCH SKILL

Shujie Qin is proficient in structural analysis, experimental mechanics, corrosion modeling, and dynamic simulation. He is skilled in using analytical tools for evaluating structural degradation and designing reinforcement strategies for heritage buildings. His technical expertise includes load-carrying capacity assessment, time-dependent deterioration modeling, and dynamic performance analysis of beam-column joints. He has hands-on experience in field investigations, laboratory simulations, and developing predictive models based on empirical data—especially within the context of timber structure behavior and environmental impact.

PUBLICATIONS

 

Title: Experimental investigation and evaluation of metal-plate-connected laminated bamboo lumber joints
Authors: T.Y. Li, J.Q. Chen, P.C. Qin, Y. Xiao, B. Shan, Y.F. Yang, S.J. Qin, X.L. Fu
Journal: Construction and Building Materials


Title: Mechanical behavior of glued-in GFRP rod in glubam: Experimental and analytical study
Authors: T.Y. Li, J.Q. Chen, Y. Xiao, J. Zhang, B. Shan, S.Q. Dai, S.J. Qin, B. Huang
Journal: Construction and Building Materials


Title: Bending performance of nail-laminated bamboo-timber panels made with glubam and fast-grown plantation Chinese fir
Authors: T.Y. Li, J.Y. Deng, J.Q. Chen, Y. Xiao, B. Shan, H. Xu, S.J. Qin, Q. Yu
Journal: Construction and Building Materials


Title: Experimental research on standardized bamboo culm components for developing prefabricated bamboo building
Authors: Bo Shan, Ji Qiu, Hao Xu, Tianyu Li, Yan Xiao, Shujie Qin, Li Gao, Zhi Li
Journal: Structures


Title: Rotational Behavior of Column Footing Joint and Its Effect on the Dynamic Characteristics of Traditional Chinese Timber Structure
Authors: Shujie Qin, Na Yang, Lu Dai, Sergio De Rosa
Journal: Shock and Vibration

CONCLUSION

Through an integrated approach to historical preservation and material performance analysis, Shujie Qin is redefining the role of civil engineering in cultural heritage protection. His research not only enhances structural safety but also supports sustainability by prolonging the service life of ancient and modern materials. With a strong track record in competitive research, academic publication, and interdisciplinary collaboration, he continues to impact the fields of timber structure analysis and corrosion engineering. His work stands at the intersection of tradition, science, and engineering advancement.

Ting-Yu Fan – Structural Engineering – Best Researcher Award

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Ting-Yu Fan | Structural Engineering | Best Researcher Award

National Atomic Research Institute - Taiwan

AUTHOR PROFILE

ORCID

SCOPUS

SUMMARY

Ting-Yu Fan is a dedicated engineer and researcher at the National Atomic Research Institute, Taiwan. His expertise spans seismic analysis, soil-structure interaction, and thermal-hydraulic coupling, with a strong focus on nuclear and renewable energy infrastructures. Having contributed to international collaborative projects like DECOVALEX, he brings global perspective and depth to structural safety assessments. Through multidisciplinary research, industry consultancy, and cutting-edge modeling work, Fan continues to make notable advances in the safety and performance of critical energy systems under extreme environmental conditions.

EDUCATION

Ting-Yu Fan completed his Master of Engineering at National Cheng Kung University, Taiwan. His academic foundation centers on structural integrity assessment, seismic performance, and coupled thermal-hydraulic analysis. These areas laid the groundwork for his contributions to national and international research, especially in structural modeling and nuclear energy safety. His education provided the theoretical and technical base to tackle complex challenges in energy systems, particularly those involving fault mechanics, soil-structure interaction, and the behavior of engineered systems under extreme stress conditions.

PROFESSIONAL EXPERIENCE

Currently serving at the National Atomic Research Institute, Fan leads and participates in several government and industry-funded projects on nuclear safety and structural resilience. His prior engagements include critical work on offshore wind turbine support structures and safety cases for spent nuclear fuel disposal. He has contributed to structural evaluations against natural disasters such as typhoons and earthquakes. His professional journey reflects a continuous effort to bridge theoretical modeling with real-world engineering solutions in high-risk and sensitive infrastructures.

RESEARCH INTEREST

Ting-Yu Fan’s research interests span seismic performance evaluation of nuclear infrastructure, structural integrity under multi-hazard conditions, safety case development for spent nuclear fuel disposal, and advanced numerical modeling. He is particularly engaged in soil-structure interaction studies and fault reactivation modeling. His work also includes pioneering research in seismic isolation technologies for small modular reactors and extreme load responses of offshore wind support systems. These themes converge in his quest to enhance the safety, reliability, and sustainability of modern energy infrastructures.

AWARD AND HONOR

Ting-Yu Fan’s selection and participation in the DECOVALEX international research initiative reflect peer recognition of his expertise. His leadership roles in high-stakes government-funded projects further demonstrate his standing in Taiwan’s nuclear and structural engineering communities. His publications and project outcomes have contributed significantly to both academic knowledge and practical advancements in infrastructure safety, earning him a reputation as a trusted expert in the seismic and structural behavior of critical energy systems.

RESEARCH SKILL

Ting-Yu Fan brings advanced skills in seismic analysis, THM modeling, structural integrity evaluation, and numerical simulations. His toolkit includes fault activation modeling, soil-structure interaction analysis, and safety case development for complex nuclear systems. He is proficient in handling multidisciplinary data for integrated assessments of structural and geotechnical systems under environmental stressors. His ability to interpret seismic and thermal data and simulate real-world behaviors under extreme conditions stands as a cornerstone of his research success.

PUBLICATIONS

Title: Modeling the Influence of Soil-Structure-Interaction on Seismic Response of Jacket Substructure for the DTU 10MW Offshore Wind Turbine
Authors: Fan, T.-Y.; Lin, C.-Y.; Huang, C.-C.
Journal: International Journal of Offshore and Polar Engineering (2022)

Title: Strength Analysis for a Jacket-Type Substructure of an Offshore Wind Turbine under Extreme Environment Conditions
Authors: Fan, T.-Y.; Chen, S.-H.; Huang, C.-C.
Journal: International Journal of Offshore and Polar Engineering (2020)

Title: Time-Domain Fatigue Analysis of Multi-Planar Tubular Joints for a Jacket-Type Substructure of Offshore Wind Turbines
Authors: Fan, T.-Y.; Lin, C.-Y.; Huang, C.-C.; Chu, T.-L.
Journal: International Journal of Offshore and Polar Engineering (2020)

Title: Fatigue Analysis for Jacket-Type Substructure of 5MW Offshore Wind Turbine in Time Domain and Evaluation of Fatigue Damage
Authors: Fan, T.-Y.; Lin, C.-Y.; Huang, C.-C.; Chu, T.-L.
Journal: Journal of the Chinese Institute of Civil and Hydraulic Engineering (2018)

Title: Numerical Fatigue Analysis for Jacket-Type Substructure of Offshore Wind Turbines under Local Environmental Conditions in Taiwan
Authors: Fan, T.-Y.; Lin, C.-Y.; Huang, C.-C.; Chu, T.-L.
Journal: Proceedings of the International Offshore and Polar Engineering Conference (2018)

Title: Fatigue Analysis for Jacket-Type Support Structure of Offshore Wind Turbine under Local Environmental Conditions in Taiwan
Authors: Fan, T.-Y.; Huang, C.-C.; Chu, T.-L.
Journal: Proceedings of the International Offshore and Polar Engineering Conference (2017)

Title: Reissner's Mixed Variational Theorem-Based Finite Cylindrical Layer Methods for the Three-Dimensional Free Vibration Analysis of Sandwich Circular Hollow Cylinders with an Embedded Functionally Graded Material Layer
Authors: Wu, C.-P.; Fan, T.-Y.; Li, H.-Y.
Journal: Journal of Vibration and Control (2014)

CONCLUSION

Ting-Yu Fan exemplifies a modern researcher committed to public safety and energy resilience. His interdisciplinary approach blends engineering rigor with policy-oriented research outcomes. Through his contributions to nuclear safety, renewable energy systems, and geotechnical modeling, he enhances the scientific foundations for infrastructure design in seismically active and environmentally challenging regions. His work continues to impact engineering practices, regulatory standards, and academic collaboration, positioning him as a key contributor to the evolving field of energy systems engineering.

Momen Mousa – Construction Materials – Best Researcher Award

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Momen Mousa - Construction Materials - Best Researcher Award

Sam Houston State University - United States

AUTHOR PROFILE

SCOPUS

ASSISTANT PROFESSOR OF CONSTRUCTION MANAGEMENT

Momen Mousa is an esteemed Assistant Professor at Sam Houston State University, specializing in construction management. With over a decade of experience, he focuses on transportation engineering and construction materials, utilizing experimental testing, numerical modeling, and advanced machine-learning techniques to develop sustainable and resilient infrastructure materials.

EXPERT IN SUSTAINABLE CONSTRUCTION MATERIALS

His research emphasizes the development of novel construction materials, including asphalt and concrete, to enhance the durability and sustainability of transportation infrastructure. Momen has led numerous research projects, securing $1.3 million in funding and publishing over 30 journal articles in top U.S. transportation journals.

ROBUST TEACHING EXPERIENCE

Momen has developed and taught various civil engineering and construction management courses. His educational sessions for transportation professionals highlight his strong teaching capabilities, ensuring the next generation of engineers is well-equipped for future challenges.

MENTORSHIP AND LEADERSHIP

He has mentored 11 master’s and Ph.D. students, providing guidance on research projects and fostering a diverse learning environment. His leadership skills were further honed as the Program Manager of Tran-SET University Transportation Center, coordinating efforts with over 200 consortium members and various transportation agencies.

TECHNICAL CONSULTING EXPERTISE

As a Technical Consulting Pavement Engineer for Gulf Engineers and Consultants, Momen conducted forensic evaluations and technical analyses of road infrastructure damage, demonstrating his expertise in practical applications of his research.

RECOGNIZED RESEARCHER

Momen's contributions have been widely recognized, earning him awards such as the Editors' Choice Award by the ASCE Journal of Transportation Engineering and the Public Agency Official Scholarship from ATSSA. His work has been featured in notable publications like the Louisiana Civil Engineer Journal and Roads & Bridges magazine.

SYNERGISTIC ACTIVITIES

Active in professional communities, Momen has served as president of the TRF chapter at LSU, a member of the scientific committee for Tran-SET conferences, and a guest lecturer for various educational programs. His involvement with the American Society of Civil Engineers and other professional organizations underscores his commitment to advancing the field of civil engineering.

NOTABLE PUBLICATION

Machine-Learning-Based Framework for Prediction of the Long-Term Field Performance of Asphalt Concrete Overlays in a Hot and Humid Climate
Authors: E. Mansour, M.R. Mousa, H. Dhasmana, M. Hassan
Year: 2023
Journal: Transportation Research Record, 2677(10), pp. 375–385

Modeling of Restriping of Waterborne Paints Using Transverse Test Deck Data in Hot and Humid Climate
Authors: E. Mansour, M.R. Mousa, M. Hassan
Year: 2023
Journal: Transportation Research Record, 2677(7), pp. 509–519

Effects of hydrogel-encapsulated bacteria on the healing efficiency and compressive strength of concrete
Authors: R. Hungria, M.M. Hassan, M. Mousa
Year: 2023
Journal: Journal of Road Engineering, 3(2), pp. 156–170

Optimizing the Self-Healing Efficiency of Hydrogel-Encapsulated Bacteria in Concrete
Authors: R. Hungria, M.M. Hassan, G. Arce, J. Milla, T. Rupnow
Year: 2023
Journal: Journal of Materials in Civil Engineering, 35(4), 04023048

Optimization of the Self-Healing Efficiency of Bacterial Concrete Using Impregnation of Three Different Precursors into Lightweight Aggregate
Authors: O. Omar, M.R. Mousa, M. Hassan, J. Milla, T. Rupnow
Year: 2023
Journal: Transportation Research Record, 2677(3), pp. 1611–1624

Kmar M’Bareks | Sustainable Development | Best Researcher Award

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Kmar M’Bareks | Sustainable Development | Higher Institute of Agronomy of Chott Meriem

EARLY ACADEMIC PURSUITS:

KMAR M’BAREK's academic journey commenced in 1987 with a Bachelor's Degree in Mathematical Sciences from Taher Sfar High School in Mahdia, Tunisia. Subsequently, he earned a Master's Degree in Natural Sciences in 1995 from the Faculty of Sciences, Sfax, Tunisia. His educational pursuits continued with a Master of Research in Industrial Biotechnology from INSAT, Tunis, Tunisia, in 2007. In 2017, he attained a Ph.D. in Biological Sciences and Biotechnology from the Institute of Agronomy of Chott Meriam, Sousse, Tunisia.

PROFESSIONAL ENDEAVORS:

Since 1995, KMAR M’BAREK has dedicated his expertise to the field of education, serving as a Life and Earth Sciences Teacher at the secondary school level.

CONTRIBUTIONS AND RESEARCH FOCUS:

KMAR M’BAREK has made significant contributions to the scientific community, particularly in the realm of allelopathy and phytotoxicity. As the primary author of four publications, his research explores the effects of allelochemicals on germination and growth in agricultural crops. His work delves into the chemical composition and phytotoxicity of specific plant species, contributing valuable insights to the field.

Effects of allelochemicals from Juniperus phoenicea L. needles on the germination and growth of chosen agricultural crops.

ORCID
Scopus
IMPACT AND INFLUENCE:

With a focus on allelopathic effects and the mode of action of allelochemicals, M’BAREK's research has the potential to influence agricultural practices and plant biology. The international recognition of his work, as demonstrated by authoring and presenting at scientific congresses, underscores the impact of his research on a global scale.

ACADEMIC CITATIONS:

While specific citation metrics are not provided, the publication of four scientific articles indicates a scholarly impact, with potential citations and references within the scientific community.

LEGACY AND FUTURE CONTRIBUTIONS:

M’BAREK's legacy lies in his commitment to scientific inquiry, contributing valuable knowledge to the understanding of allelopathy and its implications for agriculture. His ongoing and future contributions are anticipated to further enrich the field of Life and Earth Sciences.

Mahdi Nematzadeh | Structural Engineering | Best Researcher Award

Posted on by Civil Engineering Awards

Mahdi Nematzadeh | Structural Engineering | University of Mazandaran

EARLY ACADEMIC PURSUITS:

Mahdi Nematzadeh embarked on his academic journey at the University of Mazandaran, laying the groundwork for a distinguished career. His early academic pursuits were characterized by a commitment to excellence, establishing a solid foundation for his future endeavors.

PROFESSIONAL ENDEAVORS:

In the professional realm, Mahdi has navigated diverse roles, contributing significantly to his field. These experiences have ranged from research positions to active involvement in projects, showcasing his versatility and practical engagement with the subject matter.

CONTRIBUTIONS AND RESEARCH FOCUS:

Mahdi's contributions to academia are marked by a dedicated focus on research. His work reflects a commitment to advancing knowledge within his domain, with a specific emphasis on a defined research focus. Whether through publications, projects, or collaborations, Mahdi has actively contributed to the academic landscape.

NOTABLE PUBLICATION

Mechanical properties and durability of high-strength concrete containing macro-polymeric and polypropylene.  2017 (317)

Scopus

Google Scholar

IMPACT AND INFLUENCE:

Mahdi's impact extends beyond his immediate circles, influencing peers and the broader academic community. Whether through innovative research methodologies, paradigm-shifting concepts, or collaborative initiatives, he has left a lasting impression on the trajectory of his field.

ACADEMIC CITATIONS:

Mahdi's research output is reflected in academic citations, a testament to the relevance and significance of his work. The acknowledgment and referencing of his contributions within scholarly publications underscore the academic impact he has made.

LEGACY AND FUTURE CONTRIBUTIONS:

Looking to the future, Mahdi's legacy lies in the foundations he has laid and the paths he has forged. His ongoing and potential future contributions hold the promise of further enriching the academic landscape, with an enduring impact on the field of study.

Ioanna Mitropoulou |  Geometry processing | Best Researcher Award

Posted on by Civil Engineering Awards

Ioanna Mitropoulou |  Geometry processing | ETH Zurich

EARLY ACADEMIC PURSUITS:

Ioanna Mitropoulou commenced her academic journey with a solid foundation in architecture, completing her Masters and Bachelor's degrees in the field with exemplary academic achievements. Her pursuit of excellence continued with studies in architecture, including an enriching Erasmus experience, contributing to a well-rounded educational background.

PROFESSIONAL ENDEAVORS:

Ioanna's professional journey has been marked by diverse experiences, notably as a Computational Designer at Esri R&D Center in Athens and an Intern in the Fab Lab of IAAC, Barcelona. Her roles involved computational design, programming, and robotic fabrication, showcasing her versatility and hands-on experience in the field.

CONTRIBUTIONS AND RESEARCH FOCUS:

Ioanna's contributions to the field of architecture and digital fabrication are evident in her impactful research. Her work on procedural urban environment generation, virtual reality visualization of urban projects, and her thesis on connecting elements using WAAM robotic additive manufacturing highlight her commitment to pushing the boundaries of computational design and fabrication.

NOTABLE PUBLICATION

Fabrication-Aware Strip-Decomposable Quadrilateral Meshes.  

ORCID
IMPACT AND INFLUENCE:

Ioanna's impact extends beyond her professional roles; her publications in reputable journals and participation in conferences demonstrate her influence in the realm of architectural innovation. Notably, her research on non-planar 3D printing has garnered attention, contributing to advancements in the field.

ACADEMIC CITATIONS:

Ioanna's research, as evidenced by her publications, has received recognition within the academic community. Her work on non-planar 3D printing, robotic fabrication, and volumetric modeling tools has contributed to the academic discourse, with notable publications in journals such as the '3D Printing and Additive Manufacturing' journal.

LEGACY AND FUTURE CONTRIBUTIONS:

As Ioanna embarks on her doctoral studies at ETH Zurich, her focus on 'Free-oriented Layered Morphologies' indicates a continuation of her pioneering work in computational methods for non-planar robotic 3D printing. Her involvement in teaching, supervision, and the development of open-source software reflects a commitment to shaping the future of digital fabrication and architectural design.

Sandra Matarneh | Environmental Engineering | Women Researcher Award

Posted on by Civil Engineering Awards

Sandra Matarneh | Environmental Engineering | Al Ahliyya Amman University

EARLY ACADEMIC PURSUITS:

Sandra Matarneh embarked on her academic journey with early pursuits at Al Ahliyya Amman University. The specifics of her initial academic endeavors, including areas of study and academic achievements during this formative period, have likely played a foundational role in shaping her scholarly interests.

PROFESSIONAL ENDEAVORS:

As Sandra Matarneh progressed in her academic journey, she ventured into the professional realm, applying her knowledge and skills. Details regarding specific roles, projects, or collaborations in her professional endeavors would shed light on the practical applications of her academic background.

CONTRIBUTIONS AND RESEARCH FOCUS:

Matarneh's contributions and research focus are crucial aspects of her academic and professional identity. Whether through publications, projects, or innovative solutions, understanding her contributions to her field and the areas of research she prioritizes provides insights into her intellectual impact.

NOTABLE PUBLICATION
Assessing water production from air conditioning systems as an unconventional supply source.
An Empirical Analysis of Barriers to Building Information Modelling (BIM) Implementation.
Deep learning for detecting distresses in buildings and pavements: a critical gap analysis.
Developing a new deep learning CNN model to detect and classify highway cracks.


AUTHOR PROFILE
ORCID
IMPACT AND INFLUENCE:

Assessing Matarneh's impact and influence involves recognizing the broader effects of her work. This could include positive outcomes in academia, acknowledgment within her professional network, and any influence she may have had on students, colleagues, or the academic community at large.

ACADEMIC CITATIONS:

An indicator of Matarneh's scholarly influence is reflected in her academic citations. High citation metrics would suggest that her research has made a significant contribution to the academic discourse, with fellow researchers and scholars referencing her work in their own studies.

FUTURE CONTRIBUTIONS:

Looking forward, Matarneh's future contributions may involve continued advancements in her academic and professional pursuits. This could include further research, participation in impactful projects, and potentially taking on leadership roles that contribute to the growth and development of Al Ahliyya Amman University.