Morteza Esmaeili | Engineering | Best Researcher Award

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Prof. Dr. Morteza Esmaeili | Engineering | Best Researcher Award

Iran University of Science and Technology | Iran

Dr. Morteza Esmaeili is a renowned academic, researcher, and innovator in the field of railway engineering. As a Professor and Director of the Department of Railway Track and Structures at the Iran University of Science and Technology, he has dedicated his career to advancing knowledge in railway geotechnics, dynamic behavior of tracks, and structural vibration analysis. His extensive expertise spans across ballasted and ballastless track systems, seismic design of underground structures, and advanced construction materials for railways. Through a blend of scientific rigor and practical application, Dr. Morteza Esmaeili has made significant contributions to both the academic community and the railway industry, earning international recognition as a leading authority in his discipline.

Professional Profile

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Education

Dr. Morteza Esmaeili began his academic journey with a strong foundation in civil engineering at the Iran University of Science and Technology, where he completed his undergraduate studies. His passion for geotechnics and structural mechanics led him to pursue advanced degrees at the University of Tehran, where he obtained both his Master’s and Doctoral qualifications in geotechnical engineering. This educational background provided him with the analytical and technical skills that have underpinned his research into soil-structure interaction, seismic responses, and railway infrastructure development. His academic path reflects a continuous commitment to deepening his expertise and applying it to the challenges of modern transportation systems.

Experience

Dr. Morteza Esmaeili has an extensive record of academic leadership and professional service. As a faculty member, he has taught a wide range of undergraduate and postgraduate courses, including statics, structural analysis, reinforced and concrete structures, railway substructure engineering, soil mechanics, and advanced railway substructure systems. He has also guided doctoral-level research on wave propagation theory and finite element modeling. His experience extends to authorship of influential textbooks, development of patents for railway engineering innovations, and supervision of high-impact research projects. Beyond teaching, Prof. Esmaeili has served as reviewer and editorial board member for international journals, contributing to the advancement of scientific knowledge and ensuring the quality of research published in leading outlets. His practical contributions include the design of innovative sleepers, ballast systems, and diagnostic devices for railway infrastructure, bridging academic theory with industrial application.

Research Interest

Dr. Morteza Esmaeili’s research interests are focused on the dynamic and vibrational behavior of railway tracks, the geotechnics of ballasted and ballastless systems, and the structural performance of underground constructions. He has worked extensively on modeling train-induced vibrations, analyzing seismic responses of railway structures, and proposing solutions to stabilize embankments and track foundations. His studies also cover advanced applications of asphalt and polymer materials in track design, development of high-performance sleepers, and innovative systems for diagnosing substructure failures. By integrating numerical modeling, experimental investigation, and field application, his research has continuously addressed real-world challenges in railway safety, durability, and efficiency, making a lasting impact on global railway engineering practices.

Awards

Dr. Morteza Esmaeili has been recognized nationally and internationally for his outstanding contributions to railway engineering and geotechnical research. His leadership in developing diagnostic tools, innovative track structures, and advanced construction methodologies highlights his role as a pioneer in bridging academic discovery with industrial application. His commitment to research excellence, teaching innovation, and international collaboration makes him a worthy recipient of the Best Researcher Award, reflecting not only his scholarly distinction but also the practical impact of his work on transportation systems and civil infrastructure.

Publications

Dr. Morteza Esmaeili has authored numerous high-impact journal papers, widely cited in the fields of railway dynamics, geotechnical engineering, and structural vibration analysis. Selected contributions include:

Title: Laboratory study on the effect of polypropylene fiber on durability, and physical and mechanical characteristic of concrete for application in sleepers
Published on: 2013
Citation: 347

Title: Experimental assessment of cyclic behavior of sand-fouled ballast mixed with tire derived aggregates
Published on: 2017
Citation: 127

Title: A numerical investigation on the lateral resistance of frictional sleepers in ballasted railway tracks
Published on: 2016
Citation: 116

Title: Influence of tire-derived aggregates on the properties of railway ballast material
Published on: 2017
Citation: 106

Title: Laboratory and field investigation of the effect of geogrid-reinforced ballast on railway track lateral resistance
Published on: 2017
Citation: 102

Title: Effect of combined carbonation and chloride ion ingress by an accelerated test method on microscopic and mechanical properties of concrete
Published on: 2014
Citation: 102

Title: Experimental comparison of the lateral resistance of tracks with steel slag ballast and limestone ballast materials
Published on: 2017
Citation: 100

Title: Experimental and numerical study of micropiles to reinforce high railway embankments
Published on: 2013
Citation: 92

Conclusion

Dr. Morteza Esmaeili stands as an exemplary researcher whose contributions to railway engineering and geotechnical science are both innovative and impactful. His extensive body of work reflects a balance of academic rigor, practical innovation, and international engagement. By addressing critical issues such as railway vibration, seismic safety, embankment stabilization, and advanced sleeper technologies, he has significantly advanced the field of transportation infrastructure. His leadership as a professor, author, patent-holder, and editor reinforces his position as a global authority in railway engineering. Dr. Morteza Esmaeili’s achievements make him a highly deserving nominee for the Best Researcher Award, honoring his dedication to advancing science and improving railway systems worldwide.

Umar Farooq | Engineering | Best Researcher Award

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Mr. Umar Farooq | Engineering | Best Researcher Award

National Formosa University | Taiwan

Mr. Umar Farooq, is a passionate and versatile Mechanical Engineer currently based at National Formosa University, Taiwan. With a dynamic portfolio spanning thermal analysis, CFD simulations, and innovative engineering design, he has rapidly gained recognition in both academic and industrial spheres. His multidimensional expertise and international exposure underscore his reputation as a forward-thinking researcher and technologist.

Author Profile👤

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Strengths for the Awards✨

Umar Farooq exemplifies excellence in applied research, particularly in Computational Fluid Dynamics (CFD), Heat Transfer, and Smart Manufacturing. With multiple international gold medals and special awards (e.g., American Invention Innovation Expo and Warsaw Invention Show), his contributions have already earned international recognition. His research spans impactful areas such as drug delivery, nanofluid heat transfer, and machine tool precision, showcasing both interdisciplinary knowledge and innovation.

As a first and corresponding author, he has published high-impact journal articles in top-tier publications such as Physics of Fluids, ACS Omega, Journal of Non-Equilibrium Thermodynamics, and Journal of the Taiwan Institute of Chemical Engineers — collectively cited by dozens of peer-reviewed articles. These works, coupled with his active role in scientific conferences and collaborations with international faculty, reflect a strong global research presence.

Moreover, his hands-on experience with diverse simulation tools (ANSYS, COMSOL, ABAQUS, DIGIMAT), and his role as a Research Assistant in HEC-funded and international projects, demonstrate his technical mastery and practical impact.

🎓 Education

Umar completed his M.Sc. in Mechanical and Computer-Aided Engineering from National Formosa University, Taiwan, His thesis focused on Thermal Modal Analysis for Thermal Response Prediction, showcasing his aptitude for thermal systems engineering. Earlier, he earned his B.Sc. in Mechanical Engineering from HITEC University, Taxila, where he worked on a stair lift project using rack & pinion systems for enhanced mobility.

💼 Experience

Umar has accumulated rich research and industry experience, including roles as a Research Assistant at NUST under Dr. Adnan Munir, CFD/FEA Expert at CFD Lab, and English Editing Assistant at National Formosa University. He has interned at renowned organizations like Toyota Motors and PTCL, and contributed to innovative projects in FitTech Co., Ltd., Taiwan. His extensive hands-on involvement in simulation and design tools has fueled a variety of cutting-edge projects and research.

🔍 Research Interests On Engineering

Umar’s research interests span Smart Manufacturing, Computational Fluid Dynamics (CFD), and Heat Transfer. He demonstrates proficiency in simulation tools like ANSYS, COMSOL, ABAQUS, SolidWorks, and MATLAB/Simulink. His interdisciplinary research connects theory to practical industrial applications—especially in the domain of thermal management and fluid mechanics.

🏆 Awards

Umar has earned several prestigious accolades, including:
Gold Medal at the American Invention Innovation Expo (USA) for an Environment Monitoring System (2024).
Gold Medal at the International Warsaw Invention Show (Poland).
Special Award from TISIAS, Canada, for innovation in environmental monitoring (2024).
3rd Place – Taiwan Industrial Development Agency Talent Rooting Program (2024).
Best Paper Award – 2024 IEEE 6th Eurasia Conference on IoT, Communication & Engineering for a paper on Thermal Modal Analysis.

📚 Publications

  • CFD analysis of hybrid nanofluid-based microchannel heat sink for electronic chips cooling: applications in nano-energy thermal devices
    Authors: YM Chu, U Farooq, NK Mishra, Z Ahmad, F Zulfiqar, S Yasmin, SA Khan
    Year: 2023
    Citations: 38

  • Thermal transport analysis of six circular microchannel heat sink using nanofluid
    Authors: H Waqas, SA Khan, U Farooq, T Muhammad, A Alshehri, S Yasmin
    Year: 2022
    Citations: 26

  • Computational analysis of natural convection with water based nanofluid in a square cavity with partially active side walls: applications to thermal storage
    Authors: SA Khan, S Yasmin, M Imran, T Muhammad, A Alhushaybari, U Farooq, …
    Year: 2023
    Citations: 17

  • Parametric effects on the mixing efficiency of resonant acoustic mixing technology for high-viscosity mixture: A numerical study
    Authors: IU Khan, R Guo, U Farooq, S Adhikari, H Zhou
    Year: 2023
    Citations: 17

  • Computational analysis of MHD MgO− water nanofluid flow inside hexagonal enclosure fitted with fins
    Authors: S Yasmin, SA Khan, N Fatima, M Imran, M Tahir, H Waqas, U Farooq, …
    Year: 2023
    Citations: 16

  • Breathing in danger: mapping microplastic migration in the human respiratory system
    Authors: HH Riaz, AH Lodhi, A Munir, M Zhao, U Farooq, M Qadri, MS Islam
    Year: 2024
    Citations: 13

  • Integrating numerical techniques and predictive diagnosis for precision enhancement in roller cam rotary table
    Authors: TC Chan, SC Wu, A Ullah, U Farooq, IH Wang, SL Chang
    Year: 2024
    Citations: 11

  • Recent progress in melting phenomenon for magnetized hybrid nanofluid flow over a stretching surface with temperature dependent viscosity: a comparative study
    Authors: SA Khan, H Waqas, T Muhammad, U Farooq, M Alghamdi
    Year: 2021
    Citations: 11

  • Application of heliox for optimized drug delivery through respiratory tract
    Authors: U Farooq, HH Riaz, A Munir, M Zhao, A Tariq, MS Islam
    Year: 2023
    Citations: 10

  • Improving machining accuracy of complex precision turning-milling machine tools
    Authors: TC Chan, JD Li, U Farooq, A Ullah
    Year: 2024
    Citations: 7

  • Estimation of heat transfer coefficient and friction factor with showering of aluminum nitride and alumina water based hybrid nanofluid in a tube with twisted tape insert
    Authors: W Chammam, U Farooq, M Sediqmal, H Waqas, S Yasmin, F Zulfiqar, …
    Year: 2023
    Citations: 7

🧾 Conclusion

Umar Farooq stands as a rising star in mechanical and thermal sciences, blending simulation mastery with a creative approach to complex engineering challenges. His record of international awards, high-impact publications, and collaborative research establishes him as an excellent candidate for the Best Researcher Award. With a futuristic mindset, cross-cultural experience, and unwavering dedication, Umar continues to contribute to the global scientific community.

 

Amin Jajarmi | Engineering | Best Researcher Award

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Assoc. Prof. Dr. Amin Jajarmi | Engineering | Best Researcher Award

University of Bojnord | Iran

Dr. Amin Jajarmi is a renowned Associate Professor of Electrical Engineering at the University of Bojnord, Iran, specializing in control systems and fractional calculus. he has significantly contributed to nonlinear dynamics, fractional-order models, and optimal control. With an extensive portfolio of high-impact publications and international collaborations, Dr. Jajarmi stands out as a global leader in mathematical modeling and engineering applications.

Author Profile👤

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Strengths for the Awards✨

Dr. Amin Jajarmi demonstrates an exceptional research profile that firmly establishes his eligibility for the Best Researcher Award:

  • Prolific Research Output: With over 85 peer-reviewed journal articles, numerous book chapters, and more than 40 conference proceedings, Dr. Jajarmi’s academic contribution is not only vast but highly relevant in the fields of fractional calculus, optimal control, and applied mathematics.

  • High Research Impact: He holds an H-index of 49 on Google Scholar and 47 on Scopus, with over 7600 citations—a clear indicator of sustained influence and scholarly recognition. Notably, he has 25 Highly Cited/Hot Papers listed in the Web of Science.

  • Global Recognition: He is ranked among the World’s Top 2% Scientists (Elsevier) and a Highly Ranked Scholar (ScholarGPS™), reflecting his significant global impact.

  • Editorial and Peer Roles: His participation as editor/guest editor in reputed journals such as Symmetry, Open Physics, and Mathematical Problems in Engineering demonstrates his leadership in the scientific community.

  • Prestigious Awards: He has received over 10 major awards, including the Young Distinguished Researcher Award (2024), Best Academic Staff Researcher (2023 & earlier), and Oliviu Gherman Award for excellence in fractional calculus.

  • International Collaboration: With collaborative research experience in Germany, Turkey, and UAE, Dr. Jajarmi maintains a robust international academic network.

🎓 Education

Dr. Jajarmi completed his Ph.D. in Control Engineering from Ferdowsi University of Mashhad, Iran, in 2012 under the mentorship of Prof. Ali Vahidian Kamyad and Prof. Naser Pariz, focusing on nonlinear optimal control problems using modal series. He also obtained his M.Sc. (2007) and B.Sc. (2005) from the same university, demonstrating a consistent and deep engagement with control theory and systems modeling throughout his academic journey.

🧑‍🏫 Experience

Currently an Associate Professor since 2019, Dr. Jajarmi has served the University of Bojnord with distinction. His global outreach includes visiting researcher roles in Germany (Otto-von-Guericke University), Turkey (Middle East Technical University, Cankaya University), and various academic conferences across Europe and Asia. Between 2012–2019, he was an Assistant Professor, where he laid the foundation for his influential research career.

🔬 Research Interests On Engineering

Dr. Jajarmi’s research explores the intersection of control theory and fractional calculus, emphasizing computational methods for optimal control, modeling of chaotic phenomena, and the application of fractional differential equations in engineering, finance, biology, and epidemiology. His interdisciplinary work enhances predictive accuracy and control robustness in complex systems.

🏅 Awards and Honors

Dr. Jajarmi has received numerous prestigious awards, including the World’s Top 2% Scientists recognition (Elsevier, 2023), the Highly Ranked Scholar status (ScholarGPS™), and Young Distinguished Researcher Award at the 7th ICMMAAC (2024). He has also received multiple “Best Academic Staff Researcher” awards, the CMES Young Researcher Award, and the Oliviu Gherman Award for excellence in fractional calculus research.

📚 Selected Publications

  • A new study on the mathematical modelling of human liver with Caputo-Fabrizio fractional derivative
    Authors: D. Baleanu, A. Jajarmi, H. Mohammadi, S. Rezapour
    Year: 2020
    Citations: 790

  • A new fractional model and optimal control of a tumor-immune surveillance with non-singular derivative operator
    Authors: D. Baleanu, A. Jajarmi, S.S. Sajjadi, D. Mozyrska
    Year: 2019
    Citations: 354

  • Hyperchaotic behaviours, optimal control, and synchronization of a nonautonomous cardiac conduction system
    Authors: D. Baleanu, S.S. Sajjadi, J.H. Asad, A. Jajarmi, E. Estiri
    Year: 2021
    Citations: 276

  • A new fractional analysis on the interaction of HIV with CD4+ T-cells
    Authors: A. Jajarmi, D. Baleanu
    Year: 2018
    Citations: 226

  • A new adaptive synchronization and hyperchaos control of a biological snap oscillator
    Authors: S.S. Sajjadi, D. Baleanu, A. Jajarmi, H. Mohammadi Pirouz
    Year: 2020
    Citations: 217

  • A new fractional modelling and control strategy for the outbreak of dengue fever
    Authors: A. Jajarmi, S. Arshad, D. Baleanu
    Year: 2019
    Citations: 213

  • On the fractional optimal control problems with a general derivative operator
    Authors: A. Jajarmi, D. Baleanu
    Year: 2021
    Citations: 211

  • A new and efficient numerical method for the fractional modelling and optimal control of diabetes and tuberculosis co-existence
    Authors: A. Jajarmi, B. Ghanbari, D. Baleanu
    Year: 2019
    Citations: 210

  • On the nonlinear dynamical systems within the generalized fractional derivatives with Mittag–Leffler kernel
    Authors: D. Baleanu, A. Jajarmi, M. Hajipour
    Year: 2018
    Citations: 184

  • A new comparative study on the general fractional model of COVID-19 with isolation and quarantine effects
    Authors: D. Baleanu, M. Hassan Abadi, A. Jajarmi, K. Zarghami Vahid, J.J. Nieto
    Year: 2022
    Citations: 181

  • The fractional features of a harmonic oscillator with position-dependent mass
    Authors: D. Baleanu, A. Jajarmi, S.S. Sajjadi, J.H. Asad
    Year: 2020
    Citations: 168

  • A New Iterative Method for the Numerical Solution of High-order Nonlinear Fractional Boundary Value Problems
    Authors: A. Jajarmi, D. Baleanu
    Year: 2020
    Citations: 167

🧾 Conclusion

🌟 With a global reputation for excellence in fractional modeling and control engineering, Dr. Amin Jajarmi exemplifies academic leadership and innovation. His extensive research portfolio, impactful publications, high citation metrics (Scopus h-index: 47, Google Scholar h-index: 49), and multiple accolades make him a truly deserving candidate for the Outstanding Scientist Award. His work continues to inspire advancements in engineering science and interdisciplinary system modeling.

Huatao Zhao | Engineering | Best Researcher Award

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Assoc. Prof. Dr. Huatao Zhao | Engineering | Best Researcher Award

Southwest Petroleum University | China

Dr. Huatao Zhao is an accomplished Associate Professor at the School of Geoscience and Technology, Southwest Petroleum University, China. With a PhD in Geotechnical Engineering and extensive experience in dynamic rock mechanics, Dr. Zhao’s academic journey and dedication to cutting-edge research have positioned him as a rising scholar in the field of geotechnical and geological engineering. His work contributes significantly to the understanding of stress wave propagation, dynamic fracture mechanisms, and safety technologies in underground construction.

Professional profile👤

Scopus

Strengths for the Awards✨

  • Strong Research Focus and Expertise
    Dr. Zhao’s research lies in Geotechnical and Geological Engineering, with a sharp focus on dynamic mechanical behavior of rock masses, fracture mechanics, and deep excavation under high-stress environments—a critical field in modern infrastructure, tunneling, and energy resource development.

  • Significant Research Output
    He has authored over 15 high-impact journal publications, including in International Journal of Rock Mechanics and Mining Sciences, International Journal of Impact Engineering, and Tunnelling and Underground Space Technology. These are reputed outlets in the geotechnical domain, indicating high-quality contributions.

  • Research Grants and Leadership
    Dr. Zhao has secured multiple national and provincial research grants, including three funded by the National Natural Science Foundation of China, showing recognition and trust from major funding bodies. The awarded projects reflect originality and address critical challenges in rock mechanics.

  • Academic Recognition and Awards

    • Outstanding Academic Report (2022, 2023) from both international and national platforms.

    • First Prize for Scientific and Technological Progress for contributions to blasting safety—highlighting real-world impact and applied research success.

  • International Exposure and Collaboration
    A guest research appointment at Kyoto University, Japan, adds valuable international dimension and collaboration to his academic profile.

🎓 Education

Dr. Zhao earned his Ph.D. in Geotechnical Engineering from Central South University (CSU), China (2018–2022). 🎓 During his doctoral studies, he enhanced his global perspective through a one-year stint as a Guest Researcher at Kyoto University, Japan (2019–2020). He previously completed his M.Sc. in Mining Engineering at CSU (2015–2018), where his foundational research skills in rock mechanics and underground engineering were developed.

💼 Experience

Since December 2022, Dr. Zhao has served as an Associate Professor at Southwest Petroleum University, having earlier held a Lecturer position at the same institution (July–December 2022). 🏫 His academic career has been focused on innovative geotechnical solutions, underground excavation safety, and dynamic load behavior in high-stress environments.

🔬 Research Interests On Engineering

Dr. Zhao’s research revolves around Geotechnical and Geological Engineering, specifically exploring the dynamic mechanical behavior, fracture mechanics, and stress wave propagation in underground rock structures. His recent projects funded by national and provincial bodies include studies on stress concentration effects, seismic-reservoir integration, and deep-hole blasting mechanisms. 🌋🧪

🏆 Awards

  • 🏅 Excellent Postgraduate Student, Central South University, 2016

  • 🏅 Outstanding Academic Report, RocDyn-4 Conference, 2022

  • 🏅 Outstanding Academic Report, Geological Society of China, 2023

  • 🥇 First Prize, Scientific and Technological Progress for key technologies in intelligent open-pit and underground blasting, 2023

These honors underscore Dr. Zhao’s recognized contributions to academic research and engineering innovations.

📚 Publications

Dr. Zhao has authored and co-authored numerous high-impact journal articles that have garnered significant academic attention. 📈 His publications include:

  1. Influence of excavation damaged zone on the dynamic response of circular cavityInternational Journal of Rock Mechanics and Mining Sciences, 2021.

  2. Estimation of spalling strength of sandstoneInternational Journal of Impact Engineering, 2019.

  3. Experimental investigation on dynamic mechanical properties of underground openingsInternational Journal of Damage Mechanics, 2022.

  4. Theoretical analysis of stress distribution around circular damaged roadwayInternational Journal for Numerical and Analytical Methods in Geomechanics, 2023.

  5. Mechanical characteristics and fracture mechanism of graniteChinese Journal of Nonferrous Metals, 2023.

  6. Analytical study of P-wave scattering around circular cavitiesTunnelling and Underground Space Technology, 2020.

  7. Failure characteristics in pre-stressed rocks under dynamic loadingTunnelling and Underground Space Technology, 2018.

  8. Fracture failure analysis of granodiorite rocksTheoretical and Applied Fracture Mechanics, 2020.

  9. Failure characteristics under 3D stress conditionsTransactions of Nonferrous Metals Society of China, 2022.

  10. Influence of acid corrosion on dynamic properties of marbleGeomechanics and Geophysics for Geo-Energy and Geo-Resources, 2021.

  11. Dynamic failure behavior of holed sandstoneInternational Journal of Damage Mechanics, 2023.

  12. Dynamic fracture of granodiorite under various hole sizesTheoretical and Applied Fracture Mechanics, 2020.

  13. Dynamic stress redistribution around circular tunnelsComputers and Geotechnics, 2023.

  14. Dynamic behaviors of stressed circular tunnel under cylindrical P waveRock Dynamics, CRC Press, 2023.

  15. Intelligent prediction of underbreak in tunnelingInternational Journal of Rock Mechanics and Mining Sciences, 2024.

📝 Many of these publications have been cited in subsequent research, highlighting Dr. Zhao’s influence in advancing underground rock mechanics.

✅ Conclusion

Dr. Huatao Zhao exemplifies the qualities of a dedicated academic, innovative researcher, and impactful contributor to geotechnical engineering. 🛠️ His international training, prolific publication record, and multiple honors make him a strong candidate for academic recognition and future leadership in engineering research. He continues to inspire both peers and students through his scientific rigor and dedication to addressing complex underground engineering challenges.