Hamed Rahman Shokrgozar | Structural Engineering | Best Researcher Award

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Prof. Hamed Rahman Shokrgozar | Structural Engineering | Best Researcher Award

Author, University of Mohaghegh Ardabili

Hamed Rahman Shokrgozar, born on September 5, 1982, in Ardabil, Iran, is a distinguished structural engineer specializing in seismic performance evaluation and offshore platform design. With over eight years of professional experience, he has contributed to major engineering projects, including hospital foundations, oil refineries, water intake structures, and offshore platforms. His expertise spans nonlinear 3D modeling, soil-pile-structure interaction, and earthquake-resistant building design. As a researcher, he has published extensively in top-tier journals and international conferences. He has also imparted knowledge as a university lecturer, guiding students in structural analysis and dynamic behavior. His dedication to engineering excellence is evident through his extensive project contributions and academic pursuits.

Profile

Scholar

Orcid

🎓 Education

Ph.D. in Structural Engineering (2006-2012) – K.N. Toosi University of Technology (GPA: 17.88)  M.Sc. in Structural Engineering (2004-2006) – K.N. Toosi University of Technology (GPA: 17.77)  B.Sc. in Civil Engineering (2000-2004) – Mohaghegh Ardabili University (GPA: 17.57)  His academic journey focused on seismic performance analysis, nonlinear modeling, and structural resilience. His Ph.D. research explored soil-pile-structure interaction in offshore platforms, while his M.Sc. work analyzed earthquake-resistant buildings. Throughout his studies, he demonstrated academic excellence, laying a solid foundation for his professional and research career in structural engineering.

💼 Experience 

Structure Discipline Expert with 8+ years of experience in civil and structural engineering  Design of Building Foundations: Hospitals, residential, and commercial buildings, including 160-bed hospital foundations in Bousher  Offshore & Oil Projects: Structural analysis and design of oil platforms, refineries, and marine terminals, including “Khesht Oil Refinery” and “Arvndknar Multi-Purpose Port”  Infrastructure Projects: Design of bridges, water intake structures, and pumping stations  Advanced Structural Modeling: Nonlinear 3D simulations of offshore platforms and earthquake-resistant structures using ABAQUS  Teaching Experience: Lecturer at multiple universities, specializing in structural dynamics, concrete design, and mechanics of materials

🏅 Awards & Honors 

Recognized Structural Engineering Researcher in seismic performance and offshore platform design  Multiple Journal & Conference Publications in high-impact civil engineering platforms  Contributor to International Engineering Projects involving seismic risk mitigation and offshore infrastructure development  Excellence in Nonlinear Structural Analysis for earthquake-resistant buildings and marine structures  Esteemed Lecturer at renowned universities, shaping the future of civil engineers

🔬 Research Focus 

Seismic Performance Evaluation: Studying earthquake-resistant structures and assessing steel jacket platforms’ response Nonlinear Finite Element Analysis: Applying ABAQUS to evaluate offshore platform stability and deformation behavior  Soil-Pile-Structure Interaction (SPSI): Investigating dynamic response characteristics for offshore and onshore foundations  Buckling-Restrained Braced Frames (BRBFs): Enhancing seismic resilience in structural engineering projects  Structural Optimization: Designing efficient and sustainable infrastructure, including bridges, buildings, and marine terminals

Conclusion

Dr. Hamed Rahman Shokrgozar exhibits a commendable blend of academic knowledge and practical experience in structural engineering. His research contributions, particularly in seismic performance and structural dynamics, position him as a strong candidate for the “Best Researcher Award.” Addressing areas such as international collaboration and funding acquisition could further bolster his candidacy.

Publication

  • Asgarian, B., & Shokrgozar, H. R. (2009). BRBF response modification factor. Journal of Constructional Steel Research, 65(2), 290-298. Citations: 211

 

  • Asgarian, B., Aghaeidoost, V., & Shokrgozar, H. R. (2016). Damage detection of jacket type offshore platforms using rate of signal energy using wavelet packet transform. Marine Structures, 45, 1-21. Citations: 115

 

  • Asgarian, B., Shokrgozar, H. R., Shahcheraghi, D., & Ghasemzadeh, H. (2012). Effect of soil pile structure interaction on dynamic characteristics of jacket type offshore platforms. Coupled Systems Mechanics, 1(4), 381-395. Citations: 21

 

  • Khosravan, A., Asgarian, B., & Shokrgozar, H. R. (2021). Improved Modal Strain Energy Decomposition Method for damage detection of offshore platforms using data of sensors above the water level. Ocean Engineering, 219, 108337. Citations: 19

 

  • Asgarian, B., & Shokrgozar, H. R. (2013). A new bracing system for improvement of seismic performance of steel jacket type offshore platforms with float-over-deck. Petroleum Science, 10, 373-384. Citations: 14

 

  • Asgarian, B., Shokrgozar, H. R., & Abitorabi, M. (2008). Effect of design loads in buckling restrained braced frames performance. The 14th World Conference on Earthquake Engineering, October 12-17. Citations: 12

 

  • Aghaeidoost, V., Afshar, S., Tajaddod, N. Z., Asgarian, B., & Shokrgozar, H. R. (2023). Damage detection in jacket-type offshore platforms via generalized flexibility matrix and optimal genetic algorithm (GFM-OGA). Ocean Engineering, 281, 114841. Citations: 9

 

  • Shokrgozar, H., Asgarian, B., & Aghaeidoost, V. (2021). Experimental investigation of decomposition of signal energy for damage detection of jacket type offshore platforms. Ships and Offshore Structures. Citations: 9

 

  • Shokrgozar, H. R. (2018). Comparison of Seismic Reliability and Risk Assessment for Special and Intermediate Steel Moment Frames. KSCE Journal of Civil Engineering. Citations: 9

 

  • Asgarian, B., & Salehi Golesefidi, E. (2016). Probabilistic seismic evaluation of buckling restrained braced frames using DCFD and PSDA methods. Earthquakes and Structures, 10(1), 105-123. Citations: 8

 

  • Shokrgozar, H. R., Akrami, V., Ma’af, T. J., & Shahbazi, N. (2021). The effect of different retrofitting techniques on the axial load carrying capacity of damaged cylindrical shells. Structures, 31, 590-601. Citations: 6

 

  • Shokrgozar, H. R., Naeim, K., & Kalasar, H. I. (2017). Comparison of the Efficiency of Tuned Mass and Tuned Liquid Dampers at High-Rise Structures under Near and Far Fault Earthquakes. Journal of Structural and Construction Engineering, 3(4), 105-119. Citations: 5

Shukri Elbellahy | Architectural Engineering | Best Researcher Award

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Assoc. Prof. Dr . Shukri Elbellahy | Architectural Engineering | Best Researcher Award

Faculty member, Najran University, Saudi Arabia

Assoc. Prof. Dr. Eng. Shukri Elbellahy is an accomplished architect and academic based in Najran, Saudi Arabia. He holds a PhD in Architectural Engineering, specializing in Building Physics and Ecology from the prestigious Vienna University of Technology, Austria. Dr. Elbellahy has over 20 years of professional experience, combining his architectural practice with a deep commitment to teaching. His work focuses on sustainable architecture, energy efficiency in buildings, and environmental design. Currently, he serves as an Associate Professor in the Department of Architectural Engineering at Najran University. His contributions to academia have been recognized globally, with numerous publications in international journals and conferences. 🏛️💡🌍

Publication Profile

Google Scholar

Education

Dr. Elbellahy’s academic journey began with a BSc in Architectural Engineering from Menofia University, Egypt. He further advanced his studies with an MSc in Architecture from the Vienna University of Technology, where he specialized in building construction. His doctoral research, titled “An empirical study of effort and effectiveness in computational building design support,” was completed at the Vienna University of Technology in 2005. 🎓📚

Experience

Dr. Elbellahy’s academic career spans several roles at prominent institutions. He is currently an Associate Professor at Najran University, having previously held positions as an Assistant Professor at Misr Higher Institute of Engineering and Technology and a Lecturer at several Egyptian universities. His industry experience includes architectural roles in residential, office, and educational building designs in both Egypt and Austria. His practical expertise includes work as an architectural engineer and a site engineer in major construction projects. 🏗️🏢

Awards and Honors

Throughout his career, Dr. Elbellahy has earned recognition for his innovative contributions to architectural engineering. He has received numerous academic awards, including the Sustainability in Building Design recognition from various architectural bodies. His work on energy efficiency and sustainable building practices in arid climates has been acknowledged in both academic and professional circles. 🏆🎖️

Research Focus

Dr. Elbellahy’s research primarily focuses on environmental control in architecture, including energy efficiency, sustainable building design, and the integration of renewable energy technologies. His studies often explore the impact of modern building technologies on reducing energy consumption and improving thermal comfort in buildings, especially in hot and arid climates. His current work also investigates the application of zero-energy building concepts and the effectiveness of modern technologies in optimizing water and energy use in the built environment. 🌱🔋

Conclusion

Dr. Shukri Elbellahy’s blend of academic rigor and hands-on experience in architectural practice makes him a distinguished figure in the field of sustainable architecture. His ongoing contributions to teaching, research, and the architectural profession continue to influence both the academic world and the built environment. His expertise in environmental design and sustainable practices remains a beacon for future advancements in the field. 🌍🏡

Publications

Perspectives on Sustainable Construction in the Middle East: A Comparative Analysis of Industry and Academia. Sustainability, 17(1), 4. Link

Effectiveness of Modern Methods and Technologies to Optimize Water Efficiency in the Buildings and Egyptian Urban Environment, Journal of AlAzhar University Engineering Sector, 19, 1527-1539.

Field measurements of post-operation evaluation of daylighting and thermal comfort in hot and arid climates: A pilot study of three educational buildings on the Najran University campus in Saudi Arabia, Journal of Building Engineering, 82, 108174. Link

An empirical study to evaluate the architectural design in the construction documents stage using criteria-based evaluation model, Engineering Science and Military Technologies, 4(2), 152-163. Link

Review of the effect of modern technologies on reducing the energy consumption in the buildings and urban communities of Egypt, Journal of Egyptian Society of Engineers, 2(57), 43-51.

Effectiveness of using nanomaterials in improving the building envelope performance, First International Conference, Faculty of Engineering, Menofia University, 24-28 March, Sharm Elsheikh.

Dong Lu | Construction Engineering | Young Scientist Award

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Dr. Dong Lu | Construction Engineering | Young Scientist Award

Doctorate at The Hong Kong Polytechnic University, Hong Kong

Dr. Dong Lu is a distinguished researcher in the field of smart pavement and low-carbon, sustainable building materials. He holds an M.S. degree from Chang’an University and a Ph.D. from Harbin Institute of Technology, with a second Ph.D. currently in progress at the Hong Kong Polytechnic University. Dr. Lu has authored over 60 SCI-indexed publications, including five highly cited papers, accumulating over 1,200 citations and an H-index of 23. His groundbreaking work includes the development of microwave heating self-healing technology for asphalt pavement, significantly advancing road maintenance and monitoring. In addition to his academic achievements, Dr. Lu has been involved in multiple high-impact research projects and holds 10 granted patents out of 17 applications, demonstrating his commitment to innovation in sustainable construction technologies.

Publication Profile

Google Scholar 

🎓 Academic and Training Background

Dr. Dong Lu has a solid academic foundation in civil engineering and materials science. He earned his M.S. degree from Chang’an University, where he developed a strong interest in sustainable infrastructure. He then pursued a Ph.D. at Harbin Institute of Technology, focusing on advanced construction materials and smart pavements. Currently, Dr. Lu is working towards a second Ph.D. at the Hong Kong Polytechnic University, further specializing in low-carbon, sustainable building materials and structures. His academic journey has equipped him with a deep understanding of both theoretical and practical aspects of modern civil engineering challenges.

💼 Work Experience

Dr. Dong Lu has an impressive work experience that blends academic research with industry collaboration. He has been extensively involved in research on smart pavement and sustainable building materials, contributing significantly to the field through his innovative work on microwave heating self-healing technology for asphalt pavements. Dr. Lu has led and participated in numerous high-profile research projects, including those funded by the State Key Laboratory of Mountain Bridge and Tunnel Engineering and the Research Grant Council of Hong Kong. His experience also includes consultancy roles, where he has collaborated with enterprises such as Suzhou Solid Tough Nanomaterials Technology Co., Ltd., focusing on the development of nano-carbon multifunctional coating materials. Dr. Lu’s work has had a tangible impact on key infrastructure projects, including the Hong Kong Hung Hom Road Overhaul and Greater Bay Area Road Maintenance, showcasing his ability to apply cutting-edge research to real-world engineering challenges.

🏆 Strengths for the Award

Dr. Dong Lu’s strengths for the Research for Young Scientist Award are rooted in his innovative contributions to civil engineering and materials science. He has pioneered research on smart pavements and low-carbon, sustainable building materials, notably developing microwave heating self-healing technology for asphalt pavements, which has practical applications in road maintenance. His prolific publication record, with over 60 SCI-indexed papers, including several highly cited works, underscores his influence and impact in the scientific community. Additionally, Dr. Lu’s strong integration of academic research with industry needs is demonstrated through his successful collaborations on product development projects and his impressive portfolio of 17 patents, of which 10 have been granted. His leadership in high-impact research projects, funded by prestigious organizations like the Research Grant Council of Hong Kong, further highlights his ability to manage and deliver on complex initiatives. With over 1,200 citations and an H-index of 23, Dr. Lu’s work is globally recognized, making him a deserving candidate for this award.

🔍 Areas for Improvement

Dr. Dong Lu has demonstrated exceptional expertise and accomplishments in his field, there are areas where further development could enhance his already impressive profile. Diversifying his research portfolio to include interdisciplinary collaborations beyond civil engineering and materials science could broaden the impact of his work. Additionally, expanding his mentorship of young researchers and involvement in international research networks may help to further establish his influence and leadership on a global scale. Finally, while his publication record is strong, increasing engagement with the broader scientific community through keynote speeches, workshops, and participation in global conferences could enhance his visibility and contribute to the dissemination of his research findings.

Publications:

  • Understanding the role of unzipped carbon nanotubes in cement pastes
    • Journal: Cement and Concrete Composites
    • Year: 2022
    • Cited by: 73
    • Volume: 126, Article ID: 104366
  • Carbon nanotube polymer nanocomposites coated aggregate enabled highly conductive concrete for structural health monitoring
    • Journal: Carbon
    • Year: 2023
    • Cited by: 55
    • Volume: 206, Pages: 340-350
  • Carbon-based nanomaterials engineered cement composites: a review
    • Journal: Journal of Infrastructure Preservation and Resilience
    • Year: 2022
    • Cited by: 51
    • Volume: 3(1), Article ID: 2
  • Interfacial bonding between graphene oxide coated carbon nanotube fiber and cement paste matrix
    • Journal: Cement and Concrete Composites
    • Year: 2022
    • Cited by: 50
    • Volume: 134, Article ID: 104802
  • Highly conductive and sensitive piezoresistive cement mortar with graphene coated aggregates and carbon fiber
    • Journal: Cement and Concrete Composites
    • Year: 2022
    • Cited by: 48
    • Volume: 134, Article ID: 104731
  • Influence of ternary blended cementitious fillers in a cold mix asphalt mixture
    • Journal: Journal of Cleaner Production
    • Year: 2021
    • Cited by: 47
    • Volume: 318, Article ID: 128421
  • Growing nanocrystalline graphene on aggregates for conductive and strong smart cement composites
    • Journal: ACS Nano
    • Year: 2023
    • Cited by: 45
    • Volume: 17(4), Pages: 3587-3597
  • Interfacial nano-engineering by graphene oxide to enable better utilization of silica fume in cementitious composite
    • Journal: Journal of Cleaner Production
    • Year: 2022
    • Cited by: 45
    • Volume: 354, Article ID: 131381
  • Nano-engineering the interfacial transition zone in cement composites with graphene oxide
    • Journal: Construction and Building Materials
    • Year: 2022
    • Cited by: 39
    • Volume: 356, Article ID: 129284
  • Graphene coated sand for smart cement composites
    • Journal: Construction and Building Materials
    • Year: 2022
    • Cited by: 37
    • Volume: 346, Article ID: 128313

🏅 Conclusion

Dr. Dong Lu’s extensive research contributions, innovative solutions, and strong academic and industry connections make him a highly deserving candidate for the Research for Young Scientist Award. His work not only pushes the boundaries of knowledge in smart and sustainable construction materials but also has significant real-world applications, making him a valuable asset to both academia and industry.