Benkun Tan | Engineering | Best Researcher Award

Posted on 05/11/202405/11/2024 by ScienceFather

Benkun Tan | Engineering | Best Researcher Award

Dr Benkun Tan, Hunan University of Arts and Sciences, China

Dr. Benkun Tan is a Ph.D. candidate at Changsha University of Science and Technology, specializing in Civil Engineering. His research focuses on steel-concrete composite structures, with significant contributions including studies on temperature field prediction and fatigue damage analysis. Notable publications include “Temperature Field Prediction of Steel-Concrete Composite Decks” and “Fatigue Crack Propagation in Stud Connectors.” Dr. Tan’s work is published in reputable journals such as Journal of Zhejiang University-SCIENCE A and Sustainability. His innovative approach enhances the understanding of structural integrity and performance. 🌉📚✨

Publication profile

Orcid

Education

Changsha University of Science and Technology, located in Changsha, China, has been the academic home of a Ph.D. candidate in the School of Civil Engineering since September 1, 2019. This institution is renowned for its comprehensive engineering programs, providing a robust curriculum that integrates theoretical knowledge with practical application. The focus on civil engineering equips students with the skills needed to tackle modern infrastructure challenges. Engaging with experienced faculty and participating in cutting-edge research, the candidate is poised to make significant contributions to the field. 📚🏗️🌍

Research focus

Benkun Tan is an emerging researcher in the field of civil engineering, specifically focusing on steel-concrete composite structures. His research encompasses temperature field prediction, multiaxial fatigue damage analysis, and fatigue crack propagation in composite beams and connectors. Tan employs innovative methods, including ensemble algorithms and numerical simulations, to enhance the durability and performance of composite materials in construction. His contributions aim to optimize design and layout for temperature measurement in bridges, thereby improving structural integrity and safety. With a commitment to sustainability, Tan’s work is significant for advancing engineering practices in the built environment. 🔧🏗️📊

Publication top notes

Temperature field prediction of steel-concrete composite decks using TVFEMD-stacking ensemble algorithm

Multiaxial Fatigue Damage Analysis of Steel–Concrete Composite Beam Based on the Smith–Watson–Topper Parameter

Optimization Method of Temperature Measuring Point Layout for Steel-Concrete Composite Bridge Based on TLS-IPDP

Fatigue Crack Propagation and Life Analysis of Stud Connectors in Steel-Concrete Composite Structures

Numerical Study on Stress Intensity Factors for Stud Connectors of Steel–Concrete Connection

Conclusion

Dr. Tan’s research portfolio demonstrates consistent contributions to the fields of temperature modeling, fatigue analysis, and lifecycle assessment of steel-concrete composite structures, underscoring his suitability for the Best Researcher Award in civil engineering. His innovative methodologies and practical applications in composite structures align with the award’s focus on impactful and forward-thinking research in the field.

mehrdad ghamari | Engineering | Best Researcher Award

Posted on 25/10/202425/10/2024 by ScienceFather

Mr. mehrdad ghamari | Engineering | Best Researcher Award

PhD student, Edinburgh Napier University, Edinburgh, United Kingdom United Kingdom

Profile :

Scopus

Education Background :

Mehrdad Ghamari has a solid educational foundation, culminating in a Ph.D. and impressive degrees in Structural Engineering and Civil Engineering. His academic journey includes prestigious institutions, such as the University of Isfahan and the University of Tehran, where he maintained high GPAs, showcasing his commitment to excellence. His ongoing role as a Visiting Researcher at prominent universities in the UK and Portugal demonstrates his pursuit of advanced knowledge and skills in his field.

Professional Experience :

Ghamari’s extensive work experience, including his role in designing and supervising numerous concrete and steel structures, showcases his practical application of research findings in real-world settings. His professional memberships and certifications reflect a commitment to lifelong learning and adherence to industry standards, enhancing his credibility as a researcher and engineer.

Research Experience & Interests :

Ghamari’s research portfolio reflects significant contributions to civil engineering, particularly in structural analysis and innovative materials. His work on photovoltaic integration for passive cooling and the effects of lateral constraints on historical masonry demonstrates both depth and breadth in addressing contemporary challenges in engineering. Collaborations with esteemed professors and publications in recognized journals further solidify his status as a leading researcher.

Award And Recognition :

Mehrdad Ghamari’s exceptional contributions to the field of civil engineering have earned him significant recognition. He has been honored for his innovative research on sustainable building technologies, receiving accolades from various academic and professional organizations. His publications in high-impact journals demonstrate his commitment to advancing knowledge and practices in structural engineering. Ghamari’s dedication to education and mentorship has also been acknowledged, with awards recognizing his outstanding teaching efforts at multiple universities. These achievements reflect his passion for engineering and his influence on both the academic community and the broader industry.

Conclusion :

In summary, Mehrdad Ghamari’s exceptional educational background, extensive research experience, impactful academic contributions, and robust professional engagement make him a highly suitable candidate for the Research for Best Researcher Award. His commitment to advancing the field of civil engineering through innovative research and teaching positions him as a leader in his domain, deserving of recognition for his achievements and contributions.

Publication Top Notes :

Solar Window Innovations: Enhancing Building Performance through Advanced Technologies
Ghamari, M., Sundaram, S. (2024). Energies, 17(14), 3369. 📄 (0 citations)
Advancing sustainable building through passive cooling with phase change materials, a comprehensive literature review
Ghamari, M., See, C.H., Hughes, D., Patchigolla, K., Sundaram, S. (2024). Energy and Buildings, 312, 114164. 📄 (5 citations)
Flanges’ Impact on Persian Historical Masonry Walls: Modeling Safety Factors
Ghamari, M., Karimi, M.S., Lourenço, P.B., Sousa, H.S. (2024). International Journal of Engineering, Transactions B: Applications, 37(6), pp. 1136–1145. 📄 (0 citations)
Solar Wall Technology and Its Impact on Building Performance
Ghamari, M., Sundaram, S. (2024). Energies, 17(5), 1075. 📄 (2 citations)
Effects of Lateral Constraints and Geometrical Characteristics on Deformation Capacity of the Persian Historic Unreinforced Masonry Shear Walls under Uncertainty Conditions
Ghamari, M., Karimi, M.S., AmirShahkarami, A. (2021). International Journal of Engineering, 33(11), pp. 2127-2136. 📄 (0 citations)

Kilhun Lee | Engineering | Women Researcher Award

Posted on 10/10/202410/10/2024 by ScienceFather

Prof. Dr. Kilhun Lee | Engineering | Women Researcher Award

Prof. Dr. Kilhun Lee, University of Seoul, South Korea

Assistant Professor of Architecture at the University of Seoul, Kilhun Lee specializes in urban history and architecture history. She earned her Ph.D. and Master’s degree from the University of Tokyo. Before joining UOS in 2024, she held positions at Duksung Women’s University and the Institute of Seoul Studies. Her research focuses on urban regeneration and the conservation of industrial heritage, with numerous publications on architectural history, including comparisons of urban planning during Japanese colonial rule. Kilhun is a member of several professional associations, including the Architectural Institute of Korea and the Society of Architectural Historians of Japan. 📚🏙️

Publication Profile

Scopus

Research Interests and Contributions

Kilhun Lee is currently an Assistant Professor at the University of Seoul, where she has developed a robust research profile in urban history and architecture. Her doctoral work at the University of Tokyo provided her with a strong foundation in architectural studies, which she has further enriched through various academic appointments. Her research is particularly relevant to the award’s criteria as it addresses themes of urban regeneration and the conservation of industrial heritage, highlighting her commitment to historical and contemporary issues in architecture.

Awards and Recognition

Kilhun Lee’s work has been recognized through various awards and grants, including the Korea Research Foundation’s General Research Program. Her accolades, such as the Simwon Architectural Award for Academic Researchers, signify her impact in the field and her potential as a role model for women researchers in architecture and urban studies.

Educational Impact

Professor Lee is involved in teaching undergraduate courses related to architectural history, contributing to the education of future generations in a male-dominated field. Her role as an educator aligns with the goals of the Research for Women Researcher Award, which seeks to promote women’s contributions to research and academia

Conclusion

Professor Kilhun Lee’s extensive background in architecture, her focus on significant urban issues, her notable publication record, and her commitment to education make her an exemplary candidate for the Research for Women Researcher Award. Her work embodies the values and objectives of the award, aiming to advance the recognition of women researchers and their contributions to the field.

Publication Top Notes

“Building the Governance to Conserve and Utilize Industrial Heritage in East Asia: The Cases of Japan and Taiwan” – Lee, K. (2024) 📅
“A Comparison of Urban Planning in Eastern Asian Capitals during Japanese Colonial Rule: Tokyo, Taipei (1895), Seoul (1910), and Beijing (1936)” – Lee, K., Yang, S. (2023) 📅 Citations: 2
“Planning and Construction of the Post-Liberation Capital City of Seoul (1945–1950): A Focus on Planning and the Removal of Firebreaks” – Taeyoon, K., Kilhun, L. (2022) 📅
“Stream Network of Hanyang, a City of Water” – Lee, K., Yang, S. (2022) 📅
“Urban Planning Seen Through the Process of Establishing Substitute Land in the Edo Period” – Lee, K. (2018) 📅

Jingwei Zhou | Engineering | Best Researcher Award

Posted on 08/10/202408/10/2024 by ScienceFather

Jingwei Zhou | Engineering | Best Researcher Award

Dr Jingwei Zhou, Tsinghua University, China

Dr. Jingwei Zhou’s impressive academic background, research contributions, and professional experience, he appears to be a strong candidate for the Best Researcher Award. Here’s an overview of his qualifications that support this opinion:

Publication profile

Scopus

Education

Postdoctoral Researcher in Mechanical Engineering at Tsinghua University (2021-2024)
Ph.D. in Mechanics from Beijing University of Technology (2015-2020)
Master’s in Mechanical Engineering from Inner Mongolia University of Science & Technology (2009-2012)
Bachelor’s in Mechanical Engineering from Beijing Information Science and Technology University (2005-2009)

Professional Experience

Senior Researcher at Central Research Institute Goldwind Science & Technology Co., Ltd (2020-Present)
Visiting Ph.D. Student at Duke University (2018-2019)
Blade Design Engineer at Goldwind Science & Technology Co., Ltd (2012-2015)

Key Projects

Adaptive Control: Developed a controller for a 6.25 MW wind turbine, significantly enhancing project value by $50 million.
Aero-elasticity: Led the development of software for long slender blade design and validation.
Floating Wind Turbine Control: Involved in modeling and experimental design for floating wind turbines.
Stability Analysis: Worked on mitigating self-excited vibrations in wind turbines.

Honors and Awards

Second Prize for Scientific and Technological Progress from China Machinery Industry Association for his work on bend-twist adaptive control for flexible wind turbine blades, showcasing significant innovation and impact in renewable energy technology.

Publications

Dr. Zhou has multiple publications in respected journals related to wind turbine dynamics, such as:

Bend-twist adaptive control for flexible wind turbine blades in Mechanical Systems and Signal Processing.
Nonlinear vortex-induced vibration and its mitigation of wind turbines in parked conditions in Applied Mathematical Modelling.
Research on modeling and vortex-induced vibrations of semi-submersible floating offshore wind turbines.

Publication top notes

Bend-twist adaptive control for flexible wind turbine blades: Principles and experimental validation

Nonlinear vortex-induced vibration and its mitigation of wind turbines in parked conditions

Modeling and vortex-induced vibrations of semi-submersible floating offshore wind turbines

Dynamic deformation monitoring of cantilever beams using piezoelectric sensors: Theory and experiment

Nonlinear vortex-induced vibration of wind turbine towers: Theory and experimental validation

Aeroelastic deformation and load reduction of bending-torsion coupled wind turbine blades

Investigation on dynamics of rotating wind turbine blade using transferred differential transformation method

Conclusion

Dr. Zhou’s blend of advanced education, extensive research experience in mechanical engineering with a focus on wind energy, notable project outcomes, and recognition in the form of awards and publications make him an excellent candidate for the Best Researcher Award. His work not only advances the field of renewable energy but also demonstrates a strong commitment to innovation and practical application in real-world scenarios.

Guglielmo Vaccaro | Engineering | Best Researcher Award

Posted on 07/10/202407/10/2024 by ScienceFather

Mr. Guglielmo Vaccaro | Engineering | Best Researcher Award

Mr. Guglielmo Vaccaro, Università degli studi di Firenze, Italy

Guglielmo Vaccaro (born June 18, 1997, in Florence) is a dedicated researcher in mechanical and energy engineering. He holds a Bachelor’s in Mechanical Engineering and a Master’s in Energy Engineering from the University of Florence, both achieved with honors. Currently pursuing a Ph.D. in Industrial Engineering, his research focuses on eco-friendly refrigeration systems and CO2-based mixtures. He has presented at multiple international conferences and published in peer-reviewed journals. Guglielmo has also collaborated with CNAM in Paris on chiller systems. He is proficient in several software tools, including Matlab and Python. Fluent in Italian and English. 🇮🇹🔬💡

Publication profile

Google Scholar

Education

Bachelor’s Degree in Mechanical Engineering from the University of Florence, graduated with honors (110/110 cum laude). His thesis focused on optimizing a convergent-divergent nozzle, showcasing his attention to detail in technical design.

Master’s Degree in Energy Engineering (Machines Track) from the University of Florence, also graduated with honors. His thesis was centered on the design of an ejector for recovering lamination losses in a CO2-based plant, which highlights his commitment to sustainable technologies.

Ph.D. in Industrial Engineering, currently ongoing at the University of Florence, focusing on eco-friendly refrigeration systems, particularly on developing refrigeration plants using eco-compatible mixtures, which underlines his dedication to cutting-edge research in environmental sustainability.

Research

Presented research at prominent conferences, such as the International Congress of Refrigeration, covering topics like CO2-based mixtures for refrigeration and ice storage systems.

Published articles in renowned journals, including the International Journal of Refrigeration, where he assessed the thermodynamic performance of trans-critical refrigeration systems utilizing CO2 mixtures. His work extends into sustainable energy communities and low-TEWI refrigerants, indicating his focus on advancing energy-efficient and environmentally safe solutions.

Conclusion

Guglielmo Vaccaro’s combination of academic excellence, innovative research on eco-compatible refrigeration systems, and international collaborations makes him a strong contender for the Best Researcher Award. His focus on environmental sustainability through advanced refrigeration technologies aligns with the goals of pushing the boundaries in energy efficiency and renewable energy systems.

Publication Top Notes

Thermodynamic assessment of trans-critical refrigeration systems utilizing CO2-based mixtures | Cited by: 23 | Year: 2023 🔬❄️
Heat pumps and thermal energy storages centralised management in a Renewable Energy Community | Cited by: 8 | Year: 2023 ♻️🌍
A proposal for a non-flammable, fluorine-free, CO2-based mixture as a low TEWI refrigerant | Cited by: 5 | Year: 2024 💧🔋
Working Fluid Selection for High-Temperature Heat Pumps: A Comprehensive Evaluation | Cited by: 3 | Year: 2024 🔥🔧
Optimal sizing of a distributed energy system with thermal load electrification | Cited by: 2 | Year: 2020 ⚡📏
Propylene and DME solubility in PAG oil: Experimental investigations and simplified modeling | Cited by: 1 | Year: 2024 📊🧪
Experimental investigations and modeling of Propylene and DME solubility in PAG oil | Cited by: 1 | Year: 2023 🔍📈
Numerical assessment of CO2-based mixtures for refrigeration systems: focus on the evaporation process Year: 2023 🌬️💨
Development of a code for the evaluation of air sanitation efficiency of UV-C linear lamps in ventilation systems Year: 2022 💡🌬️
Thermodynamic analysis of a steam ejector chiller with ice storage Year: 2022 ❄️🧊

Sawsan Dagher | Engineering | Best Researcher Award

Posted on 23/09/202423/09/2024 by ScienceFather

Sawsan Dagher | Engineering | Best Researcher Award

Assist Prof Dr Sawsan Dagher, Abu Dhabi Polytechnic, United Arab Emirates

Assist. Prof. Dr. Sawsan Dagher appears to be a strong candidate for the “Best Researcher Award” based on the following factors:

Publication profile

google scholar

Research Experience

Conducted extensive research during her postdoctoral fellowship and as a researcher at UAE University, particularly in materials science and nanotechnology. Expertise in designing and fabricating microfluidic systems, solar cells, and photocatalysts, demonstrating innovation in renewable energy and environmental applications.

Education

Ph.D. in Materials Science & Engineering from UAEU, with a strong academic record and impactful thesis on quantum dot solar cells.

Research Output

She has numerous publications in high-impact journals. Notable works include studies on the synthesis of nanoparticles and photocatalytic removal of pollutants, as well as developing magnetic separation devices for biomedical applications. Her publications have been well-cited, reflecting the relevance and influence of her research within the scientific community.

Awards and Recognition

Dr. Dagher has been recognized with several prestigious awards, such as the Outstanding Research Award from IEEE in 2020 and Best Paper Awards at multiple international conferences, which underscore her research excellence and contributions to her field.

Contribution to Education and Professional Development

In addition to her research, Dr. Dagher has demonstrated a commitment to student development through her teaching and mentoring roles at Abu Dhabi Polytechnic. Her involvement in curriculum development and on-job training coordination showcases her leadership in shaping the next generation of engineers and researchers.

Professional Employment

Assistant Professor at Abu Dhabi Polytechnic since 2018, focusing on electromechanical engineering, teaching, mentoring, and program development. Previously served as On-Job Training Coordinator, fostering student internships and industry partnerships.

Conclusion

Dr. Dagher’s blend of teaching, research, and professional development activities, along with her recognition in the academic community, positions her as a strong candidate for the Best Researcher Award. Her ongoing contributions to innovative engineering solutions and her commitment to student development further underscore her suitability for this honor.