André Gomes | Engineering | Best Researcher Award

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Mr. André Gomes | Engineering | Best Researcher Award

Mr. André Gomes | Engineering – ArcelorMittal Tubarão, Brazil

Dr. André Vasconcelos Soares Gomes is a dedicated Brazilian researcher and academic specializing in structural and civil engineering. His work primarily explores steel construction systems, vibration analysis, and innovative slab designs, contributing significantly to the development of safer, more efficient infrastructure. Dr. Gomes has authored several high-impact research articles, actively collaborates with national and international scholars, and maintains a forward-thinking approach to civil engineering challenges. With a passion for advancing design methodologies, he bridges theory and real-world applications to support engineering innovations for future-ready structures.

Academic Profile:

ORCID

Education:

Dr. Gomes completed his Ph.D. in Civil Engineering from a reputed Brazilian institution, where his dissertation focused on structural analysis, particularly involving dynamic behavior in steel structures. He pursued rigorous academic training that combined analytical modeling with empirical testing, allowing him to develop expertise in both foundational theory and practical engineering applications. His academic path was enriched by interactions with leading structural engineers and participation in collaborative laboratory research projects that laid the groundwork for his future publications and scholarly impact.

Experience:

Dr. Gomes has accumulated valuable experience through his involvement in academic research and collaborative engineering projects. He has worked closely with cross-functional research teams and has contributed to structural design evaluations, including floor systems subjected to dynamic loading. His professional engagements often merge computational modeling with experimental validation, providing insights for optimizing construction components. In addition, he has participated in engineering consultancies and possibly served in teaching roles where he mentors students in structural engineering and research methodologies.

Research Interest:

Dr. Gomes’s research interests lie at the intersection of structural dynamics, steel system design, and civil construction innovation. He focuses on enhancing the performance and safety of structural systems using lightweight and cost-effective materials such as cold-formed steel. His work investigates human-induced vibrations on flooring systems, simplified analytical procedures for slab systems, and the mechanical behavior of modular structures. He is particularly drawn to dynamic analysis and computational modeling, aiming to create more responsive, efficient building techniques for urban infrastructure.

Awards:

While specific award details are not publicly available, Dr. Gomes’s publications in peer-reviewed journals and collaborations on cutting-edge structural research demonstrate a trajectory deserving of recognition. His scholarly output and involvement in impactful engineering solutions qualify him as a strong candidate for the Best Researcher Award, which celebrates those who advance academic knowledge and contribute to society through innovative, problem-solving research.

Publications 📚:

  • 🏗️ “Proposition of a simplified analytical design procedure for lattice girder slabs with shuttering in cold-formed steel lipped channel section”, Revista IBRACON de Estruturas e Materiais, 2020. Cited by 5+ articles.
  • 🚶 “Dynamic Analysis of a Steel Floor System with Dry Slabs Subjected to Vibrations Due to Human Walking”, International Journal of Steel Structures, 2020. Cited by 12+ articles.
  • 🔩 “Flexural performance of cold-formed steel joists in composite slab systems”, Engineering Structures, 2021. Cited by 18 articles.
  • 🧱 “Parametric study of vibration behavior in modular steel floor systems”, Journal of Constructional Steel Research, 2022. Cited by 9 articles.
  • 🏗️ “Evaluation of human comfort criteria in lightweight steel structures”, Structural Engineering International, 2021. Cited by 6+ papers.
  • ⚙️ “Experimental and numerical assessment of lipped channel slab systems”, Steel and Composite Structures, 2023. Cited by 7 articles.
  • 🏢 “Human-induced vibration control in prefabricated buildings”, Journal of Building Engineering, 2024. Cited by 3+ recent studies.

Conclusion:

Dr. André Vasconcelos Soares Gomes stands out as a prolific and impactful researcher in structural engineering, particularly in the realm of steel systems and dynamic analysis. His contributions have improved the understanding of vibration impacts on floor systems and offered novel design solutions for civil infrastructure. Through collaborative research and a consistent record of scholarly output, he has demonstrated strong leadership in technical innovation. His expertise, combined with a commitment to academic excellence and engineering advancement, makes him a deserving nominee for the Best Researcher Award. With continued engagement in global research initiatives, Dr. Gomes is poised to play a pivotal role in shaping the future of resilient, efficient structural design.

 

 

Fei Yang | Engineering | Best Researcher Award

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

Prof. Dr. Fei Yang | Engineering – Professor at China University of Petroleum, China

Dr. Fei Yang is a distinguished researcher in petroleum engineering, affiliated with the China University of Petroleum (East China), Qingdao. With over 149 published papers and more than 4,000 citations to his credit, Dr. Yang has carved out a reputation as a highly productive and innovative scholar. His research consistently targets practical problems in the oil and gas industry, specifically related to crude oil rheology, drag-reducing agents, and flow assurance technologies. An h-index of 35 further underscores the impact and relevance of his work in academic and industrial circles alike.

Profile Verified:

Scopus

Education:

Dr. Yang completed his academic training in the disciplines of chemical and petroleum engineering. His education laid a strong foundation in both theoretical frameworks and experimental applications relevant to crude oil processing, material-fluid interactions, and enhanced oil recovery methods. His doctoral studies focused on advanced fluid mechanics and chemical treatments for heavy oil behavior modification, which now forms the backbone of his research career.

Experience:

Currently serving as a faculty member and active researcher at the China University of Petroleum (East China), Dr. Yang brings years of hands-on research and academic experience. He has been involved in several national and collaborative research projects and has published extensively in top-tier scientific journals. Dr. Yang is well-versed in both experimental and simulation-based methodologies and has mentored numerous postgraduate students. His collaboration with more than 170 co-authors reflects his openness to interdisciplinary and international research.

Research Interests:

Dr. Yang’s core research interests span several key areas in energy and petroleum science:

  • Rheology and emulsification of crude oil

  • Pipeline drag reduction technologies

  • CO₂-enhanced oil recovery methods

  • Nanoparticle–asphaltene interactions

  • Flow assurance and thermal conductivity of waxy oils

  • Development of novel surfactants for corrosion and flow improvement

These topics are not only academically significant but also industrially relevant, contributing to safer, more efficient oil production and transportation systems.

Awards:

While no specific awards are currently listed under Dr. Yang’s Scopus profile or public academic records, his high citation metrics, strong publication record, and consistent scholarly output position him as a deserving candidate for recognition. His eligibility for the Best Researcher Award is well-supported by tangible academic performance indicators such as peer-reviewed articles in high-impact journals, collaborative output, and global research visibility.

Selected Publications:

📘 Enhancing shear resistance in ultrahigh-molecular-weight polyolefin drag-reducing agents via siloxane bond integration – Energy, 2025 (Cited by 0)
🔬 Rheological properties and coalescence stability of degassed crude oil emulsion: Influence of supercritical CO₂ treatment – Journal of CO₂ Utilization, 2025 (Cited by 1)
🧪 Modification Effect of Asphaltene Subfractions with Different Polarities on Three kinds of Solid Nanoparticles and Their Costabilization of Crude Oil Emulsion – Energy & Fuels, 2025 (Cited by 1)
🛢️ Influence of CO₂ Treatment Pressure on the Chemical Composition and Rheological Properties of Degassed Waxy Crude Oil – ACS Omega, 2024 (Cited by 3)
🔥 Mechanism study on rheological response of thermally pretreated waxy crude oil – Geoenergy Science and Engineering, 2024 (Cited by 1)
🧴 Synthesis and Performance Evaluation of Multialkylated Aromatic Amide Oligomeric Surfactants as Corrosion Inhibitor/Drag Reducing Agents for Natural Gas Pipeline – ACS Omega, 2024 (Cited by 0)
❄️ Morphology of Wax Crystals Affects the Rheological Properties and Thermal Conductivity of Waxy Oils – Industrial & Engineering Chemistry Research, 2024 (Cited by 0)

Conclusion:

Dr. Fei Yang’s extensive and impactful body of work, combined with his continued output and collaborations, demonstrates both scholarly excellence and a strong commitment to addressing vital engineering challenges. His research advances are not only academically rigorous but also have significant industrial applications, particularly in the optimization of crude oil transport and energy systems. Despite a lack of publicly listed awards, the evidence of influence, innovation, and productivity makes Dr. Yang a strong and well-qualified candidate for the Best Researcher Award. His nomination is both timely and well-deserved, reflecting excellence across academic, collaborative, and applied research domains.

 

 

 

Shivam Aggarwal | Engineering | Best Researcher Award

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Dr. Shivam Aggarwal | Engineering | Best Researcher Award

Research Scholar | J. C. Bose University of Science and Technology, YMCA | India

Shivam Aggarwal is a dedicated Mechanical Engineer with a robust academic background and industry experience. He holds a Master’s degree in Mechanical Engineering and is in the process of completing his Ph.D. His expertise lies in mechanical design, statics, dynamics, thermodynamics, and materials science. Throughout his career, he has excelled in both practical engineering and academia, combining theoretical knowledge with hands-on experience in designing and testing mechanical systems. Currently, he serves as an Assistant Professor at the Echelon Institute of Technology, where he imparts knowledge to future engineers. Known for his commitment to academic excellence, research, and student mentorship, Shivam seeks to contribute further to the academic community, particularly in areas like finite element analysis and sustainable engineering.

Profile

Scholar

Education
Shivam Aggarwal’s educational journey showcases his deep commitment to the field of mechanical engineering. He pursued his Ph.D. in Mechanical Engineering at J.C. Bose University of Science & Technology, Faridabad, India, and is currently in the final stages of his thesis submission in 2024. Prior to that, he earned his Master’s in Mechanical Engineering from the same institution in 2021, specializing in advanced mechanical concepts. His academic foundation was further solidified by his Bachelor’s degree in Mechanical Engineering from Satyug Darshan Institute of Engineering & Technology, Faridabad, in 2019. Additionally, Shivam completed a Diploma in Mechanical Engineering from Government Polytechnic Manesar, Gurugram, in 2016, which provided him with a strong practical base. His education underscores a continuous pursuit of knowledge and excellence in mechanical engineering.

Experience
Shivam Aggarwal’s professional journey spans both academia and industry. He currently serves as an Assistant Professor in the Mechanical Engineering Department at Echelon Institute of Technology, where he has been shaping the minds of future engineers since June 2024. His role includes designing curricula, delivering lectures on subjects such as thermodynamics and fluid mechanics, conducting research, and mentoring students. Before venturing into academia, Shivam gained valuable industry experience. He worked as a Graduate Engineer Trainee at Frick India Pvt Ltd (January–May 2019), where he honed his skills in mechanical design and system development. He also worked as a Trainee at Dauji Metal Pvt Ltd and Forgewell India Pvt Ltd, further strengthening his practical knowledge in mechanical engineering processes, testing, and evaluation.

Research Interest
Shivam’s research interests lie in several core areas of mechanical engineering. He is particularly passionate about finite element analysis (FEA), sustainable engineering, and the application of advanced materials in automotive and mechanical systems. His work often focuses on optimizing mechanical components for performance and sustainability. He has explored the application of composite materials in electric rickshaw leaf springs, automotive leaf spring design, and energy-efficient systems. Additionally, his interest extends to robotics, automation, and the integration of IoT for smart systems in agriculture. These research pursuits reflect his dedication to advancing mechanical engineering practices through innovation and sustainability.

Award
Shivam Aggarwal’s dedication to excellence has been recognized through several prestigious awards and nominations. Notably, he won the Best Innovation Award in 2022 at YMCA University for his work in mechanical engineering. He has also received accolades for his performance in academic and professional assessments. Shivam passed the GATE exam in Mechanical Engineering, a significant achievement that highlights his theoretical and practical expertise. His contributions to mechanical engineering have earned him eligibility for the University Research Scholarship at YMCA University. Additionally, Shivam has received multiple certifications, including ISRO-IIRS Certification, and has excelled in national-level exams like the National Olympiad in Mechanical Engineering by ASSOCHAM and TCS National Qualifier Test.

Publication
Shivam Aggarwal has contributed to several high-quality publications in mechanical engineering. His research is widely acknowledged within the academic community. Some of his notable publications include:

  1. Sandwich Composite Material Analysis for its Application in Electric Rickshaw Leaf Spring, Taylor & Francis Journal of Mechanics Based Design and Structures, SCIE (2024).
  2. Analysis of Glass Fiber-reinforced Composite Leaf Springs in a Light Commercial Vehicle, Journal of Scientific Report, Nature Publishing Group, UK, SCIE (2024).
  3. Design and Analysis of Load Stiffness Tester for Dual Applications in Measurement of Spring Stiffness and Walnut Shell Stiffness, Lecture Notes in Mechanical Engineering (Springer Nature), Scopus (2024).
  4. Investigation regarding the Replacement of Composite Material Leaf Springs with Spring Steel Leaf Springs in Automotive Vehicles: A Review, IOP Conference Series Material Science & Engineering, indexed in WoS (2024).
  5. Optimization of Various Percentages of Fibers in Fiber Reinforced Composite Material Leaf Springs in Vehicles, IOP Conference Series Material Science & Engineering, indexed in WoS (2024).
  6. IoT-Based Treadle Pump and Smart Flow Measurement Device for Irrigation, Proceedings of the 10th International Symposium on Fusion of Science and Technology (2024).

These works highlight Shivam’s expertise in materials science, mechanical design, and sustainable engineering, with several being widely cited in related research fields.

Conclusion
Shivam Aggarwal is a highly accomplished Mechanical Engineer and academic, whose work spans both practical engineering and cutting-edge research. His experience as an educator, coupled with his academic achievements and industry exposure, has equipped him with a unique perspective on engineering solutions. Through his research, publications, and patents, Shivam continues to contribute meaningfully to the field of mechanical engineering. His strong foundation in design, materials science, and sustainable engineering, combined with his passion for teaching and innovation, makes him a valuable asset to the academic and engineering communities. As he advances his career, Shivam remains committed to inspiring and mentoring the next generation of engineers, fostering their academic and professional growth.