Mr. Kalu Ram Sharma | Fluid Dynamics | Best Scholar Award

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Mr. Kalu Ram Sharma | Fluid Dynamics | Best Scholar Award

Research Scholar | University of Rajasthan | India

Mr. Kalu Ram Sharma is a dedicated scholar and educator in mathematics whose expertise strongly aligns with Fluid Dynamics, as reflected in his academic background, teaching experience, and impactful research. With advanced qualifications in mathematics, he has served as a lecturer at multiple institutions, demonstrating excellence in guiding undergraduate and postgraduate students, while his professional journey highlights a deep commitment to education and research. His primary research interests center on mathematical modeling, magnetohydrodynamics, and nonlinear flow problems, with a consistent focus on Fluid Dynamics, where he has published several notable works in reputed international journals and presented at esteemed conferences. Mr. Sharma’s achievements include clearing prestigious national eligibility and fellowship examinations with strong ranks, underscoring his academic caliber, and his awards and honors reflect recognition of his scholarly merit. His research skills extend to numerical analysis, spectral methods, and computational simulations, which have enhanced his ability to contribute significantly to the study of Fluid Dynamics. Throughout his journey, his continuous participation in workshops and conferences has enriched his perspective, while his perseverance and analytical acumen demonstrate his potential as a researcher. The integration of theory and application in his work on Fluid Dynamics highlights his vision to solve complex mathematical and physical challenges. In conclusion, Mr. Kalu Ram Sharma emerges as a highly motivated academic and researcher whose focus on Fluid Dynamics not only defines his career but also positions him as a valuable contributor to advancing knowledge in applied mathematics and related interdisciplinary domains.

Profile: ORCID

Featured Publications

1. Sharma, K. R., & Jain, S. (2025). Activation energy and radiation effects on MHD Walters-B nanofluid flow over a stretching surface: Spectral analysis. Thermal Advances, 100055.

2. Jain, S., & Sharma, K. R. (2025). Numerical analysis of MHD Casson fluid with non-linear mixed and bio-convection over a non-linear vertical stretching sheet, considering multiple slip and suction/injection effects. Thermal Advances, 100034.

3. Sharma, K. R., & Jain, S. (2025). Study of mixed radiative MHD Cross nanofluid flow over a stretching/contracting sheet in porous medium using Arrhenius activation energy, Newtonian heating and Joule Heating. Thermal Advances, 100021.

4. Sharma, K. R., & Jain, S. (2024). An unsteady MHD Williamson fluid flow in a vertical porous channel with porous media and thermal radiation. International Journal of Advances in Engineering Sciences and Applied Mathematics.

5. Sharma, K. R., & Jain, S. (2024). A numerical study of MHD nonlinear mixed convection flow over a nonlinear vertical stretching sheet with the buoyancy and suction/injection effects. Numerical Heat Transfer, Part B: Fundamentals.

Dr. Tanya Gupta | Computational Fluid Dynamics | Women Researcher Award

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Dr. Tanya Gupta | Computational Fluid Dynamics | Women Researcher Award

Assistant Professor | GLA University | India

Dr. Tanya Gupta is an accomplished academic in Mathematics with expertise in Computational Fluid Dynamics, where her research has extensively focused on heat and mass transfer, hybrid nanofluids, and numerical simulation techniques. She holds a Ph.D. in Mathematics from G.B. Pant University of Agriculture and Technology with her thesis centered on Computational Fluid Dynamics applications, following a master’s and bachelor’s degree in Mathematics from Kumaun University. Professionally, she has served as a Teaching Assistant at G.B. Pant University and currently works as an Assistant Professor at GLA University, Mathura, where she actively teaches Engineering Mathematics, Applied Mathematics, Engineering Calculus, Linear Algebra, and Differential Equations, integrating Computational Fluid Dynamics concepts in her academic approach. Her research interests strongly revolve around Computational Fluid Dynamics, supported by publications in reputed SCI journals, book chapters, and participation in international and national conferences. She has secured prestigious achievements such as CSIR NET JRF, GATE qualification, and the INSPIRE Fellowship, highlighting her academic excellence. Dr. Tanya Gupta has demonstrated research skills in advanced mathematical modeling, Legendre wavelet collocation techniques, nanofluid dynamics, and Computational Fluid Dynamics simulations. She is also actively engaged in professional societies, workshops, and international collaborations enhancing Computational Fluid Dynamics studies. Recognized with several honors, she also contributes administratively at GLA University in examination management, departmental branding, and academic advising. In conclusion, Dr. Tanya Gupta is a dedicated researcher and educator whose career is strongly shaped by her contributions in Computational Fluid Dynamics, making her a significant asset to her institution and the broader scientific community, with Computational Fluid Dynamics serving as the core foundation of her academic and professional identity. Her Google Scholar citations 135, h-index 6, i10-index 4, showcasing measurable research impact.

Profile: Google Scholar

Featured Publications

1. Gupta, T., Pandey, A. K., & Kumar, M. (2024). Numerical study for temperature-dependent viscosity based unsteady flow of GP-MoS2/C2H6O2-H2O over a porous stretching sheet. Numerical Heat Transfer, Part A: Applications, 85(7), 1063–1084.

2. Gupta, T., Pandey, A. K., & Kumar, M. (2024). Effect of Thompson and Troian slip on CNT-Fe3O4/kerosene oil hybrid nanofluid flow over an exponential stretching sheet with Reynolds viscosity model. Modern Physics Letters B, 38(02), 2350209.

3. Upreti, H., Pandey, A. K., Gupta, T., & Upadhyay, S. (2023). Exploring the nanoparticle's shape effect on boundary layer flow of hybrid nanofluid over a thin needle with quadratic Boussinesq approximation: Legendre wavelet approach. Journal of Thermal Analysis and Calorimetry, 148(22).

4. Gupta, T., Pandey, A. K., & Kumar, M. (2024). Shape factor and temperature-dependent viscosity analysis for the unsteady flow of magnetic AlO–TiOCHO–HO using Legendre wavelet technique. Pramana, 98(2), 73.

5. Gupta, T., Kumar, M., Yaseen, M., & Rawat, S. K. (2025). Heat transfer of MHD flow of hybrid nanofluid (SWCNT-MWCNT/C3H8O2) over a permeable surface with Cattaneo–Christov model. Numerical Heat Transfer, Part B: Fundamentals, 86(3), 436–451.

Mr. Md Atiqur Rahman | Engineering | Best Researcher Award

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Mr. Md Atiqur Rahman | Engineering | Best Researcher Award

PhD Researcher at University of Bolton, United Kingdom

Mr. Md Atiqur Rahman is a passionate professional in the field of engineering. His focus on engineering drives all his academic, research, and professional contributions. With a strong foundation in engineering principles, his experience in engineering education and engineering research has made a significant impact in multiple engineering institutions. He has delivered engineering lectures, assessed engineering students, and developed engineering modules in higher education. His engineering insight extends to aerospace engineering, mechanical engineering, and structural engineering. Recognized for excellence in engineering teaching, he continues to shape engineering education and inspire future engineers. His commitment to engineering is evident through his engineering publications, engineering awards, and engineering affiliations, all deeply rooted in engineering. His goal is to innovate within engineering.

Professional Profile

ORCID Profile | Google Scholar Profile

Education 

Mr. Md Atiqur Rahman academic background is deeply rooted in engineering. He holds advanced engineering degrees from respected institutions, with specializations in aerospace engineering and mechanical engineering. His engineering education began with undergraduate engineering studies and culminated in doctoral-level engineering research. His academic journey reflects dedication to mastering engineering theories and practical engineering applications. He studied engineering methodology, engineering systems, engineering design, and engineering analysis throughout his programs. These engineering-focused studies prepared him to teach, research, and develop within various branches of engineering. His engineering thesis involved deep engineering experimentation and engineering analysis. He continues to contribute to engineering academia through research grounded in engineering fundamentals. His educational background makes him a leader in the engineering discipline.

Experience 

Mr. Md Atiqur Rahmanhas worked extensively in the engineering education sector. His professional experience spans engineering teaching, engineering curriculum development, engineering assessment, and engineering verification. He has held several engineering lecturer positions across renowned engineering colleges and universities. His roles involved delivering engineering content, managing engineering modules, and ensuring compliance with engineering education standards. In every institution, his engineering expertise influenced both the engineering faculty and engineering students. He conducted engineering workshops, developed engineering resources, and led engineering training. Through engineering-focused teaching, he enhanced student understanding of core engineering concepts. His engineering experience extends beyond teaching to include engineering quality assurance and engineering academic leadership. Engineering is central to all his career achievements.

Research Interest 

His research interest lies at the intersection of sustainable engineering and material science within the field of engineering. He is passionate about advancing engineering innovation through bio-composite materials, particularly for aerospace engineering and automotive engineering applications. He investigates fiber-based solutions to improve engineering strength, thermal resistance, and dynamic performance. His engineering focus also includes structural engineering, aerodynamics, and mechanical engineering systems. Through experimentation and simulation, he aims to solve modern engineering challenges using environmentally responsible engineering techniques. He integrates traditional engineering principles with emerging engineering technologies. His research promotes eco-efficient engineering, supporting the future of engineering design. Each project contributes to solving complex engineering issues through dedicated engineering-based inquiry and engineering methodology.

Award and Honor

Mr. Md Atiqur Rahman has been recognized multiple times for his excellence in engineering. His dedication to engineering teaching and engineering research has earned him engineering awards and engineering honors. He was celebrated for advancing engineering knowledge and promoting engineering education among diverse student groups. One of his students received a national engineering learner award under his mentorship, showcasing his engineering impact. He was honored as best engineering lecturer, reinforcing his reputation in the engineering academic community. His role in engineering assessment and engineering quality assurance contributed to institutional engineering excellence. These accolades reflect his deep commitment to engineering growth and development. Engineering institutions continue to benefit from his award-winning contributions to engineering education and engineering innovation.

Research Skill

Mr. Md Atiqur Rahman has developed robust research skills in engineering through extensive engineering-based projects and engineering publication efforts. His engineering research focuses on experimental engineering, materials engineering, and aerospace engineering. He conducts mechanical testing, thermal analysis, and dynamic engineering evaluations. His engineering research includes the use of modern engineering tools and simulation software, enhancing precision in engineering experiments. He is skilled in data interpretation and engineering results analysis, supporting conclusions based on engineering theories. His engineering methodology is systematic, replicable, and grounded in engineering logic. He prepares engineering manuscripts, conference papers, and engineering journal submissions with a research-driven engineering approach. His engineering research skills contribute to advancements across multiple engineering domains.

Publication Top Notes 

  • Title: Palmyra Palm Shell (Borassus flabellifer) Properties Part 1: Insights Into Its Physical and Chemical Properties
    Authors: MA Rahman, M Ndiaye, B Weclawski
    Journal: Engineering Reports

  • Title: Palmyra Palm Shell (Borassus flabellifer) Properties Part 2: Insights Into Its Thermal and Mechanical Properties
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Journal: Engineering Reports

  • Title: Palmyra Palm Shell (Borassus flabellifer) Properties Part 3: Insights Into Its Morphological, Chemical, and Thermal Properties After Alkali Treatment
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Journal: Engineering Reports

  • Title: Dynamic Mechanical Analysis of Borassus Husk Fiber Reinforced Epoxy: Evaluating Suitability for Advanced Aerospace and Automotive Applications
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Journal: Engineering Reports

  • Title: Optimizing Borassus Husk Fibre/Epoxy Composites: A Study on Physical, Thermal, Flexural and Dynamic Mechanical Performance
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Journal: Engineering Reports

  • Title: Alkali‐Treated Borassus Husk Fiber Reinforced High‐Heat Resistant Epoxy: Insights into Their Thermal, Dynamic Mechanical, and Outgassing Properties
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Journal: Engineering Reports

  • Title: Enhancing Thermal and Dynamic Mechanical Properties of Alkali-Treated Borassus Husk Fibre Reinforced High-Heat Resistant Epoxy Composites
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Journal: Journal of Natural Fibers

  • Title: Next-Generation Bio-Composites: Alkali-Treated Borassus Husk Fiber for Structural and Thermal Efficiency
    Authors: MA Rahman, M Ndiaye, B Weclawski, P Farrell
    Journal: Journal of Natural Fibers

Conclusion

Mr. Md Atiqur Rahman exemplifies the values of engineering through his consistent contributions to engineering education, engineering research, and engineering practice. His commitment to engineering excellence and engineering development continues to influence engineering students, engineering faculty, and engineering professionals. From teaching engineering modules to publishing cutting-edge engineering research, he remains dedicated to advancing the engineering discipline. He uses engineering tools, engineering theory, and engineering creativity to solve real-world engineering problems. His vision for engineering includes sustainable engineering innovation and cross-disciplinary engineering collaboration. Engineering remains central to his identity and career goals. Through continuous engineering exploration, he aspires to elevate engineering knowledge and broaden the impact of engineering for the benefit of society.

Assoc Prof Dr. Feng Liu | Complex Flow Mechanics | Best Researcher Award

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Assoc Prof Dr. Feng Liu | Complex Flow Mechanics | Best Researcher Award

Assoc Prof Dr. Feng Liu, Xi’an Shiyou University, China

Dr. Feng Liu is an esteemed Associate Professor at Xi’an Shiyou University, specializing in oil and gas reservoir engineering. His expertise includes fluid phase behavior, complex flow mechanics, and numerical simulation of reservoirs. With a robust publication record and several patents to his name, Dr. Liu has made significant contributions to the field, earning recognition for his innovative research and technical advancements.

PROFILE

Scopus

Education

Dr. Feng Liu completed his education at Xi’an Shiyou University, specializing in oil and gas reservoir engineering. He has received advanced training in fluid phase behavior, complex flow mechanics, and numerical simulation of oil and gas reservoirs.

Professional Experience

Dr. Liu is an Associate Professor at Xi’an Shiyou University, where he focuses on the application of advanced numerical methods and simulation techniques to improve the understanding and management of oil and gas reservoirs. His career includes significant contributions to both academic research and practical applications in the field of petroleum engineering.

Research Interest

Dr. Liu’s research interests encompass oil and gas reservoir engineering, fluid phase behavior, complex flow mechanics, and the numerical simulation of oil and gas reservoirs. His work aims to enhance the efficiency and effectiveness of reservoir management through innovative modeling and simulation techniques.

Main Academic Achievements

Dr. Liu has published 20 papers as the first author in prominent domestic and international journals, including Journal of Molecular Liquids, Energy & Fuels, Journal of Petroleum Science and Engineering, Energies, Acta Petrolea, Journal of Southwest Petroleum University, and Daqing Petroleum Geology and Development. Among these, 12 papers are indexed in SCI and 2 in EI. He holds 4 national invention patents and 7 software copyrights. Dr. Liu is also the author of a textbook on reservoir numerical simulation. His innovative research has earned him 1 first prize and 2 second prizes for excellent scientific and technological research achievements in higher education institutions in Shaanxi Province.

 

NOTABLE PUBLICATIONS

Microscopic mechanism of enhancing shale oil recovery through CO2 flooding- insights from molecular dynamics simulations

Solubility of H2S-CH4 mixtures in calcium chloride solution: Insight from molecular dynamics simulations

Interfacial dilatational rheology and displacement mechanism of nano-flooding system