Dr. Atal Bihari Harichandan | Engineering | Editorial Board Member 

Published on by Physicist Particle

Dr. Atal Bihari Harichandan | Engineering | Editorial Board Member 

Associate Professor | Centre for UG and PG Studies, BPUT Rourkela | India

Dr. Atal Bihari Harichandan is a distinguished professional in the field of Engineering, widely recognized for his impactful contributions across multiple Engineering disciplines. With extensive experience and a commitment to advancing modern Engineering innovation, he has established himself as a leading figure in both academic and applied Engineering research. His scholarly pursuits reflect a consistent dedication to the development of advanced Engineering technologies, methodologies, and sustainable solutions that address real-world challenges. Throughout his Engineering career, Dr. Harichandan has actively engaged in interdisciplinary collaborations, bridging the gap between theoretical Engineering principles and industrial applications. His Engineering research has been instrumental in fostering innovation and improving Engineering processes that contribute to technological progress and societal advancement. He has authored numerous Engineering publications that have received significant academic attention and have become valuable references for emerging Engineering scholars and professionals globally. Dr. Harichandan’s Engineering excellence is reflected not only in his scholarly productivity but also in his leadership within collaborative Engineering projects and initiatives aimed at promoting sustainable growth and industrial development. His Engineering insights have contributed to enhanced designs, improved systems, and innovative Engineering frameworks that continue to inspire future research directions. With a strong global presence in the Engineering research community, Dr. Harichandan’s work exemplifies a dedication to knowledge dissemination, innovation, and continuous improvement within the Engineering domain. His commitment to mentoring young Engineering researchers further strengthens the foundation of global Engineering education and research culture. Scopus profile of 386 Citations, 39 Documents, 8 h-index.

Profiles: Scopus | ORCID

Featured Publications

1. Numerical Simulation of Harmonic Gust Induced 2D Low-Re Incompressible Flow Over Tandem Circular Cylinders using ECFRUNS. (2025). Journal of Research and Applications in Mechanical Engineering.

2. Square Cylinder Aerodynamics: Insights from Aeroacoustic Analysis. (2025). Journal of Aeronautics Astronautics and Aviation.

3. Effect of various reactor temperatures for mixed metallic oxides in chemical looping combustion system for carbon capture. (2025). Journal of Thermal Engineering.

Dr. Saranya Indhumathi G | Engineering | Editorial Board Member

Published on by Physicist Particle

Dr. Saranya Indhumathi G | Engineering | Editorial Board Member

Assistant Professor | Rajalakshmi Engineering College | India

Dr. Saranya G is a distinguished researcher whose scholarly contributions in the field of Engineering reflect excellence, innovation, and academic depth. With extensive experience in Engineering research and development, Dr. Saranya has made substantial progress in advancing applied and theoretical aspects of modern Engineering systems. Her work demonstrates a profound understanding of Engineering methodologies, design, and implementation, consistently aligning with global research standards. Through dedication to quality research, Dr. Saranya has contributed to several impactful studies in Engineering, which have inspired both academic and industrial applications. Her research output is marked by a strong focus on interdisciplinary collaboration, bridging various domains of Engineering to achieve innovative and sustainable solutions. Dr. Saranya’s publications in reputed journals highlight her commitment to the continuous evolution of Engineering practices and her passion for advancing knowledge in the global Engineering community. Her professional excellence has strengthened the integration of computational techniques, material innovations, and system optimization within Engineering research frameworks. Dr. Saranya’s collaborations with leading scholars and institutions have further enhanced the visibility and applicability of her Engineering research. She remains actively engaged in advancing experimental and analytical techniques that contribute to the future of Engineering innovation. Her body of work stands as a testament to the transformative potential of research-driven Engineering advancements and their impact on societal progress and technological development. Her scholarly excellence continues to enrich the domain of Engineering, promoting a culture of intellectual rigor and innovation. Google Scholar profile of 167 Citations, 8 h-index, and 7 i10-index.

Profile: Google Scholar

Featured Publications

1. Benazer, S. S., Dawood, M. S., Ramanathan, S. K., & Saranya, G. (2021). Efficient model for IoT based railway crack detection system. Materials Today: Proceedings, 45, 2789–2792.

2. Ambeth Kumar, V. D., Saranya, G., Elangovan, D., & Chiranjeevi, V. R. (2018). IOT-based smart museum using wearable device. International Conference on Innovative Computing and Communications, 27.

3. Saranya, G., Sivamangai, N. M., Ajayan, J., Sreejith, S., & Nithya, S. (2024). Semi-classical physics based model in AlGaN/BGaN based ultraviolet LED with p-AlGaN layer sandwiched around electron-blocking layer for droop-free efficiency. Micro and Nanostructures, 188, 207772.

4. Naveenkumar, R., Sivamangai, N. M., Napolean, A., Puviarasu, A., & Saranya, G. (2022). Preventive measure of SAT attack by integrating anti-SAT on locked circuit for improving hardware security. 2022 7th International Conference on Communication and Electronics Systems (ICCES), 14.

5. Jayanthi, P., Saranya, G., Duraimurugan, J., Sengodan, P., & Ravichandran, S. (2023). Construction of SnO₂/MWCNT nanocomposites as electrode materials for supercapacitor applications. Journal of Sol-Gel Science and Technology, 108(1), 112–119.

Dr. Jagadish | Engineering | Best Researcher Award

Published on by Physicist Particle

Dr. Jagadish | Engineering | Best Researcher Award

Assistant Professor | Indian Statistical Institute, Bengaluru Centre | India

Dr. Jagadish is a distinguished researcher and Assistant Professor at the Indian Statistical Institute, Bangalore Centre, known for his influential contributions in Engineering fields encompassing Industrial Engineering, Production Engineering, and Mechanical Engineering. His academic and research accomplishments reflect a deep commitment to advancing Engineering principles through innovation, optimization, and sustainable development. With a strong foundation in Engineering optimization techniques, Engineering management, and Engineering modeling, Dr. Jagadish has established a reputation for excellence in multidisciplinary Engineering research. He has published 52 documents and accumulated 853 citations, achieving an h-index of 15 on Scopus, underscoring the impact and visibility of his scholarly work. A prolific author, Dr. Jagadish has contributed significantly to high-impact international journals and has authored and co-authored numerous Engineering books and book chapters published by leading academic publishers such as Springer, IGI Global, and Elsevier. His Engineering research spans optimization in green manufacturing, additive manufacturing, sustainable composites, and decision-making methods in production systems. He has also collaborated extensively with academic and industrial partners across multiple Engineering disciplines, bridging theoretical analysis with practical applications. His Engineering consultancy and project leadership demonstrate a strong connection between academic research and industrial implementation, particularly in areas such as quality management, Six Sigma applications, and process optimization. Dr. Jagadish’s leadership in Engineering training programs, conferences, and applied research projects has contributed greatly to capacity building and knowledge transfer in the Engineering community. His research integrates computational methods, experimental design, and sustainable approaches, reflecting the evolving role of Engineering in addressing environmental and industrial challenges. Through his consistent scholarly excellence and dedication to innovation, Dr. Jagadish continues to advance the frontiers of modern Engineering, contributing meaningfully to both academia and society.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Performance Analysis and Optimization of Different Electrode Materials and Dielectric Fluids on Machining of High Carbon High Chromium Steel in Electrical Discharge Machining. (2022). Proceedings of the National Academy of Sciences India Section A: Physical Sciences.

2. Evaluation of Machining Properties of Short Bamboo Fiber-Based Green Composites Using CNC Drilling Process. (Conference Paper).

3. Performance Evaluation of Sand Coated Absorber Based Solar Air Collector. (2021). Journal of Building Engineering.

4. Energy, Exergy, and Environmental (3E) Analyses of Reverse and Cross-Corrugated Trapezoidal Solar Air Collectors: An Experimental Study. (2021). Journal of Building Engineering.

5. A Soft Computing-Based Study on WEDM Optimization in Processing Inconel 625. (2021). Neural Computing and Applications.

Assoc. Prof. Dr. Osama Hussein Galal | Stochastic Fluid Dynamics | Excellence in Research

Published on by Physicist Particle

Assoc. Prof. Dr. Osama Hussein Galal | Stochastic Fluid Dynamics | Excellence in Research

Associated Professor | Fayoum University | Egypt

Assoc. Prof. Dr. Osama Hussein Galal is a distinguished academic specializing in Stochastic Fluid Dynamics, whose professional journey reflects exceptional expertise in Engineering Mathematics and Physics. His academic and research trajectory demonstrates profound engagement with Stochastic Fluid Dynamics in analyzing uncertainty quantification, fractional-order systems, and fluid flow modeling. Over his extensive academic tenure, he has served as an educator, researcher, consultant, and supervisor, contributing significantly to Stochastic Fluid Dynamics applications in non-Newtonian fluid analysis, stochastic differential equations, and advanced computational mechanics. His professional experience extends to engineering consultancy and structural design, where he integrated Stochastic Fluid Dynamics methodologies for enhanced prediction accuracy in complex engineering systems. Assoc. Prof. Dr. Osama Hussein Galal has guided numerous postgraduate dissertations focusing on Stochastic Fluid Dynamics and uncertainty modeling in power systems, beam analysis, and transmission lines. His research interest revolves around integrating Stochastic Fluid Dynamics with machine learning, renewable energy modeling, and fractional calculus applications. Recognized for his scholarly contributions, he has received several awards for excellence in teaching, research supervision, and scientific publications. His research skills encompass analytical modeling, stochastic simulation, and the mathematical treatment of Stochastic Fluid Dynamics in engineering contexts, establishing him as a leading voice in the field. Through his numerous publications in reputed international journals, he has advanced global understanding of Stochastic Fluid Dynamics and its engineering implications. His career exemplifies the fusion of theoretical rigor and practical innovation, positioning him as a prominent figure in modern computational and stochastic analysis. Google Scholar profile of 102 Citations, 6 h-index, 5 i10-index.

Profiles: Google Scholar | ORCID

Featured Publications

1. Hatata, A., Galal, O. H., Said, N., & Ahmed, D. (2021). Prediction of biogas production from anaerobic co-digestion of waste activated sludge and wheat straw using two-dimensional mathematical models and an artificial neural network. Renewable Energy, 178, 226–240.

2. Galal, O. H., El-Tahan, W., El-Tawil, M. A., & Mahmoud, A. A. (2008). Spectral SFEM analysis of structures with stochastic parameters under stochastic excitation. Structural Engineering and Mechanics: An International Journal, 28(3), 281–294.

3. Galal, O. H., El-Tawil, M. A., & Mahmoud, A. A. (2002). Stochastic beam equations under random dynamic loads. International Journal of Solids and Structures, 39(4), 1031–1040.

4. Galal, O. H. (2013). A proposed stochastic finite difference approach based on homogenous chaos expansion. Journal of Applied Mathematics, 2013(1), 950469.

5. El-Beltagy, M. A., Wafa, M. I., & Galal, O. H. (2012). Upwind finite-volume solution of Stochastic Burgers’ equation. Scientific Research Publishing.

Dr. Liping Gong | Mechanical engineering | Best Researcher Award

Published on by Physicist Particle

Dr. Liping Gong | Mechanical engineering | Best Researcher Award

Associate Research Fellow | University of Wollongong | Australia

Dr. Liping Gong is a distinguished researcher in the field of mechanical engineering, demonstrating exceptional expertise in advanced materials, vibration control, and energy harvesting systems. He earned his Doctor of Philosophy in mechanical engineering from the University of Wollongong, Australia, where his work received the Examiners’ Commendation for Outstanding Thesis. His academic foundation in mechanical engineering was strengthened by a Bachelor’s degree in Engineering Mechanics from Chang’an University, China. As a Postdoctoral Research Fellow, he has made significant strides in developing shear-stiffening phononic crystals through stereolithography for vibration and acoustic applications, alongside mentoring students in material characterization and finite element modeling—core skills in mechanical engineering research. His contributions span the design of magnetorheological elastomers, liquid metal-based nanogenerators, and intelligent materials for energy harvesting, reflecting innovation across various mechanical engineering domains. Dr. Gong’s research in mechanical engineering has been published in top-tier journals such as Advanced Materials, Nano Energy, and Smart Materials and Structures. His dedication has been recognized with the Best Oral Presentation Award at international mechanical engineering conferences. His research skills encompass experimental design, data analysis, material fabrication, and computational modeling—crucial aspects of mechanical engineering advancement. With deep involvement in reviewing for international journals, Dr. Gong continues to contribute to global mechanical engineering excellence. His professional journey highlights a commitment to innovation, interdisciplinary collaboration, and scientific impact within mechanical engineering.Google Scholar profile of 301 Citations, 7 h-index, 7 i10-index.

Profile: Google Scholar

Featured Publications

1. Wang, S., Gong, L., Shang, Z., Ding, L., Yin, G., Jiang, W., Gong, X., & Xuan, S. (2018). Novel safeguarding tactile e‐skins for monitoring human motion based on SST/PDMS–AgNW–PET hybrid structures. Advanced Functional Materials, 28(18), 1707538.

2. Zhang, Q., Lu, H., Yun, G., Gong, L., Chen, Z., Jin, S., Du, H., Jiang, Z., & Li, W. (2024). A laminated gravity‐driven liquid metal‐doped hydrogel of unparalleled toughness and conductivity. Advanced Functional Materials, 34(31), 2308113.

3. Wu, H., Gong, N., Yang, J., Gong, L., Li, W., & Sun, S. (2024). Investigation of a semi-active suspension system for high-speed trains based on magnetorheological isolator with negative stiffness characteristics. Mechanical Systems and Signal Processing, 208, 111085.

4. Gong, L., Xuan, T., Wang, S., Du, H., & Li, W. (2023). Liquid metal based triboelectric nanogenerator with excellent electrothermal and safeguarding performance towards intelligent plaster. Nano Energy, 109, 108280.

5. Jin, S., Yang, J., Sun, S., Deng, L., Chen, Z., Gong, L., Du, H., & Li, W. (2023). Magnetorheological elastomer base isolation in civil engineering: a review. Journal of Infrastructure Intelligence and Resilience, 2(2), 100039.

Dr. Temitope Adefarati | Engineering | Best Researcher Award

Published on by Physicist Particle

Dr. Temitope Adefarati | Engineering | Best Researcher Award

Post Doctoral Fellowship | University of Johannesburg | South Africa

Dr. Temitope Adefarati is a distinguished Engineering scholar whose expertise in Electrical and Electronic Engineering has made notable contributions to renewable energy, power systems, and smart grid technology. He holds advanced Engineering degrees from prestigious universities, including a Ph.D. in Electrical Engineering, and has accumulated extensive experience in Engineering education, research, and industry. As an Engineering academic and researcher, he has served as an Associate Professor and Postdoctoral Fellow, contributing to Engineering curriculum development and the supervision of numerous postgraduate Engineering theses. His Engineering research focuses on optimizing renewable energy systems, distributed power generation, and sustainable energy integration. Dr. Adefarati’s Engineering excellence has been recognized through inclusion in the World’s Top 2% Scientists list for consecutive years and through his active role as an editorial board member of leading Engineering journals such as Frontiers in Smart Grids and International Journal of Energy Research. His Engineering research skills encompass power system reliability analysis, grid-connected PV optimization, and hybrid energy system simulation. With a prolific Engineering publication record in top-tier journals like Applied Energy, he has advanced the understanding of energy management and sustainable power systems. Dr. Adefarati’s Engineering commitment extends beyond academia through consultancy and professional affiliations, including COREN and the South African Institute of Electrical Engineers. His Engineering career demonstrates innovation, leadership, and dedication to advancing global energy solutions. Google Scholar profile of 2885 Citations, 31 i10 index, 22 h-index.

Profiles: ORCID | Google Scholar

Featured Publications

1. Adefarati, T., & Bansal, R. C. (2016). Integration of renewable distributed generators into the distribution system: A review. IET Renewable Power Generation, 10(7), 873–884.

2. Adefarati, T., & Bansal, R. C. (2019). Reliability, economic and environmental analysis of a microgrid system in the presence of renewable energy resources. Applied Energy, 236, 1089–1114.

3. Adefarati, T., & Bansal, R. C. (2017). Reliability assessment of distribution system with the integration of renewable distributed generation. Applied Energy, 185, 158–171.

4. Adefarati, T., & Bansal, R. C. (2017). Reliability and economic assessment of a microgrid power system with the integration of renewable energy resources. Applied Energy, 206, 911–933.

5. Adefarati, T., Bansal, R. C., & Just, J. J. (2017). Reliability and economic evaluation of a microgrid power system. Energy Proceedings, 142, 43–48.

Otilia Pitulac | Engineering | Best Researcher Award

Published on by Physicist Particle

Ms. Otilia Pitulac | Engineering | Best Researcher Award

Teaching Assistant | Technical University Gheorghe Asachi Iasi | Romania

Ms. Otilia Pitulac is an emerging scholar in the field of Environmental Engineering, recognized for her growing expertise and dedication to sustainability-driven Engineering innovations. She currently serves as a Teaching Assistant at the “Gheorghe Asachi” Technical University of Iași, where she contributes to academic and research excellence in hydrotechnics, geodesy, and environmental Engineering. Her academic journey includes a PhD in Environmental Engineering, a Master’s in Geomatics and Cartography, and a Bachelor’s in Geography, reflecting a strong foundation in both theoretical and applied Engineering disciplines. Ms. Pitulac’s research interests lie in environmental management, green city development, climate resilience, and sustainable Engineering practices. Her work emphasizes innovative approaches to soil conservation, resource optimization, and urban ecological balance within modern Engineering systems. Throughout her academic and professional experience, she has demonstrated Engineering skills in GIS analysis, project coordination, sustainable soil management, and environmental modeling. Her Engineering achievements are complemented by strong teamwork and communication abilities, essential for collaborative research environments. Ms. Pitulac has been actively engaged in guiding students and supporting Engineering research projects focused on sustainability and urban innovation. She has shown excellence in applying Engineering principles to address real-world environmental challenges, contributing meaningfully to the field’s evolution. Through continuous learning, practical engagement, and technical proficiency, Ms. Otilia Pitulac exemplifies the new generation of researchers shaping the future of sustainable Engineering, demonstrating an unwavering commitment to innovation, academic integrity, and interdisciplinary advancement.

Profile: ORCID

Featured Publication

1. Pitulac, O., Chirilă, C., Stătescu, F., & Marcoie, N. (2025). GIS-based assessment of photovoltaic and green roof potential in Iași, Romania. Applied Sciences, 15(19), 10786.

Prof. Wenlong Song | Engineering | Best Scholar Award

Published on by Physicist Particle

Prof. Wenlong Song | Engineering | Best Scholar Award

Associate Professor | Jining University | China

Prof. Wenlong Song, a distinguished figure in the field of Engineering, has made significant contributions to Mechanical Design, Manufacturing, and Automation. He earned his doctoral degree from Shandong University and serves as an Associate Professor and Graduate Supervisor at the School of Mechanical and Electrical Engineering, Jining University. His Engineering expertise focuses on efficient machining processes and advanced tool technology, where he has played a key role in leading multiple Engineering research initiatives. Prof. Song has successfully hosted several provincial, ministerial, and industrial Engineering projects, which have substantially advanced technological applications in precision machining and automation systems. His Engineering research has resulted in more than fifty academic publications and over forty authorized invention patents, reflecting his strong innovation capabilities and leadership in Engineering development. Recognized for his excellence, he has received multiple municipal and higher-level awards for his Engineering achievements. Prof. Song’s Engineering research skills encompass precision design, material optimization, process modeling, and manufacturing automation. His continued dedication to Engineering education and research demonstrates his commitment to nurturing the next generation of Engineering scholars while expanding the boundaries of modern mechanical systems. Through his extensive Engineering background and innovative approach, Prof. Wenlong Song stands out as a leading expert whose work continues to impact the Engineering community globally. 346 Citations, 33 Documents, 11 h-index.

Profiles: Scopus | Google Scholar

Featured Publications

1. (2025). Analytical and experimental investigation of vibration response for the cracked fluid-filled thin cylindrical shell under transport condition. Applied Mathematical Modelling.

2. (2025). Friction behavior of molybdenum disulfide/polytetrafluoroethylene-coated cemented carbide fabricated with a spray technique in dry friction conditions. Coatings.

3. (2024). Fabrication and tribology properties of PTFE-coated cemented carbide under dry friction conditions. Lubricants.

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

Published on by Physicist Particle

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

Published on by Physicist Particle

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.