Bhagyashri Patgiri – Fluid Mechanics­­­­­­­­ – Best Researcher Award

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Ms. Bhagyashri Patgiri - Fluid Mechanics­­­­­­­­ - Best Researcher Award 

Cotton University - India 

Author Profile

Scopus

Orcid

🎓 Early Academic Pursuits

Ms. Bhagyashri Patgiri began her academic journey with a strong foundation in mathematics, eventually earning her M.Sc. from the National Institute of Technology, Meghalaya, in 2019. Her academic rigor and commitment to excellence established the groundwork for her advanced studies, leading her to the Department of Mathematics at Cotton University, where she now pursues her research as a dedicated scholar.

💼 Professional Endeavors

Currently a Research Scholar at Cotton University, Ms. Patgiri has focused her professional endeavors on Computational Fluid Dynamics, an area where she has made significant advancements. Her work, particularly in computational heat and mass transfer involving nanofluids, reflects her dedication to solving complex problems in fluid mechanics. Through these efforts, she has become a recognized contributor to international research, collaborating with scholars and engaging in projects that push the boundaries of this field.

🔬 Contributions and Research Focus

Ms. Patgiri’s primary research focus is on computational heat and mass transfer, particularly within the scope of advanced nanofluids. Her contributions include several publications in highly respected international journals, such as Materials Today Communication, Numerical Heat Transfer Part A: Application, and Journal of Taibah University for Science. Her work advances the understanding of fluid mechanics and computational modeling, especially in the context of nanofluid applications. Additionally, her experience as a reviewer for prominent journals, including Numerical Heat Transfer Part B: Fundamentals and Journal of Thermal Engineering, highlights her expertise and influence in the academic community.

🌍 Impact and Influence

Ms. Patgiri’s influence within the field of fluid mechanics is reflected in her published research, which is widely recognized and frequently cited by peers. Her findings on computational heat and mass transfer have implications for both academic and practical applications, particularly in engineering, energy management, and environmental sciences. Her role as a reviewer for numerous international journals further solidifies her status as a respected figure within the research community, where she contributes to maintaining the quality and advancement of research in computational fluid dynamics.

🏆Academic Cites

The impact of Ms. Patgiri’s research is evidenced by her extensive list of citations across international journals. Her publications are frequently referenced in studies on computational fluid dynamics and fluid mechanics, underlining her contributions to this evolving field. Her work serves as a resource for researchers seeking advanced insights into computational techniques and nanofluid applications.

🌟 Legacy and Future Contributions

As she continues her research, Ms. Bhagyashri Patgiri is expected to make further advancements in computational heat and mass transfer, particularly with evolving nanofluid technologies. Her future contributions are likely to drive new applications in fluid mechanics, shaping the way complex fluid systems are modeled and understood. Her legacy will include her groundbreaking work in fluid mechanics, her commitment to academic excellence, and her mentorship of upcoming researchers.

📝Fluid Mechanics

Ms. Patgiri’s research in fluid mechanics has established her as a key contributor to computational modeling techniques, particularly with her work on fluid mechanics applications in heat and mass transfer involving nanofluids. Her future in fluid mechanics holds promise for pioneering insights and technological advancements, continuing to impact both academia and industry.

Notable Publication

📝Computational study of Jeffrey Hybrid nanofluid flow over a non-uniformly heated permeable exponentially stretching surface with Arrhenius activation energy and inclined magnetic field

Authors: N. Sarma, A. Paul, B. Patgiri

Journal: Hybrid Advances

Year: 2024

Citations: 5

📝Numerical assessment of viscoelastic tetra hybrid nanofluid flow across a stretchable rotatory disk under the Soret and Dufour aspects

Authors: B. Patgiri, A. Paul, N. Sarma

Journal: Multidiscipline Modeling in Materials and Structures

Year: 2024

Citations: 1

📝Transformer oil-based Casson ternary hybrid nanofluid flow configured by a porous rotating disk with hall current

Authors: A. Paul, B. Patgiri, N. Sarma

Journal: ZAMM Zeitschrift für Angewandte Mathematik und Mechanik

Year: 2024

Citations: 8

📝A numerical investigation of the polyethylene glycol-based tetra hybrid nanofluid flow over a stretched porous rotatory disk

Authors: B. Patgiri, A. Paul

Journal: ZAMM Zeitschrift für Angewandte Mathematik und Mechanik

Year: 2024

Citations: 0

📝Flow and thermal characteristics of diathermic oil-based tri-hybrid nanofluid

Authors: B. Patgiri, A. Paul

Book: Nanofluids Technology for Thermal Sciences and Engineering Research, Development, and Applications

Year: 2024

Citations: 0

Artem Khalatov | Vortex flows | Outstanding Scientist Award

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Prof Dr. Artem Khalatov | Vortex flows | Outstanding Scientist Award 

Institute of Engineering Thermophysics of NAS of Ukraine | Ukraine

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Prof. Dr. Artem Khalatov began his academic journey at the Aviation Institute (Technical University) in Kazan, Russia, where he earned a Master of Science degree in 1967. Specializing in Aeroengines, he developed a deep understanding of aerothermodynamics, a field that became the cornerstone of his illustrious career. He continued his education in the PhD program at the same institution, focusing on heat transfer and hydrodynamics in supersonic nozzles. This academic foundation laid the groundwork for his future contributions to the fields of vortex flows, heat transfer, and aerothermal technologies.

PROFESSIONAL ENDEAVORS

Dr. Khalatov's professional journey is marked by a series of prestigious positions and titles. After completing his PhD, he served as an Assistant Professor, Senior Lecturer, and Associate Professor at the Aviation Institute in Kazan. His career advanced rapidly, and by 1979, he had become a Full Professor at the Kiev Institute of Air Forces in Ukraine. He later became the Head of the Department of Thermogasdynamics at the Institute of Engineering Thermophysics, National Academy of Sciences of Ukraine, where he has served since 1983. His work in this role has been instrumental in advancing the understanding of vortex flows and heat transfer management in aeroengines.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Khalatov's research has had a profound impact on the field of aerodynamics and thermodynamics, particularly in the area of vortex flows. His work has focused on fundamental heat transfer, new thermodynamic cycles, and innovative gas turbine blade cooling techniques. He has also pioneered research in swirling and vortex flows, which has led to the development of new aerothermal vortex technologies. These contributions have been documented in an extensive publication record, including 31 books, around 800 papers, and over 130 patents, solidifying his reputation as a leading expert in his field.

IMPACT AND INFLUENCE

Dr. Khalatov's influence extends beyond his research, impacting both the academic and industrial communities. His work has been recognized with numerous awards, including the State Award of Ukraine in the field of gas turbine engineering and the Yu. Gagarin Medal from the Russian Aerospace Agency. As an Honorary Professor at Cardiff University and a W.W. Clyde Chair Visiting Professor at the University of Utah, he has shared his expertise with a global audience, furthering the development of vortex flows and heat transfer technologies. His role as a supervisor of 40 completed PhD theses underscores his commitment to educating the next generation of engineers.

ACADEMIC CITATIONS

Dr. Khalatov's extensive publication record, which includes contributions to both Russian and English-language journals, has been widely cited in the academic community. His work on vortex flows, heat transfer augmentation, and gas turbine cooling technologies is particularly noted for its innovation and practical applications. His research has been instrumental in advancing the understanding of complex thermodynamic processes, and his work continues to be a valuable resource for researchers and engineers alike.

LEGACY AND FUTURE CONTRIBUTIONS

As Dr. Khalatov continues his distinguished career, his legacy in the field of aerothermodynamics and vortex flows is firmly established. His ongoing research and collaboration with international institutions, such as the Chinese-Ukrainian joint laboratory and consulting work with Huawei, demonstrate his commitment to pushing the boundaries of engineering science. His future contributions are expected to further enhance the efficiency and effectiveness of aeroengine technologies, leaving a lasting impact on both the academic and industrial sectors.

VORTEX FLOWS 

Throughout his career, Dr. Khalatov has maintained a strong focus on vortex flows, particularly in the context of heat transfer management and gas turbine cooling technologies. His research on swirling flows, vortex flows in aerothermal technologies, and vortex heat exchangers has been instrumental in developing new approaches to managing thermal dynamics in aerospace engineering. These innovations continue to influence the field, ensuring that Dr. Khalatov's work remains at the forefront of engineering research and development.

NOTABLE PUBLICATION