Nanofluid Applications in Thermal Engineering: Advanced Numerical Investigations (Emerging Technologies and Materials in Thermal Engineering) - Softcover

Über die Autorin bzw. den Autor

Dr. Sabyasachi Mondal is an Associate Professor in the Department of Mathematics at North-Eastern Hill University, Shillong, Meghalaya, India. He has obtained his B.Sc. (H) in Mathematics, M.Sc. in Applied Mathematics, and Ph.D. in Computational Fluid Dynamics from Visva-Bharati Santiniketan, West Bengal, India. He was the ‘Postdoctoral Research Fellow’ in the University of KwaZulu-Natal, South Africa.

His areas of research interest include Computational Fluid Dynamics, Heat and Mass Transport, Nanofluid flow, etc. Along with his 12 years of teaching experience, he has more than 90 international publications in different reputed journals, books, and conferences to his credit. Also, Dr. Mondal published one Indian patent. Dr. Mondal delivered invited talk in other Universities and colleges. He is an editorial board member in different international journals and a reviewer of various reputed journals in Elsevier, Springer, Wiley, Taylor & Francis, etc. His research has led to him being selected on the ‘Top 2% Most Influential Scientists List’ published by ‘Standford University and SCOPUS for the year 2022-2023.

Dr. Mondal has received various prestigious funds and fellowships like UKZN PDF fellowship, Claude Leone Postdoctoral fellowship, NRF travel grants, etc. Dr. Mondal has research collaborations with various eminent scientists in India and abroad, like South Africa, Botswana, Malaysia, Iran, etc.

Von der hinteren Coverseite

In this groundbreaking book, Advancements in Numerical Investigations and Applications of Nanofluids in Thermal Engineering, readers will delve into the forefront of scientific research, exploring advanced numerical techniques for modeling nanofluids in thermal engineering. Featuring cutting-edge computational simulations, this book offers invaluable insights into optimizing heat transfer processes using hybrid and ternary nanofluids. From thermophysical and rheological analyses to exploring the thermal performance of magnetic power-law hybrid nanofluids, the contents of this book provide a comprehensive overview of the latest developments in the field. The detailed contents span a wide range of topics, including advanced numerical modeling of hybrid and ternary nanofluids, the effects of internal heat generation and chemical reactions in porous media, and the magneto thermal aspects of ternary composite nanomaterials. With a focus on real-life applications, such as Darcy-Forchheimer flow with Marangoni convection and thermal control for Casson hybrid nanofluid flow, this book equips readers with the knowledge needed to navigate complex nanofluid models in thermal engineering systems effectively. For thermal engineers and nanofluids researchers seeking to enhance their understanding and practical applications, this book is a vital resource. By addressing daily challenges faced in research, such as selecting appropriate numerical methods and bridging the gap between mathematical models and real-world problems, this book serves as a guide for navigating complex nanofluid applications. With a focus on newly developed numerical methods, an outlook on nanofluid properties, and insights into thermal engineering applications, this book empowers researchers and engineers to optimize nanofluid formulations and leverage nanofluids in diverse thermal engineering contexts for enhanced heat transfer efficiency.