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Non-Newtonian Fluids for Industrial Applications: Modeling and Simulations
Author(s): Dhananjay Yadav (Editor), Mukesh Kumar Awasthi (Editor), Harith Mohamed Al-Azri (Editor)
- Publisher: Wiley-Scrivener
- Publication Date: May 4, 2026
- Edition: 1st
- Language: English
- Print length: 432 pages
- ISBN-10: 1394356226
- ISBN-13: 9781394356225
Book Description
Gain a decisive competitive edge in the global push for sustainability by mastering the mathematical modeling and computational simulation of non-Newtonian fluids. This book bridges complex rheological theory with high-efficiency industrial applications across oil and gas, food processing, and biomedical engineering, equipping readers to optimize performance, reduce waste, and improve energy efficiency through advanced modeling and simulation.
In an industrial landscape increasingly defined by sustainability and energy efficiency, accurately simulating non-Newtonian fluid behavior has become a critical advantage. From biomedical precision to the massive scales of oil, gas, and food manufacturing, fluids that defy traditional Newtonian laws demand specialized approaches. This book focuses on mathematical modeling, computational techniques, and real-world industrial applications of non-Newtonian fluids, with in-depth coverage of flow behavior, heat transfer, and mechanical properties. Emphasis is placed on practical modeling and simulation, particularly in polymer processing, food production, and oil drilling. Bridging foundational rheological theory with advanced computational practice, the volume explores shear-thinning, shear-thickening, and viscoelastic behaviors, offering a comprehensive roadmap for navigating complex non-Newtonian dynamics in industrial settings.
Editorial Reviews
From the Back Cover
Gain a decisive competitive edge in the global push for sustainability by mastering the mathematical modeling and computational simulation of non-Newtonian fluids. This book bridges complex rheological theory with high-efficiency industrial applications across oil and gas, food processing, and biomedical engineering, equipping readers to optimize performance, reduce waste, and improve energy efficiency through advanced modeling and simulation.
In an industrial landscape increasingly defined by sustainability and energy efficiency, accurately simulating non-Newtonian fluid behavior has become a critical advantage. From biomedical precision to the massive scales of oil, gas, and food manufacturing, fluids that defy traditional Newtonian laws demand specialized approaches. This book focuses on mathematical modeling, computational techniques, and real-world industrial applications of non-Newtonian fluids, with in-depth coverage of flow behavior, heat transfer, and mechanical properties. Emphasis is placed on practical modeling and simulation, particularly in polymer processing, food production, and oil drilling. Bridging foundational rheological theory with advanced computational practice, the volume explores shear-thinning, shear-thickening, and viscoelastic behaviors, offering a comprehensive roadmap for navigating complex non-Newtonian dynamics in industrial settings.
About the Author
Dhananjay Yadav, PhD, is an Associate Professor in the Department of Mathematics, College of Arts and Sciences, University of Nizwa. He has over 160 publications, including seven books and one patent. His research interests include fluid mechanics, thermal engineering, and computational fluid dynamics.
Mukesh Kumar Awasthi, PhD, is an Assistant Professor in the Department of Mathematics at Babasaheb Bhimrao Ambedkar University. He has published more than 20 books and numerous research articles in international journals and conferences. His research focuses on heat and mass transfer, fluid mechanics, and computational fluid dynamics.
Harith Mohamed Al-Azri, PhD, is an Assistant Professor in the Department of Mathematics, College of Arts and Sciences, University of Nizwa. He has published more than 25 articles in international journals. His research centers on experimental nuclear physics, radiation physics, and dosimetry.
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