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Full Description
Future-proof your thermal system designs with this essential guide, providing a comprehensive, cutting-edge exploration of
nanofluids to drive innovation and efficiency in heat transfer.
The development and application of nanofluids aligns with the broader trend towards miniaturization and higher efficiency in thermal systems. As industries continue to push the boundaries of performance and efficiency, the integration of nanofluids into thermal management solutions represents a forward-thinking approach that addresses these demands. In the context of disciplinary development, the study of nanofluids is situated at the intersection of nanotechnology, materials science, and thermal engineering. The unique properties of nanofluids have prompted extensive research aimed at understanding their behavior and optimizing their use in practical applications. This book contributes to this growing body of knowledge by providing comprehensive insights into the preparation, stability, and thermophysical properties of nanofluids. It also explores advanced computational models and experimental techniques essential for predicting and analyzing the heat transfer performance of nanofluids. This book, by providing a detailed exploration of the theoretical and practical aspects of nanofluids, serves as a valuable resource for researchers, engineers, and industry professionals aiming to harness the potential of this cutting-edge technology to drive innovation and efficiency in thermal systems.
Contents
Preface xv
Acknowledgements xvii
List of Contributors xix
1 Introduction to Nanofluids 1
K. Manjula
2 Nanofluid Technology: Fundamentals, Properties, and Engineering Applications 31
Ankur Kumar Sarma, Dipak Sarma and Sunmoni Mudoi
3 Fundamentals of Heat Transfer 49
Abhijit Pattnayak and Krishna Priyadarshini Das
4 Thermophysical Properties of Nanofluid 67
Atul Bhattad and Mohamed M. Awad Nomenclature 67
5 Preparation and Stability of Nanofluids 89
Atul Bhattad and Mohamed M. Awad
6 Thermophysical Characteristics and Analysis of Nanofluids 107
R. Gangadevi and S. Senthil Raja
7 Advanced Nanofluids for Efficient Electronics Cooling 133
Rashi Bhargava, Ankit Agrawal and Kanchan Bhardwaj
8 Arrhenius Kinetics in Ternary Hybrid Nanofluid Flow 149
Nagendramma, V. and Kavya, S.
9 Two-Phase Fluid Flow Over a Stretching Sheet 179
Aswin Kumar Rauta
10 MHD Flow of Burgers' Fluid with Nanoparticles 201
V. Nagendramma
11 Computational Modeling of Blood-Based Tetrahybrid Nanofluid 229
Bhagyashri Patgiri and Neelav Sarma
12 Nanofluid Heat Exchangers 253
Atul Bhattad and Mohamed M. Awad
13 Entropy Analysis of Yamada-Ota Model-Based Ree-Eyring Nanofluid Flow 271
Tusar Kanti Das, Jintu Mani Nath and Mulinti Vinodkumar Reddy
14 Innovations in Industrial Nanofluid Heat Transfer 293
Tayyaba Akhtar, Muhammad Abid and Mohamed M. Awad
15 Radiative Heat Transfer in Nanofluids 319
Abdulhalim Musa Abubakar, Issam Ferhoune, E.M. Mansour and Wisdom Chukwuemeke Ulakpa
16 Thermal Radiation, Chemical Reaction, and Dufour Effects in Nanofluids 375
Dibya Jyoti Saikia, Puja Haloi and Nazibuddin Ahmed
17 Bioconvective Flow of Casson Nanofluid 397
Sanjalee Maheshwari, Ankita Bisht and Amit Sharma
18 Heat Transfer Examination of an Unsteady Radiating Non-Newtonian Flow Conveying Different Nanoparticles Over a Permeable Elongating Sheet 413
Abderrahim Wakif
19 Advanced Stochastic Modeling of Ternary Nanofluid Flow Over Rotating Parallel Plates 437
G.K. Ramesh, J.K. Madhukesh and Umair Khan
References 460
About the Editors 463
Index 465
