Flow Dynamics and Heat Transfer
eBook - PDF

Flow Dynamics and Heat Transfer

Computational Fluid Dynamics, Thermal Analysis, Numerical Simulations

  1. 382 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Flow Dynamics and Heat Transfer

Computational Fluid Dynamics, Thermal Analysis, Numerical Simulations

About this book

This book serves as a comprehensive guide to the fundamental and advanced principles of flow dynamics and heat transfer, emphasizing computational techniques, numerical simulations, and real-world applications. Designed for researchers, engineers, and students, this book bridges theoretical foundations with modern computational and experimental methodologies to address contemporary challenges in fluid flow and heat transfer.

Exploring a wide range of topics, from compressible and non-Newtonian fluid flow to microscale and nanoscale heat transfer mechanisms, the book provides insights into emerging technologies and optimization strategies. Readers will gain valuable knowledge on industrial applications, including turbine cooling, nanofluid-based heat exchangers, and AI-driven predictive modeling for thermal systems.

An essential reference for professionals and academics, this book equips readers with the knowledge and computational tools needed to solve complex fluid flow and heat transfer challenges across diverse engineering disciplines.

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Yes, you can access Flow Dynamics and Heat Transfer by Mukesh Kumar Awasthi,Dhananjay Yadav,J. Paulo Davim in PDF and/or ePUB format, as well as other popular books in Technologie et ingénierie & Thermodynamique. We have over one million books available in our catalogue for you to explore.

Information

Publisher
De Gruyter
Year
2025
eBook ISBN
9783111661674
Topic
Technologie et ingénierie
Subtopic
Thermodynamique

Table of contents

  1. Contents
  2. Aim and scope
  3. Preface
  4. Acknowledgments
  5. About editors
  6. List of contributing authors
  7. Chapter 1 Introduction to flow dynamics and heat transfer
  8. Chapter 2 Compressible fluid flow and heat transfer
  9. Chapter 3 Non-Newtonian fluid flow and heat transfer
  10. Chapter 4 Heat transfer in forced and natural convection
  11. Chapter 5 Numerical study of coupled partial differential equations in heat transfer problems with imprecisely defined parameters
  12. Chapter 6 Numerical approach to study the effect of uncertain spectrum of field variables in a porous cavity
  13. Chapter 7 Investigation of the thermal fluid system using direct numerical simulation
  14. Chapter 8 Dynamics of shock-accelerated V-shaped gas interface
  15. Chapter 9 Nonlinear and linear analyses of partially ionized plasma
  16. Chapter 10 Thermo-fluid behavior of electroosmotic flow in a hydrophobic microchannel under Joule heating and external fields
  17. Chapter 11 The study of oscillating water column energy device in a two-layer fluid system of finite impermeable depth
  18. Chapter 12 Data-driven prediction of thermal conductivity ratio in nanoparticle-enhanced 60:40 EG/water nanofluids
  19. Chapter 13 Industrial applications of flow dynamics and heat transfer
  20. Chapter 14 Optimization techniques in flow dynamics and heat transfer
  21. Chapter 15 Advanced optimization methods in flow dynamics
  22. Index
  23. De Gruyter Series in Advanced Mechanical Engineering