Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer

Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer

by Mohsen Sheikholeslami

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Product Details

ISBN-13: 9780128141526
Publisher: Elsevier Science
Publication date: 10/02/2018
Series: Micro and Nano Technologies Series
Pages: 780
Product dimensions: 7.50(w) x 9.25(h) x (d)

About the Author

Dr. Mohsen Sheikholeslami works at the Babol Noshirvani University of Technology’s Department of Mechanical Engineering, Iran. His research interests include Computational Fluid Dynamics, nanofluid simulation, mesoscopic modeling of fluid, nonlinear science, magnetohydrodynamics, ferrohydrodynamics, and electrohydrodynamics. He authored several papers and books across various areas of mechanical engineering. He was selected as a Web of Science Highly Cited Researcher (Top 0.01%) in 2016 and 2017. He is also the author of the books Applications of Nanofluid for Heat Transfer Enhancement; Application of Semi-Analytical Methods for Nanofluid Flow and Heat Transfer; Hydrothermal Analysis in Engineering Using Control Volume Finite Element Method; and External Magnetic Field Effects on Hydrothermal Treatment of Nanofluid, all published by Elsevier.

Table of Contents

  1. Detailed Explanation of Control Volume-based Finite Element Method
  2. Simulation of Vorticity Stream Function Formulation by Means of CVFEM 15
  3. Various Application of Nanofluid for Heat Transfer Augmentation
  4. Single-phase Model for Nanofluid Free Convection Heat Transfer by Means of CVFEM
  5. Buongiorno Model for Nanofluid Treatment Using CVFEM
  6. Nanofluid Forced and Mixed Convection Heat Transfer by Means of CVFEM
  7. Effect of Uniform Lorentz Forces on Nanofluid Flow Using CVFEM
  8. Influence of Variable Lorentz Forces on Nanofluid Free Convection Using CVFEM
  9. Nanofluid Forced Convective Heat Transfer in Presence of Variable Magnetic Field Using CVFEM
  10. Influence of Shape Factor on Nanofluid Heat Transfer Improvement Using CVFEM
  11. Electrohydrodynamic Nanofluid Natural Convection Using CVFEM
  12. Forced Convection of Nanofluid in Existence of Electric Field Using CVFEM
  13. Darcy Model for Nanofluid Flow in a Porous Media by Means of CVFEM
  14. Non-Darcy Model for Nanofluid Hydrothermal Treatment in a Porous Medium Using CVFEM
  15. Thermal Nonequilibrium Model for Nanofluid Flow in a Porous Enclosure by Means of CVFEM
  16. Nonuniform Magnetic Field Effect on Nanofluid Convective Flow in a Porous Cavity
  17. Thermal Radiation Influence on Nanofluid Flow in a Porous Medium in the Presence of Coulomb Forces Using CVFEM
  18. Influence of Electric Field on Forced Convection of Nanofluid in a Porous Medium by Means of CVFEM
  19. Nanofluid Heat Transfer Enhancement in Presence of Melting Surface Using CVFEM
  20. Nanofluid Convective Heat Transfer Considering Magnetic Field Dependent (MFD) Viscosity by Means of CVFEM

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