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

Nonfiction, Science & Nature, Technology, Material Science
Cover of the book Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer by Mohsen Sheikholeslami, Elsevier Science
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Author: Mohsen Sheikholeslami ISBN: 9780128141533
Publisher: Elsevier Science Publication: September 14, 2018
Imprint: Elsevier Language: English
Author: Mohsen Sheikholeslami
ISBN: 9780128141533
Publisher: Elsevier Science
Publication: September 14, 2018
Imprint: Elsevier
Language: English

Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer discusses this powerful numerical method that uses the advantages of both finite volume and finite element methods for the simulation of multi-physics problems in complex geometries, along with its applications in heat transfer and nanofluid flow. The book applies these methods to solve various applications of nanofluid in heat transfer enhancement. Topics covered include magnetohydrodynamic flow, electrohydrodynamic flow and heat transfer, melting heat transfer, and nanofluid flow in porous media, all of which are demonstrated with case studies.

This is an important research reference that will help readers understand the principles and applications of this novel method for the analysis of nanofluid behavior in a range of external forces.

  • Explains governing equations for nanofluid as working fluid
  • Includes several CVFEM codes for use in nanofluid flow analysis
  • Shows how external forces such as electric fields and magnetic field effects nanofluid flow
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Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer discusses this powerful numerical method that uses the advantages of both finite volume and finite element methods for the simulation of multi-physics problems in complex geometries, along with its applications in heat transfer and nanofluid flow. The book applies these methods to solve various applications of nanofluid in heat transfer enhancement. Topics covered include magnetohydrodynamic flow, electrohydrodynamic flow and heat transfer, melting heat transfer, and nanofluid flow in porous media, all of which are demonstrated with case studies.

This is an important research reference that will help readers understand the principles and applications of this novel method for the analysis of nanofluid behavior in a range of external forces.

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