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Author

Sheikholeslami, Mohsen, 1988-

Title Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer / Mohsen Sheikholeslami.

Imprint

Amsterdam : Elsevier, Š2019.

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Available to Pittsburg State University patrons only.

Copies

Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Description	1 online resource (782 pages)
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
Series	Micro and Nano Technologies
	Micro & nano technologies.
Note	Print version record.
Contents	Front Cover; Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer; Copyright Page; Contents; Biography; Preface; 1 Detailed Explanation of Control Volume-based Finite Element Method; 1.1 Introduction; 1.2 The Discretization: Grid, Mesh, and Cloud; 1.2.1 Grid; 1.2.2 Mesh; 1.2.3 Cloud; 1.3 The Element and the Interpolation Shape Functions; 1.4 Region of Support and Control Volume; 1.5 Discretization and Solution; 1.5.1 Steady State Advection-Diffusion With Source Terms; 1.5.2 Implementation of Source Terms and Boundary Conditions.
	1.5.3 Unsteady Advection-Diffusion With Source TermsReferences; 2 Simulation of Vorticity Stream Function Formulation by Means of CVFEM; 2.1 CVFEM Stream Function-Vorticity Solution for a Lid Driven Cavity Flow; 2.1.1 Definition of the Problem and Governing Equation; 2.1.2 The CVFEM Discretization of the Stream Function Equation; 2.1.2.1 Diffusion Contributions; 2.1.2.2 Source Terms; 2.1.2.3 Boundary Conditions; 2.1.3 The CVFEM Discretization of the Vorticity Equation; 2.1.3.1 Diffusion Contributions; 2.1.3.2 The Advection Coefficients; 2.1.3.3 Boundary Conditions.
	2.1.4 Calculating the Nodal Velocity Field2.1.5 Results; 2.2 CVFEM Stream Function-Vorticity Solution for Natural Convection; 2.2.1 Definition of the Problem and Governing Equation; 2.2.2 Effect of Active Parameters; References; 3 Various Application of Nanofluid for Heat Transfer Augmentation; 3.1 Introduction; 3.1.1 Definition of Nanofluid; 3.1.2 Model Description; 3.1.3 Conservation Equations; 3.1.3.1 Single-phase Model; 3.1.3.2 Two-phase Model; 3.1.3.2.1 Continuity Equation; 3.1.3.2.2 Nanoparticle Continuity Equation; 3.1.3.2.3 Momentum Equation; 3.1.3.2.4 Energy Equation.
	3.1.4 Physical Properties of the Nanofluids for Single-phase Model3.1.4.1 Density; 3.1.4.2 Specific Heat Capacity; 3.1.4.3 Thermal Expansion Coefficient; 3.1.4.4 The Electrical Conductivity; 3.1.4.5 Dynamic Viscosity; 3.1.4.6 Thermal Conductivity; 3.2 Simulation of Nanofluid Flow and Heat Transfer; 3.2.1 Semianalytical Methods; 3.2.2 Runge-Kutta Method; 3.2.3 Finite Difference Method; 3.2.4 Finite Volume Method; 3.2.5 Finite Element Method; 3.2.6 Control Volume-based Finite Element Method; 3.2.7 Lattice Boltzmann Method; References.
	4 Single-phase Model for Nanofluid Free Convection Heat Transfer by Means of CVFEM4.1 Introduction; 4.2 Nanofluid Hydrothermal Analysis in a Complex Shaped Cavity; 4.2.1 Problem Definition; 4.2.2 Governing Equation; 4.2.3 Effects of Active Parameters; 4.3 Natural Convection Heat Transfer in a Nanofluid Filled Enclosure With Elliptic Inner Cylinder; 4.3.1 Problem Definition; 4.3.2 Governing Equation; 4.3.3 Effects of Active Parameters; 4.4 Nanofluid Free Convection Heat Transfer in a Tilted Cavity; 4.4.1 Problem Definition; 4.4.2 Governing Equation; 4.4.3 Effects of Active Parameters.
Bibliography	References.
Subject	Finite element method.
	Méthode des éléments finis.
	MATHEMATICS -- Numerical Analysis.
	Finite element method
Other Form:	Print version: Sheikholeslami, Mohsen. Application of Control Volume Based Finite Element Method (CVFEM) for Nanofluid Flow and Heat Transfer. San Diego : Elsevier, Š2018 9780128141526
ISBN	9780128141533 (electronic bk.)
	0128141530 (electronic bk.)
	0128141522
	9780128141526
Standard No.	AU@ 000064345200
	UKMGB 019026690