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Table of Contents
Intro
Preface
Acknowledgments
Introduction to Nanofluid
Introduction
Model Description
Physical Properties of Nanofluid
Density
Specific Heat Capacity
Thermal Expansion Coefficient
Electrical Conductivity
Dynamic Viscosity
Thermal Conductivity
References
Numerical Methods
Introduction
Homotopy Perturbation Method
Weighted Residual Methods (WRMs)
Galerkin's Method
Least Square Method (LSM)
References
Nanofluid Flow Between Two Inclined Planes
Introduction
Model Description
Implementation of LSM
Results and Discussion
Concluding Remarks
References
Nanofluid Flow in Semi-Porous Channel
Introduction
Model Description
Implementation of HPM
Results and Discussion
Concluding Remarks
References
Nanofluid Flow Between Two Vertical Parallel Walls
Introduction
Model Description
Implementation of Galerkin's Method
Results and Discussion
Concluding Remarks
References
Authors' Biographies
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Preface
Acknowledgments
Introduction to Nanofluid
Introduction
Model Description
Physical Properties of Nanofluid
Density
Specific Heat Capacity
Thermal Expansion Coefficient
Electrical Conductivity
Dynamic Viscosity
Thermal Conductivity
References
Numerical Methods
Introduction
Homotopy Perturbation Method
Weighted Residual Methods (WRMs)
Galerkin's Method
Least Square Method (LSM)
References
Nanofluid Flow Between Two Inclined Planes
Introduction
Model Description
Implementation of LSM
Results and Discussion
Concluding Remarks
References
Nanofluid Flow in Semi-Porous Channel
Introduction
Model Description
Implementation of HPM
Results and Discussion
Concluding Remarks
References
Nanofluid Flow Between Two Vertical Parallel Walls
Introduction
Model Description
Implementation of Galerkin's Method
Results and Discussion
Concluding Remarks
References
Authors' Biographies
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