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Title of Thesis

Heat And Mass Transfer Analysis Of Unsteady Flow Over A Horizontal Surface Inside A Squeezing Channel

Author(s)

Mohammad Mahmood

Institute/University/Department Details
Department of Mathematics / COMSATS Institute of Information Technology, Islamabad
Session
2009
Subject
Mathematics
Number of Pages
136
Keywords (Extracted from title, table of contents and abstract of thesis)
Mass, Transfer, Unsteady, Flow, Horizontal, Surface, Squeezing, Channel, Transfer, Medium, Deformable

Abstract
Not Available

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1,280 KB
S. No. Chapter Title of the Chapters Page Size (KB)
1 0 CONTENTS

 

1
57 KB
2

1

INTRODUCTION

 

8
101 KB
3 2 PRELIMINARIES

2.1 Equation of continuity
2.2 Navier-Stokes equations
2.3 Energy equation
2.4 Concentration equation
2.5 Viscous boundary layer
2.5 Thermal boundary layer
2.7 No slip condition
2.8 Boundary layer approximation
2.9 Modes of heat transfer
2.10 Convection
2.11 Newton’s law of viscosity and Newtonian fluids
2.12 Fourier’s law
2.13 Fick’s law
2.14 Dimensionless numbers in convective heat and mass transfer

18
190 KB
4 3 FORCED CONVECTION FLOW AND HEAT TRANSFER OF VISCOUS FLUID OVER A POROUS HORIZONTAL SURFACE INSIDE A SQUEEZING CHANNEL

3.1 Mathematical formulation
3.2 Solution methodologies
3.3 Results and discussion
3.4 Conclusions

34
333 KB
5 4 EFFECT OF THERMAL DIFFUSION ON MIXED CONVECTION FLOW OF VISCOUS FLUID OVER A POROUS HORIZONTAL SURFACE INSIDE A SQUEEZING CHANNEL

4.1 Mathematical formulation
4.2 Transformations and methods of solution
4.3 Results and discussion
4.4 Conclusions
 

 

54
353 KB
6 5 EFFECT OF THERMAL AND MOLECULAR DIFFUSION ON MIXED CONVECTION FLOW OF VISCOUS FLUID OVER A POROUS HORIZONTAL SURFACE INSIDE A SQUEEZING CHANNEL

5.1 Mathematical formulation
5.2 Results and discussion
5.3 Conclusions

78
444 KB
7 6 FLOW THROUGH A POROUS MEDIUM IN A DEFORMABLE CHANNEL WITH WALL SUCTION AND INJECTION

6.1 Formulation of problem
6.2 Solution of the problem
6.3 Results and discussion
6.4 Conclusions

101
314 KB
8 7 REFERENCES

118


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