Sharif Digital Repository / Sharif University of Technology
    • [Zoom In]
    • [Zoom Out]
  • Page 
    		 of  0
  • [Previous Page]
  • [Next Page]
  • [Fullscreen view]
  • [Close]
 
Recruitment processes in academia: does the emperor have any clothes?
Ataie Ashtiani, B

Cataloging brief

Recruitment processes in academia: does the emperor have any clothes?
Author :   Ataie Ashtiani, B
Publisher :   Kluwer Academic Publishers
Pub. Year  :   2015
Subjects :   Australia Civil Engineering Equal opportunities Promotion Recruitment
Call Number :  

Find in content

sort by

Bookmark

  • thesis.pdf
    • Chapter 1 Introduction (15)
      • 1.1 Porous Medium (15)
      • 1.2 Porosity (17)
      • 1.3 Permeability (17)
      • 1.4 Application of Porous Media (18)
      • 1.5 Objective (19)
    • Chapter 2 Literature Review (21)
    • Chapter 3 Mathematical Formulation (27)
      • 3.1 Momentum Transport Equation (27)
        • 3.1.1 Darcy Flow Model (27)
        • 3.1.2 Forchheimer-Darcy Flow Model (28)
        • 3.1.3 Brinkman-Darcy Flow Model (29)
        • 3.1.4 Darcy-Brinkman-Forchheimer Flow Model (29)
        • 3.1.5 Various Darcy-Brinkman-Forchheimer Parameters in Flow Models (31)
      • 3.2 Energy Equation (32)
      • 3.3 Nondimensionalization of Equations (34)
        • 3.3.1 Natural Convection (34)
        • 3.3.2 Forced Convection (35)
      • 3.4 Nusselt Number (41)
    • Chapter 4 Numerical Solution (44)
      • 4.1 The Discretization of the General Convection-Diffusion Equation (45)
      • 4.2 Staggered Grid and the Discretized Porous media Governing Equations (47)
      • 4.3 SIMPLEC Algorithm (61)
        • 4.3.1 Velocity Corrections (61)
        • 4.3.2 Pressure Correction (64)
      • 4.4 Line-by-Line Method (67)
    • Chapter 5 Results and Discussion (68)
      • 5.1 Validation Test Case 1: Heat Transfer in a 2-D Rectangular Channel (68)
      • 5.2 Validation Test Case 2: Fluid Flow in a 2-D Rectangular Channel (70)
      • 5.3 Validation Test Case 3: Fluid flow in a 2-D Rectangular Channel with porous media (71)
      • 5.4 Geometric Configuration and Boundary Conditions (72)
      • 5.5 Effect of Reynolds Number (Re) on Developing Velocity Profile (73)
      • 5.6 Effect of Darcy Number (Da) on Developing Velocity Profile (74)
      • 5.7 Effect of Non-Dimensional Porous substrate Thickness (S) on Developing Velocity Profile (75)
      • 5.8 Effect of Porosity (ε) on Developing Velocity Profile (76)
      • 5.9 Effect of Thermal Conductivity Ratio (TCR) on Heat Transfer (77)
      • 5.10 Effect of Non-Dimensional Porous Substrate Thickness (S) on Heat Transfer (79)
      • 5.11 Effect of Darcy Number (Da) on Heat Transfer (80)
      • 5.12 Effect of Porosity (ε) on Heat Transfer (82)
      • 5.13 Effect of Reynolds Number (Re) on Heat Transfer (83)
      • 5.14 Pressure Drop (85)
      • 5.15 Pressure Drop and Nusselt Number for the Porous Layer at Core of Channel (87)
    • Chapter 6 Conclusion and Future Works (91)
Loading...