Heat and Mass Transfer

Features

• This free application is for all students across the world. It covers 146 topics of Heat and Mass Transfer in detail. These 146 topics are divided in 5 units.
• Each topic is around 600 words and is complete with diagrams, equations and other forms of graphical representations along with simple text explaining the concept in detail.
• This USP of this application is "ultra-portability". Students can access the content on-the-go from anywhere they like.
• Basically, each topic is like a detailed flash card and will make the lives of students simpler and easier.
• Some of topics Covered in this application are:
• 1. Concept of mechanism of heat flow
• 2. Conduction
• 3. Convection
• 4. Radiation
• 5. Relationship to the first law of thermodynamics
• 6. Conservation of total energy
• 7. The surface energy balance
• 8. Relationship to the second law of thermodynamics and the efficiency of heat engines
• 9. Units and dimensions
• 10. Analysis of heat transfer problems: methodology
• 11. Introduction to conduction
• 12. The conduction rate equation
• 13. The thermal properties of matter
• 14. The thermal properties of the solid state
• 15. The solid state: micro- and nano-scale effects
• 16. The fluid state
• 17. Other relevant properties
• 18. The heat diffusion equation
• 19. Cylindrical coordinates
• 20. Micro scale effects
• 21. Boundary and initial conditions
• 22. Steady state one-dimensional heat conduction
• 23. Plane wall
• 24. Thermal resistance
• 25. The composite wall
• 26. Contact resistance
• 27. Porous media
• 28. An alternative conduction analysis
• 29. Radial systems in cylinder
• 30. Radial system in sphere
• 31. Conduction with thermal energy generation
• 32. Heat transfer from extended surfaces
• 33. A general conduction analysis
• 34. Fins of uniform cross-sectional area
• 35. Fin performance
• 36. Fins of non-uniform cross-sectional area
• 37. Efficiency of common fin shapes
• 38. Overall surface efficiency
• 39. The bio-heat equation
• 40. Thermoelectric power generation
• 41. Conduction through thin gas layers
• 42. Alternative approaches
• 43. The conduction shape factor and the dimensionless conduction heat rate
• 44. Conduction shape factors and dimensionless conduction heat rates for selected systems
• 45. Finite-difference equations
• 46. Finite-difference form of the heat equation
• 47. The energy balance method
• 48. Formulation of the finite-difference equation
• 49. Nodal finite-difference equations
• 50. Formulation as a matrix equation
• 51. Verifying the accuracy of the solution
• 52. Transient conduction
• 53. The lumped capacitance method
• 54. Validity of the lumped capacitance method
• 55. General lumped capacitance analysis
• 56. Radiation only in transient conduction
• 57. Negligible radiation in transient conduction
• 58. Convection only with variable convection coefficient
• 59. The plane wall with convection (exact solution)
• 60. The plane wall with convection (approximate solution)
• 61. Total energy transfer
• 62. Radial systems with convection (exact solutions)
• 63. Radial systems with convection approximate solutions
• 64. The semi-infinite solid
• 65. Objects with constant surface temperatures or surface heat fluxes
• 66. Constant heat flux boundary conditions
• 67. Transient heat transfer results for constant surface temperature cases
• 68. Periodic heating
• 69. Finite-difference methods
• 70. Transient, two-dimensional finite-difference equations
• 71. Discretization of the heat equation: the implicit method
• 72. The convection boundary layers
• 73. The thermal boundary layer
• 74. The concentration boundary layer
• 75. Local and average convection coefficients (heat transfer)
• 76. Local and average convection coefficients (mass transfer)
• 77. The problem of convection
• 78. Laminar and turbulent flow
• 79. Laminar and turbulent thermal and species concentration boundary layers
• 80. Comparison of laminar and turbulent flow
• 81. The boundary layer equations
• 82. Boundary layer similarity: the normalized boundary layer equations
• 83. Functional form

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