Heat and Mass Transfer - medicalbooks.filipinodoctors.org

Show more pictures

Heat and Mass Transfer

Brand: Ashish Kumar
MPN: com.faadooengineers.free_heatandmasstransfer
Category: App (Science)
Price: $0.00
Availability: Available instantly on compatible devices
Buy From Amazon

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

Buy From Amazon




*If this is not the "Heat and Mass Transfer" product you were looking for, you can check the other results by clicking this link.  Details were last updated on Dec 2, 2024 23:44 +08.