heat and mass transfer

Heat and Mass Transfer

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About the course

The subject, Heat and Mass Transfer, deals with the analysis of rate of different modes of Heat and Mass Interaction and the fundamental similarity between them. The Heat can interact in presence of stationary medium; ie. Conduction, in presence of moving medium; ie. Convection, and in the absence of any medium; ie. Radiation. Similarly, the Mass transfer takes place in stationary medium, ie. Mass Diffusion and in moving medium; ie. Mass Convection. In this subject, we will study different governing laws and equations related to Heat and Mass Transfer.

What will you learn?

The complete online syllabus of this course comprises 9 Learning Modules | 129 Topics of Learning | 6 Hours of Learning | 48 Assessments

Module

  • Introduction To Heat and Mass Transfer
  • Thermal Conduction
  • Theory Of Fins
  • Unsteady State Heat Conduction
  • Thermal Convection
  • Heat Exchangers
  • Boiling and Condensation
  • Thermal Radiation
  • Introduction To Mass Transfer

Topics of Learning

  • Introduction to Heat and Mass Transfer
  • Modes of Heat Transfer
  • Conservation of Energy
  • Introduction to Heat Conduction
  • Fourier’s law
  • Thermal Conductivity & Thermal Diffusivity
  • Heat Generation in a Body
  • General Heat conduction Equation: rectangular coordinates
  • General Heat conduction Equation: Cylindrical coordinates
  • General Heat Conduction Equation: Spherical Coordinates
  • Boundary conditions
  • Steady & Unsteady State Heat conduction
  • Introduction One-Dimensional Steady State Heat Conduction
  • Concept of Thermal Resistance
  • Analogy between Heat Flow and Current Flow
  • Concept of Thermal Contact Resistance
  • Composite Rectangular System
  • Composite Cylindrical System
  • Composite Spherical System
  • Wall Corners and Edges
  • Critical Thickness of Insulation
  • Thermal Conduction with Heat Generation
  • Electric Cables
  • Piston Crown
  • Nuclear Fuel Rod with Cladding
  • Introduction to Fins
  • Types of Fins
  • Heat Transfer through a Rod of uniform cross-section
  • Heat Transfer through a Rod of Trapezoidal or Triangular Profile
  • Consideration for Fins of Various Cross-Section
  • Fin Surface Efficiency
  • Fin Effectiveness
  • Thermometric Well
  • Heat Transfer using a Bar at Two Heat Sources and Error Calculation
  • Introduction to Unsteady State Heat Conduction
  • Newtonian Heating and Cooling
  • Biot Number
  • Fourier Number
  • Lumped Analysis
  • Heisler Charts
  • Introduction to Forced Convection
  • Newton’s Law of Cooling
  • Concepts of Boundary Layer
  • Hydrodynamic/Velocity Boundary Layer
  • Thermal Boundary Layer
  • Local & Average Convection Coefficient
  • Laminar Boundary Layer
  • Laminar Boundary Layer Equations
  • Nusselt Number
  • Prandtl Number
  • Stanton Number
  • Laminar Flow: Flat Plate
  • Laminar Flow: Cylinder & Sphere
  • Laminar Flow: Duct (Part 1)
  • Laminar Flow: Duct Contd.(Part 2)
  • Turbulent Boundary Layer
  • Turbulent Flow over a Flat Plate
  • Fully Developed Turbulent Flow
  • Introduction to Free Convection
  • Grashoff Number
  • Natural Convection: Vertical Plane & Cylinders
  • Natural Convection: Horizontal Plates and Cylinders
  • Natural Convection: Sphere
  • Introduction to Heat Exchangers
  • Types of Heat Exchangers
  • Overal Heat Transfer Coefficient
  • Fouling Factors
  • Types of Fouling
  • LMTD Method: Parallel Flow
  • LMTD method: Counter Flow
  • Correction factor
  • Effectiveness
  • NTU Method: Parallel Flow
  • NTU Method: Counter Flow
  • Introduction to Condensation & Boiling
  • Pool Boiling
  • Forced convective Boiling
  • Laminar film condensation
  • Turbulent Film Condensation
  • Dropwise Condensation
  • Convective Coefficient for Film in tubes
  • Effect of non-Condensable Gases
  • Heat Pipes
  • Introduction to Thermal Radiation
  • Fundamental concepts of Radiation
  • Black Body Radiation: Stefan Boltzman Law
  • Stefan Boltzman Law
  • Solid angle & Projected area
  • Radiation Intensity
  • Emissive Power
  • Irradiation
  • Radiosity
  • Absorptivity, Reflectivity, and Transmissivity
  • Planck’s law for Black Body Radiation
  • Wein’s Displacement Law
  • Kirchoff’s Law
  • Radiation Transfer between Surfaces
  • Shape factor
  • Reciprocity Theorem
  • Summation Rule
  • Superposition Rule
  • Symmetry Rule
  • Net Radiation Heat Transfer from a Surface
  • Net Radiation Heat Transfer between Any Two Surfaces
  • Radiation Heat Transfer in Two-Surface Enclosures
  • Radiation shields
  • Radiation combined with conduction and Convection
  • Solar Radiation
  • Green house effect
  • Introduction to Mass Transfer
  • Fick’s Law of Diffusion
  • Schmidt Number & Sherwood Number
  • Steady state Equimolar Counter Diffusion

For a quick review, please watch our videos here 👉🏻 Online Video-Tutorials For Heat and Mass Transfer

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