NOC:Transport Processes I: Heat and Mass Transfer (USB)

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Media Storage Type : 32 GB USB Stick

NPTEL Subject Matter Expert : Prof. V. Kumaran

NPTEL Co-ordinating Institute : IISc Bangalore

NPTEL Lecture Count : 71

NPTEL Course Size : 13 GB

NPTEL PDF Text Transcription : Available and Included

NPTEL Subtitle Transcription : Available and Included (SRT)


Lecture Titles:

Lecture 1 - Transport by convection and diffusion
Lecture 2 - Non-dimensional analysis of beams
Lecture 3 - Dimensional analysis: Force on a particle settling in a fluid
Lecture 4 - Dimensional analysis: Heat transfer in a heat exchanger
Lecture 5 - Dimensional analysis: Mass transfer from a particle suspended in a fluid
Lecture 6 - Dimensional analysis: Power of an impeller
Lecture 7 - Dimensional analysis: Scaling up of an impeller
Lecture 8 - Dimensional analysis: Convection and diffusion
Lecture 9 - Dimensional analysis: Physical interpretation of dimensionless groups
Lecture 10 - Dimensional analysis: Correlations for dimensionless groups
Lecture 11 - Dimensional analysis: Natural and forced convection
Lecture 12 - Continuum description of fluids
Lecture 13 - Conservation equations and constitutive relations
Lecture 14 - Diffusion: Mechanism of mass diffusion in gases
Lecture 15 - Diffusion: Estimation of mass diffusion coefficient
Lecture 16 - Diffusion: Momentum diffusion coefficient
Lecture 17 - Diffusion: Thermal diffusion coefficient
Lecture 18 - Unidirectional transport: Conservation equation for heat and mass transfer
Lecture 19 - Unidirectional transport: Conservation equation for momentum transfer
Lecture 20 - Unidirectional transport: Similarity solution for infinite domain
Lecture 21 - Unidirectional transport: Similarity solution for infinite domain (Continued...)
Lecture 22 - Unidirectional transport: Similarity solution for mass transfer into a falling film
Lecture 23 - Unidirectional transport: Similarity solution for decay of a pulse
Lecture 24 - Unidirectional transport: Similarity solution for decay of a pulse (Continued...)
Lecture 25 - Unidirectional transport: Separation of variables for transport in a finite domain
Lecture 26 - Unidirectional transport: Separation of variables for transport in a finite domain (Continued...)
Lecture 27 - Unidirectional transport: Separation of variables for transport in a finite domain (Continued...)
Lecture 28 - Unidirectional transport: Separation of variables for transport in a finite domain (Continued...)
Lecture 29 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Heat transfer across the wall of a pipe
Lecture 30 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Unsteady heat conduction from a cylinder
Lecture 31 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Unsteady heat conduction from a cylinder (Continued...)
Lecture 32 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Unsteady heat conduction from a cylinder (Continued...)
Lecture 33 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Similarity solution for heat conduction from a wire
Lecture 34 - Unidirectional transport: Effect of body force in momentum transfer. Falling film
Lecture 35 - Unidirectional transport: Effect of pressure in momentum transfer. Flow in a pipe
Lecture 36 - Unidirectional transport: Friction factor for flow in a pipe
Lecture 37 - Unidirectional transport: Laminar and turbulent flow in a pipe
Lecture 38 - Unidirectional transport: Laminar and turbulent flow in a pipe
Lecture 39 - Unidirectional transport: Oscillatory flow in a pipe. Solution using complex variables
Lecture 40 - Unidirectional transport: Oscillatory flow in a pipe. Solution using complex variables
Lecture 41 - Unidirectional transport: Oscillatory flow in a pipe. Solution using complex variables (Continued...)
Lecture 42 - Unidirectional transport: Oscillatory flow in a pipe. Low and high Reynolds number solutions
Lecture 43 - Unidirectional transport: Spherical co-ordiantes. Heat conduction from a sphere
Lecture 44 - Mass and energy balance equations in Cartesian co-ordinates
Lecture 45 - Mass and energy balance equations in Cartesian co-ordinates
Lecture 46 - Mass and energy balance equations in spherical co-ordinates
Lecture 47 - Mass and energy balance equations in spherical co-ordinates
Lecture 48 - Momentum balance: Incompressible Navier-Stokes equations
Lecture 49 - Balance equation: Convection and diffusion dominated regimes
Lecture 50 - Diffusion equation: Heat conduction in a rectangular solid
Lecture 51 - Diffusion equation: Heat conduction in a rectangular solid (Continued...)
Lecture 52 - Diffusion equation: Heat conduction around a sphereical inclusion
Lecture 53 - Diffusion equation: Heat conduction around a spherial inclusion
Lecture 54 - Diffusion equation: Effective conductivity of a composite
Lecture 55 - Diffusion equation: Spherical harmonic solutions
Lecture 56 - Diffusion equation: Conduction from a point source
Lecture 57 - Diffusion equation: Method of Greens functions
Lecture 58 - Diffusion equation: Method of images
Lecture 59 - Diffusion equation: Equivalence of spherical harmonics and multipole expansion
Lecture 60 - High Peclet number forced convection: Boundary layer in flow past a heated plate
Lecture 61 - High Peclet number forced convection: Boundary layer in flow past a heated plate (Continued...)
Lecture 62 - High Peclet number forced convection: Flow past a heated sphere
Lecture 63 - High Peclet number forced convection: Flow past a heated sphere (Continued...)
Lecture 64 - High Peclet number forced convection: Transport to a falling film
Lecture 65 - High Peclet number forced convection: Transport to a spherical bubble
Lecture 66 - High Peclet number forced convection: Solutions for an arbitrary geometry
Lecture 67 - High Peclet number forced convection: Taylor dispersion
Lecture 68 - Natural convection: Boussinesq equations for heat transfer
Lecture 69 - Natural convection: Boundary layer equations
Lecture 70 - Natural convection: Boundary layer equations convection
Lecture 71 - Natural convection: Heat transfer correlations

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