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August 1st, 2016, 06:26 PM
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Re: Heat and mass transfer NPTEL IISC

As you are looking for NPTEL IISC Heat And Mass Transfer courses syllabus , so , on your demand I am providing same for you

Heat And Mass Transfer
Module 1: Introduction (2)
Units, definitions, Basic modes of Heat transfer, Thermal conductivity for various
types of materials, convection heat transfer coefficient,
Stefan Boltzman's law of
Thermal radiation.
Module 2: One Dimensional Steady State Heat Conduction (5)
Thermal conductivity and other relevant properties, Heat diffusion equation in
Cartesian coordinates,
boundary and initial conditions. One dimensional, steady state
heat conduction without and with heat generation through plane slabs, cylinders and
spheres, Concept of thermal resistance, Electrical analogy. Heat transfer through
composite slabs, cylinders and spheres, contact resistance. Critical thickness of
insulation for cylinder and sphere.
Module 3: Extended surface heat transfer (2)
Steady state heat conduction through fins of uniform cross section, fin effectiveness
and fin efficiency.
Module 4: Multidimensional
Steady State Heat Conduction (4)
Twodimensional
steady state conduction, analytical solution, conduction shape
factor, finite difference and finite volume methods
Module 5: Unsteady State Heat Conduction (4)
Transient conduction in solids with negligible internal temperature gradients (lumped
parameter), Biot number and Fourier number. One dimensional transient conduction
in slab and radial systems: exact and approximate solutions. Finite difference
methods: explicit and implicit formulations.
Module 6: Convection (8)
Flow over a body, velocity and thermal boundary layers, dragcoefficient
and heat
transfer coefficient. Flow inside a duct; hydrodynamics and thermal entry lengths;
fully developed and developing flow. Use of various correlations in forced convection
heat transfer, flow over a flat plate, flow across a single cylinder and tube bundles.
Free convection heat transfer from vertical surface and vertical cylinder, horizontal
surface and horizontal cylinders.
Module 7: Heat Exchangers (3)
Heat exchanger types, flow arrangements, overall heat transfer coefficient, fouling
factor, LMTD for parallel flow and counter flow heat exchangers. EffectivenessNTU
method, expression for effectiveness of a parallel flow and counter flow heat
exchangers. Multipass
and cross flow heat exchangers.
Module 8: Boiling and Condensation (3)
Different regimes of boiling, mechanism of condensation, Nusselt’s theory of film
condensation on a vertical surface, use of correlations in solving film wise
condensation on plane surfaces, horizontal tubes and tube banks.
Module 9: Radiation Heat Transfer (4)
Definitions, concept of a black body, Kirchoff's law, Lambert's Cosine Law, Stefan Boltzman's
law, Plank's distribution law, Wein's displacement law, configuration
factor. Radiation heat exchange between two parallel plates, radiation shielding,
radiation heat exchange in an enclosure.
Module 10: Mass Transfer (2)
Fick's law of diffusion, Mass transfer coefficient, Evaporation of water into air,
Schmidt number, Sherwood number.

NPTEL IISC Heat And Mass Transfer courses syllabus
Attached Files
File Type: pdf NPTEL IISC Heat And Mass Transfer courses syllabus.pdf (84.6 KB, 94 views)


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