https://wiki.devclub.in/index.php?action=history&feed=atom&title=MCL703MCL703 - Revision history2026-04-09T07:40:34ZRevision history for this page on the wikiMediaWiki 1.45.1https://wiki.devclub.in/index.php?title=MCL703&diff=1736&oldid=prevPrashantt492: Creating course page via bot2026-03-04T10:16:01Z<p>Creating course page via bot</p>
<p><b>New page</b></p><div>{{Infobox Course<br />
| code = MCL703<br />
| name = Advanced Heat and Mass Transfer<br />
| credits = 3<br />
| credit_structure = 3-0-0<br />
| pre_requisites = <br />
| overlaps = <br />
}}<br />
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== MCL703 : Advanced Heat and Mass Transfer ==<br />
Derivation of governing equation for three dimensional transient heat conduction problems. Two-dimensional steady state heat conduction. Transient one-dimensional heat conduction in finite length bodies. Diffusive Mass Transfer – Fick's law and governing equation. Melting and solidification. Newton's law of cooling-Derivation of energy equation- Self-similar solution for laminar boundary flow over a flat plate – energy integral method for laminar boundary layer flow over a flat surface-Laminar internal flows-thermally fully developed flows-Graetz problem - Natural convection over a vertical flat plate: similarity solutions and energy integral method- natural convection in enclosures-mixed convection-Turbulent flow and heat transfer: Reynolds averaged equations-Turbulent boundary layer flows – The law of wall-integral solutions. Convective mass transfer. Convection with phase change: Pool boiling regimes- Condensation: drop-wise condensation-Laminar film condensation over a vertical surface. Radiative heat transfer: Black body radiation-radiative properties of non-black bodies-surface radiation heat transfer in enclosures with gray diffused walls and non-gray surfaces.</div>Prashantt492