| Title | Syllabus | Reference |
|---|---|---|
| Convective Heat and mass Transfer | Flow classifications. Mass, Momentum and Energy relations in differential form. Definition of heat and mass transfer coefficient. Boundary Layer Equations. Similarity, Integral and Finite Difference solutions for laminar and turbulent, internal and external flows. Phenomenology of Turbulent flow near a wall. The law of the wall and its implications for predicting friction factor and Nusselt number at the wall. Effects of Prandtl Numbar. Comparisons with the well known experimental correlations. Development of kinetic enrgy - dissipation model of Turbulence. Convective Mass Transfer - Stefan flow model, Couette flow model and Reynolds flow model. Calculation of mass transfer across an interface with application to evaporation, humidification, combustion, surface cooling. | W.M. Kays and M. E. Crawford, Convective Heat and Mass Transfer, McGraw Hill International Edition, 3rd edition, 1993. E.R.G. Eckert and R.M. Drake Jr., Analysis of Heat Transfer, McGraw-Hill, 1972. D. B. Spalding, Convective Mass Transfer, McGraw-Hill, New York, ( 1963 ). T. Cebeci and P Bradshaw, Physiacl and Computational Aspects of Convective Heat Transfer, Springer Verlag, New York, ( 1984 ) |