| Lesson Plan | ||
| Name of Faculty : Sh. Sh.Brijesh Kumar | ||
| Discipline : B.TECH (ME) | ||
| Semester : 5TH | ||
| Subject & Subject Code : Heat and Mass Transfer & PCC-ME- 301 | ||
| Lesson Plan Duration : 15 Weeks (from July, 2019 to November, 2019) | ||
| Work Load (Lecture/ Tutorial ) per week (in hours) : Lecure-03 | ||
| Week | Theory | |
| Lecture Day | ||
| 1ST | 1 | Introduction to three modes of heat transfer |
| 2 | Derivation of heat balance equation- Steady one dimensional solution for conduction heat transfer in Cartesian geometry, |
|
| 3 | Problems | |
| 2ND | 1 | Derivation of heat balance equation- Steady one dimensional solution for conduction heat transfer in cylindrical geometry, |
| 2 | Derivation of heat balance equation- Steady one dimensional solution for conduction heat transfer in spherical geometry, |
|
| 3 | Assignments | |
| 3RD | 1 | concept of conduction and film resistances |
| 2 | critical insulation thickness, lumped system approximation | |
| 3 | Problems | |
| 4TH | 1 | Biot number |
| 2 | at transfer through pin fins- Two dimensional conduction solutions for steady heat transfer by the use of Heissler charts |
|
| 3 | Problems | |
| 5TH | 1 | at transfer through pin fins- Two dimensional conduction solutions for steady heat transfer by the use of Heissler charts |
| 2 | at transfer through pin fins- Two dimensional conduction solutions for unsteady heat transfer by the use of Heissler charts |
|
| 3 | Problems | |
| 6TH | 1 | at transfer through pin fins- Two dimensional conduction solutions for unsteady heat transfer by the use of Heissler charts |
| 2 | Heat convection | |
| 3 | Problems | |
| 7TH | 1 | Basic equations, boundary layers |
| 2 | Forced convection | |
| 3 | external and internal flows |
|
| 8TH | 1 | Problems |
| 2 | Natural convective heat transfer | |
| 3 | Dimensionless parameters for forced convection heat transfer |
|
| 9TH | 1 | Problems |
| 2 | Dimensionless parameters for free convection heat transfer |
|
| 3 | Correlations for forced convection | |
| 10TH | 1 | Correlations for free convection |
| 2 | Interaction of radiation with materials | |
| 3 | Problems | |
| 11TH | 1 | Definitions of radiative properties, Stefan Boltzmann’s law |
| 2 | Black and gray body radiation | |
| 3 | Calculation of radiation heat transfer between surfaces using radiative properties |
|
| 12TH | 1 | view factors and the radiosity method |
| 2 | Types of heat exchangers | |
| 3 | A nalysis and design of heat exchangers using LMTD | |
| 13TH | 1 | A nalysis and design of heat exchangers using ε-NTU methods |
| 2 | Boiling and Condensation heat transfer | |
| 3 | Pool boiling curve | |
| 14TH | 1 | Mass and mole concentrations |
| 2 | Problems | |
| 3 | molecular diffusion, eddy diffusion |
|
| 15TH | 1 | fick’s law, General equation of mass diffusion in stationary media |
| 2 | Diffusion of water vapours through air | |
| 3 | Convective mass transfer and it’s correlations. | |
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