| Sl.No | Chapter Name | MP4 Download |
|---|---|---|
| 1 | Lec 1: Application of convective heat transfer | Download |
| 2 | Lec 2: Foundations of heat transfer | Download |
| 3 | Lec 3: Derivation of energy equation | Download |
| 4 | Lec 4: Derivation of boundary layer equation | Download |
| 5 | Lec 5: Derivation of boundary layer energy equation | Download |
| 6 | Lec 6: Blasius solution: similarity method | Download |
| 7 | Lec 7: Pohlhausen solution: similarity method | Download |
| 8 | Lec 8: Pohlhausen solution: heat transfer parameters | Download |
| 9 | Lec 9: Falkner-Skan equation: Boundary layer flow over a wedge | Download |
| 10 | Lec 10: Momentum integral equation for flat plate boundary layer | Download |
| 11 | Lec 11: Laminar BL flow over flat plate: Uniform surface temperature | Download |
| 12 | Lec 12: Laminar BL flow over flat plate: Uniform surface heat flux | Download |
| 13 | Lec 13: Solution of example problems | Download |
| 14 | Lec 14: Hydrodynamic and thermal regions | Download |
| 15 | Lec 15: Energy balance in channel flow | Download |
| 16 | Lec 16: Determination of heat transfer coefficient | Download |
| 17 | Lec 17: Velocity profile in fully-developed channel flows | Download |
| 18 | Lec 18: Thermally fully developed laminar slug flow with uniform wall heat flux condition | Download |
| 19 | Lec 19: Hydrodynamically and thermally fully developed flow with uniform wall heat flux condition | Download |
| 20 | Lect 20: Fully developed flow through parallel plate channel with uniform wall temperature | Download |
| 21 | Lec 21: Fully developed flow through circular pipe with uniform wall temperature | Download |
| 22 | Lec 22: Thermally developing flow through circular pipe with uniform wall heat flux | Download |
| 23 | Lec 23: Thermally developing flow through circular pipe with uniform wall temperature | Download |
| 24 | Lec 24: Heat transfer in plane Couette flow | Download |
| 25 | Lec 25: Solutions of example problems | Download |
| 26 | Lec 26: Introduction and scale analysis | Download |
| 27 | Lec 27: Natural convection over a vertical plate: Similarity Solution | Download |
| 28 | Lec 28: Natural convection over a vertical plate: Similarity solution of energy equation | Download |
| 29 | Lec 29: Natural convection over a vertical plate: Integral solution | Download |
| 30 | Lec 30: Natural convection over inclined plate and mixed convection | Download |
| 31 | Lec 31: Natural convection inside enclosures | Download |
| 32 | Lec 32: Solution of example problems | Download |
| 33 | Lec 33: Basics of finite difference method | Download |
| 34 | Lec 34: Solution of Navier-Stokes equations | Download |
| 35 | Lec 35: Solution of energy equation | Download |
| 36 | Lec 36: Derivation of Reynolds Averaged Navier-Stokes Equations | Download |
| 37 | Lec 37: External Turbulent Flow | Download |
| 38 | Lec 38: Integral solution for turbulent boundary layer flow over a flat plate | Download |
| 39 | Lec 39: Convection in turbulent pipe flow | Download |
| 40 | Lec 40: Boiling regimes and boiling curve | Download |
| 41 | Lec 41: Laminar film condensation on a vertical plate | Download |
| 42 | Lec 42: Laminar film condensation on horizontal tube | Download |
| 43 | Lec 43: Solution of example problems | Download |
| Sl.No | Chapter Name | English |
|---|---|---|
| 1 | Lec 1: Application of convective heat transfer | Download Verified |
| 2 | Lec 2: Foundations of heat transfer | Download Verified |
| 3 | Lec 3: Derivation of energy equation | Download Verified |
| 4 | Lec 4: Derivation of boundary layer equation | Download Verified |
| 5 | Lec 5: Derivation of boundary layer energy equation | Download Verified |
| 6 | Lec 6: Blasius solution: similarity method | Download Verified |
| 7 | Lec 7: Pohlhausen solution: similarity method | Download Verified |
| 8 | Lec 8: Pohlhausen solution: heat transfer parameters | Download Verified |
| 9 | Lec 9: Falkner-Skan equation: Boundary layer flow over a wedge | Download Verified |
| 10 | Lec 10: Momentum integral equation for flat plate boundary layer | Download Verified |
| 11 | Lec 11: Laminar BL flow over flat plate: Uniform surface temperature | Download Verified |
| 12 | Lec 12: Laminar BL flow over flat plate: Uniform surface heat flux | Download Verified |
| 13 | Lec 13: Solution of example problems | Download Verified |
| 14 | Lec 14: Hydrodynamic and thermal regions | Download Verified |
| 15 | Lec 15: Energy balance in channel flow | Download Verified |
| 16 | Lec 16: Determination of heat transfer coefficient | Download Verified |
| 17 | Lec 17: Velocity profile in fully-developed channel flows | Download Verified |
| 18 | Lec 18: Thermally fully developed laminar slug flow with uniform wall heat flux condition | Download Verified |
| 19 | Lec 19: Hydrodynamically and thermally fully developed flow with uniform wall heat flux condition | Download Verified |
| 20 | Lect 20: Fully developed flow through parallel plate channel with uniform wall temperature | Download Verified |
| 21 | Lec 21: Fully developed flow through circular pipe with uniform wall temperature | Download Verified |
| 22 | Lec 22: Thermally developing flow through circular pipe with uniform wall heat flux | Download Verified |
| 23 | Lec 23: Thermally developing flow through circular pipe with uniform wall temperature | Download Verified |
| 24 | Lec 24: Heat transfer in plane Couette flow | Download Verified |
| 25 | Lec 25: Solutions of example problems | Download Verified |
| 26 | Lec 26: Introduction and scale analysis | Download Verified |
| 27 | Lec 27: Natural convection over a vertical plate: Similarity Solution | Download Verified |
| 28 | Lec 28: Natural convection over a vertical plate: Similarity solution of energy equation | Download Verified |
| 29 | Lec 29: Natural convection over a vertical plate: Integral solution | Download Verified |
| 30 | Lec 30: Natural convection over inclined plate and mixed convection | Download Verified |
| 31 | Lec 31: Natural convection inside enclosures | Download Verified |
| 32 | Lec 32: Solution of example problems | Download Verified |
| 33 | Lec 33: Basics of finite difference method | Download Verified |
| 34 | Lec 34: Solution of Navier-Stokes equations | Download Verified |
| 35 | Lec 35: Solution of energy equation | Download Verified |
| 36 | Lec 36: Derivation of Reynolds Averaged Navier-Stokes Equations | Download Verified |
| 37 | Lec 37: External Turbulent Flow | Download Verified |
| 38 | Lec 38: Integral solution for turbulent boundary layer flow over a flat plate | Download Verified |
| 39 | Lec 39: Convection in turbulent pipe flow | Download Verified |
| 40 | Lec 40: Boiling regimes and boiling curve | Download Verified |
| 41 | Lec 41: Laminar film condensation on a vertical plate | Download Verified |
| 42 | Lec 42: Laminar film condensation on horizontal tube | Download Verified |
| 43 | Lec 43: Solution of example problems | Download Verified |
| Sl.No | Language | Book link |
|---|---|---|
| 1 | English | Download |
| 2 | Bengali | Not Available |
| 3 | Gujarati | Not Available |
| 4 | Hindi | Not Available |
| 5 | Kannada | Not Available |
| 6 | Malayalam | Not Available |
| 7 | Marathi | Not Available |
| 8 | Tamil | Not Available |
| 9 | Telugu | Not Available |