Modules / Lectures
Module NameDownload
noc20_me81_assignment_Week_0noc20_me81_assignment_Week_0
noc20_me81_assignment_Week_1noc20_me81_assignment_Week_1
noc20_me81_assignment_Week_10noc20_me81_assignment_Week_10
noc20_me81_assignment_Week_11noc20_me81_assignment_Week_11
noc20_me81_assignment_Week_12noc20_me81_assignment_Week_12
noc20_me81_assignment_Week_2noc20_me81_assignment_Week_2
noc20_me81_assignment_Week_3noc20_me81_assignment_Week_3
noc20_me81_assignment_Week_4noc20_me81_assignment_Week_4
noc20_me81_assignment_Week_5noc20_me81_assignment_Week_5
noc20_me81_assignment_Week_6noc20_me81_assignment_Week_6
noc20_me81_assignment_Week_7noc20_me81_assignment_Week_7
noc20_me81_assignment_Week_8noc20_me81_assignment_Week_8
noc20_me81_assignment_Week_9noc20_me81_assignment_Week_9


Sl.No Chapter Name MP4 Download
1Lec 1: Application of convective heat transferDownload
2Lec 2: Foundations of heat transferDownload
3Lec 3: Derivation of energy equationDownload
4Lec 4: Derivation of boundary layer equationDownload
5Lec 5: Derivation of boundary layer energy equationDownload
6Lec 6: Blasius solution: similarity methodDownload
7Lec 7: Pohlhausen solution: similarity methodDownload
8Lec 8: Pohlhausen solution: heat transfer parametersDownload
9Lec 9: Falkner-Skan equation: Boundary layer flow over a wedgeDownload
10Lec 10: Momentum integral equation for flat plate boundary layerDownload
11Lec 11: Laminar BL flow over flat plate: Uniform surface temperatureDownload
12Lec 12: Laminar BL flow over flat plate: Uniform surface heat fluxDownload
13Lec 13: Solution of example problemsDownload
14Lec 14: Hydrodynamic and thermal regionsDownload
15Lec 15: Energy balance in channel flowDownload
16Lec 16: Determination of heat transfer coefficientDownload
17Lec 17: Velocity profile in fully-developed channel flowsDownload
18Lec 18: Thermally fully developed laminar slug flow with uniform wall heat flux conditionDownload
19Lec 19: Hydrodynamically and thermally fully developed flow with uniform wall heat flux conditionDownload
20Lect 20: Fully developed flow through parallel plate channel with uniform wall temperatureDownload
21Lec 21: Fully developed flow through circular pipe with uniform wall temperatureDownload
22Lec 22: Thermally developing flow through circular pipe with uniform wall heat fluxDownload
23Lec 23: Thermally developing flow through circular pipe with uniform wall temperatureDownload
24Lec 24: Heat transfer in plane Couette flowDownload
25Lec 25: Solutions of example problemsDownload
26Lec 26: Introduction and scale analysisDownload
27Lec 27: Natural convection over a vertical plate: Similarity SolutionDownload
28Lec 28: Natural convection over a vertical plate: Similarity solution of energy equationDownload
29Lec 29: Natural convection over a vertical plate: Integral solutionDownload
30Lec 30: Natural convection over inclined plate and mixed convectionDownload
31Lec 31: Natural convection inside enclosuresDownload
32Lec 32: Solution of example problemsDownload
33Lec 33: Basics of finite difference methodDownload
34Lec 34: Solution of Navier-Stokes equationsDownload
35Lec 35: Solution of energy equationDownload
36Lec 36: Derivation of Reynolds Averaged Navier-Stokes EquationsDownload
37Lec 37: External Turbulent FlowDownload
38Lec 38: Integral solution for turbulent boundary layer flow over a flat plateDownload
39Lec 39: Convection in turbulent pipe flowDownload
40Lec 40: Boiling regimes and boiling curveDownload
41Lec 41: Laminar film condensation on a vertical plateDownload
42Lec 42: Laminar film condensation on horizontal tubeDownload
43Lec 43: Solution of example problemsDownload

Sl.No Chapter Name English
1Lec 1: Application of convective heat transferDownload
To be verified
2Lec 2: Foundations of heat transferDownload
To be verified
3Lec 3: Derivation of energy equationDownload
To be verified
4Lec 4: Derivation of boundary layer equationDownload
To be verified
5Lec 5: Derivation of boundary layer energy equationDownload
To be verified
6Lec 6: Blasius solution: similarity methodDownload
To be verified
7Lec 7: Pohlhausen solution: similarity methodDownload
To be verified
8Lec 8: Pohlhausen solution: heat transfer parametersDownload
To be verified
9Lec 9: Falkner-Skan equation: Boundary layer flow over a wedgeDownload
To be verified
10Lec 10: Momentum integral equation for flat plate boundary layerDownload
To be verified
11Lec 11: Laminar BL flow over flat plate: Uniform surface temperatureDownload
To be verified
12Lec 12: Laminar BL flow over flat plate: Uniform surface heat fluxDownload
To be verified
13Lec 13: Solution of example problemsDownload
To be verified
14Lec 14: Hydrodynamic and thermal regionsDownload
To be verified
15Lec 15: Energy balance in channel flowDownload
To be verified
16Lec 16: Determination of heat transfer coefficientDownload
To be verified
17Lec 17: Velocity profile in fully-developed channel flowsDownload
To be verified
18Lec 18: Thermally fully developed laminar slug flow with uniform wall heat flux conditionDownload
To be verified
19Lec 19: Hydrodynamically and thermally fully developed flow with uniform wall heat flux conditionDownload
To be verified
20Lect 20: Fully developed flow through parallel plate channel with uniform wall temperatureDownload
To be verified
21Lec 21: Fully developed flow through circular pipe with uniform wall temperatureDownload
To be verified
22Lec 22: Thermally developing flow through circular pipe with uniform wall heat fluxDownload
To be verified
23Lec 23: Thermally developing flow through circular pipe with uniform wall temperatureDownload
To be verified
24Lec 24: Heat transfer in plane Couette flowDownload
To be verified
25Lec 25: Solutions of example problemsDownload
To be verified
26Lec 26: Introduction and scale analysisDownload
To be verified
27Lec 27: Natural convection over a vertical plate: Similarity SolutionDownload
To be verified
28Lec 28: Natural convection over a vertical plate: Similarity solution of energy equationDownload
To be verified
29Lec 29: Natural convection over a vertical plate: Integral solutionPDF unavailable
30Lec 30: Natural convection over inclined plate and mixed convectionPDF unavailable
31Lec 31: Natural convection inside enclosuresPDF unavailable
32Lec 32: Solution of example problemsPDF unavailable
33Lec 33: Basics of finite difference methodPDF unavailable
34Lec 34: Solution of Navier-Stokes equationsPDF unavailable
35Lec 35: Solution of energy equationPDF unavailable
36Lec 36: Derivation of Reynolds Averaged Navier-Stokes EquationsPDF unavailable
37Lec 37: External Turbulent FlowPDF unavailable
38Lec 38: Integral solution for turbulent boundary layer flow over a flat platePDF unavailable
39Lec 39: Convection in turbulent pipe flowPDF unavailable
40Lec 40: Boiling regimes and boiling curvePDF unavailable
41Lec 41: Laminar film condensation on a vertical platePDF unavailable
42Lec 42: Laminar film condensation on horizontal tubePDF unavailable
43Lec 43: Solution of example problemsPDF unavailable


Sl.No Language Book link
1EnglishNot Available
2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available