Modules / Lectures
Module NameDownload
Assignment-1_noc18_me64_9Assignment-1_noc18_me64_9
Assignment-2_noc18_me64_15Assignment-2_noc18_me64_15
Assignment-3_noc18_me64_24Assignment-3_noc18_me64_24
Assignment-4_noc18_me64_29Assignment-4_noc18_me64_29
Assignment-5_noc18_me64_36Assignment-5_noc18_me64_36
Assignment-6_noc18_me64_50Assignment-6_noc18_me64_50
Assignment-7_noc18_me64_56Assignment-7_noc18_me64_56
Assignment-8_noc18_me64_66Assignment-8_noc18_me64_66
Assignment-9_noc18_me64_77Assignment-9_noc18_me64_77


Sl.No Chapter Name MP4 Download
1Lec 1: Introduction to hydraulic machines: classifications and operational principlesDownload
2Lec 2: Euler equation for turbomachines: net head developed by the pump/turbinesDownload
3Lec 3: Velocity triangles of pumps, effect of inlet swirl on pump operationDownload
4Lec 4: Velocity triangles of pumps, effect of inlet swirl on pump operationDownload
5Lec 5: Pump casings, Efficiencies and ProblemsDownload
6Lec 6: Pump casings, Efficiencies and Problems-IIDownload
7Lec 7: Pump casings, Efficiencies and Problems-IIIDownload
8Lec 8: Axial flow pump, HQ curve, System Resistance Curve - IDownload
9Lec 9: Axial flow pump, HQ curve, System Resistance Curve - IIDownload
10Lec 10: HQ Curve, System Resistance Curve-IDownload
11Lec 11: HQ Curve, System Resistance Curve-IIDownload
12Lec 12: Introduction to CavitationDownload
13Lec 13: Condition for Cavitation and NPSHDownload
14Lec 14: Net Positive Suction Head (NPSH)Download
15Lec 15: Suction number and Introduction to off design conditionDownload
16Lec 16: Cavitation: The effect of off-design ConditionsDownload
17Lec 17: Cavitation: Preventive MeasuresDownload
18Lec 18: Cavitation: Preventive Measures, Effect on Pump CharacteristicDownload
19Lec 19: Problems on CavitationDownload
20Lec 20: Introduction to Slip : Stodola Slip ModelDownload
21Lec 21: Departure from Euler theoryDownload
22Lec 22: Slip Velocity - IDownload
23Lec 23: Slip Velocity - IIDownload
24Lec 24: Problem on slipDownload
25Lec 25: Degree of reaction of pumpDownload
26Lec 26: Degree of reaction and axial pump designDownload
27Lec 27: Testing of radial flow pump IDownload
28Lec 28: Testing of radial flow pump IIDownload
29Lec 29: Problem on radial flow pump testingDownload
30Lec 30: Radial equilibrium of axial flow pump IDownload
31Lec 31: Radial equilibrium of axial flow pump IIDownload
32Lec 32: Pump operation: series and parallel connectionDownload
33Lec 33: Series and parallel operation of dissimilar pumpsDownload
34Lec 39: Working principle and Indicator diagram of PD pumpDownload
35Lec 40: Working principle and Indicator diagram of PD pump contd.Download
36Lec 41: Modified indicator diagram and Head-Discharge curveDownload
37Lec 42: Analysis and Head-Discharge curve of PD pumpDownload
38Lec 43: Analysis and efficiencies of PD pumpDownload
39Lec 44: Requirement of air chamber in PD pumpDownload
40Lec 45: Numerical problem on PD pump with air chamberDownload
41Lec 46: Similarity and dimensional analysis of hydraulic machinesDownload
42Lec 47: Dimensional analysis of hydraulic machines: Buckingham's theoremDownload
43Lec 48: Buckingham's theorem: Specific speed of hydraulic machinesDownload
44Lec 49: Turbine Classification and Operational principle of Pelton wheelDownload
45Lec 50: Velocity Tiangles and analysisDownload
46Lec 51: Operational Principle of Reaction turbineDownload
47Lec 52: Degree of Reaction and Introduction to axial flow turbineDownload
48Lec 53: Kaplan Turbine: Operational Principle, Turbine efficienciesDownload
49Lec 54: Draft Tube for Reaction Turbine and CavitationDownload
50Lec 55: Energy Balance and NPSHDownload
51Lec 56: Thoma Cavitation FactorDownload
52Lec 57: Reaction Turbine: Design aspects and Characteristic CurvesDownload
53Lec 58: Problems on Impulse and Reaction TurbinesDownload

Sl.No Chapter Name English
1Lec 1: Introduction to hydraulic machines: classifications and operational principlesPDF unavailable
2Lec 2: Euler equation for turbomachines: net head developed by the pump/turbinesPDF unavailable
3Lec 3: Velocity triangles of pumps, effect of inlet swirl on pump operationPDF unavailable
4Lec 4: Velocity triangles of pumps, effect of inlet swirl on pump operationPDF unavailable
5Lec 5: Pump casings, Efficiencies and ProblemsPDF unavailable
6Lec 6: Pump casings, Efficiencies and Problems-IIPDF unavailable
7Lec 7: Pump casings, Efficiencies and Problems-IIIPDF unavailable
8Lec 8: Axial flow pump, HQ curve, System Resistance Curve - IPDF unavailable
9Lec 9: Axial flow pump, HQ curve, System Resistance Curve - IIPDF unavailable
10Lec 10: HQ Curve, System Resistance Curve-IPDF unavailable
11Lec 11: HQ Curve, System Resistance Curve-IIPDF unavailable
12Lec 12: Introduction to CavitationPDF unavailable
13Lec 13: Condition for Cavitation and NPSHPDF unavailable
14Lec 14: Net Positive Suction Head (NPSH)PDF unavailable
15Lec 15: Suction number and Introduction to off design conditionPDF unavailable
16Lec 16: Cavitation: The effect of off-design ConditionsPDF unavailable
17Lec 17: Cavitation: Preventive MeasuresPDF unavailable
18Lec 18: Cavitation: Preventive Measures, Effect on Pump CharacteristicPDF unavailable
19Lec 19: Problems on CavitationPDF unavailable
20Lec 20: Introduction to Slip : Stodola Slip ModelPDF unavailable
21Lec 21: Departure from Euler theoryPDF unavailable
22Lec 22: Slip Velocity - IPDF unavailable
23Lec 23: Slip Velocity - IIPDF unavailable
24Lec 24: Problem on slipPDF unavailable
25Lec 25: Degree of reaction of pumpPDF unavailable
26Lec 26: Degree of reaction and axial pump designPDF unavailable
27Lec 27: Testing of radial flow pump IPDF unavailable
28Lec 28: Testing of radial flow pump IIPDF unavailable
29Lec 29: Problem on radial flow pump testingPDF unavailable
30Lec 30: Radial equilibrium of axial flow pump IPDF unavailable
31Lec 31: Radial equilibrium of axial flow pump IIPDF unavailable
32Lec 32: Pump operation: series and parallel connectionPDF unavailable
33Lec 33: Series and parallel operation of dissimilar pumpsPDF unavailable
34Lec 39: Working principle and Indicator diagram of PD pumpPDF unavailable
35Lec 40: Working principle and Indicator diagram of PD pump contd.PDF unavailable
36Lec 41: Modified indicator diagram and Head-Discharge curvePDF unavailable
37Lec 42: Analysis and Head-Discharge curve of PD pumpPDF unavailable
38Lec 43: Analysis and efficiencies of PD pumpPDF unavailable
39Lec 44: Requirement of air chamber in PD pumpPDF unavailable
40Lec 45: Numerical problem on PD pump with air chamberPDF unavailable
41Lec 46: Similarity and dimensional analysis of hydraulic machinesPDF unavailable
42Lec 47: Dimensional analysis of hydraulic machines: Buckingham's theoremPDF unavailable
43Lec 48: Buckingham's theorem: Specific speed of hydraulic machinesPDF unavailable
44Lec 49: Turbine Classification and Operational principle of Pelton wheelPDF unavailable
45Lec 50: Velocity Tiangles and analysisPDF unavailable
46Lec 51: Operational Principle of Reaction turbinePDF unavailable
47Lec 52: Degree of Reaction and Introduction to axial flow turbinePDF unavailable
48Lec 53: Kaplan Turbine: Operational Principle, Turbine efficienciesPDF unavailable
49Lec 54: Draft Tube for Reaction Turbine and CavitationPDF unavailable
50Lec 55: Energy Balance and NPSHPDF unavailable
51Lec 56: Thoma Cavitation FactorPDF unavailable
52Lec 57: Reaction Turbine: Design aspects and Characteristic CurvesPDF unavailable
53Lec 58: Problems on Impulse and Reaction TurbinesPDF unavailable


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