Modules / Lectures


Sl.No Chapter Name MP4 Download
1Lec 1: First law of Thermodynamics for control mass and control volume systemsDownload
2Lec 7: Description of Steam Power Plant: Application of 1st and 2nd Laws to Different ProcessesDownload
3Lec 11: Limitations of Carnot Cycle, Simple Rankine Cycle and AnalysisDownload
4Lec 18: Multi-fluid Cycle and AnalysisDownload
5Lec: 22: Types of Boiler, Different Cycles in Boiler Operation, Boiler attachmentDownload
6Lec 29: Flow analysis of steam in nozzle: Mass flow rateDownload
7Lec 2: First law of Thermodynamics for control volume system (Flow system)Download
8Lec 8: Second Law Applied to Processes of Power Plant and Ideal Cycle of Power PlantDownload
9Lec 12: Analysis of Simple Rankine Cycle and its Design ModificationsDownload
10Lec 19: Analysis of Multi-fluid Cycle; Second Law Analysis of Steam Power CycleDownload
11Lec: 23: Cochran Boiler Operation, Boiler attachmentDownload
12Lec 30: Mass flow rate of steam in nozzle, Critical Pressure RatioDownload
13Lec 3: Steady State Steady Flow Processes, combination of First and Second LawsDownload
14Lec 9: Steam Power Plant: Thermodynamic aspects, Efficiency, Work ratio and Ideal CycleDownload
15Lec 13: Reheat Cycle and AnalysisDownload
16Lec 20: Problems of Steam Power CycleDownload
17Lec: 24: Boiler AttachmentsDownload
18Lec 31: Critical Pressure Ratio and its Physical SignificanceDownload
19Lec 4: Second Law of Thermodynamics: A Brief ReviewDownload
20Lec 10: Ideal Power Cycle and its Limitations, Introduction to Actual Power CycleDownload
21Lec 14: Reheat Cycle and Analysis - Cont.Download
22Lec 21: Problems of Steam Power Cycle - Cont.Download
23Lec: 25: Superheaters and their Arrangements, Steam Temperature ControlDownload
24Lec 32: Nozzle efficiency and factors that affect the efficiencyDownload
25Lec 5: Combined First and Second Laws Applied to ProcessesDownload
26Lec: 26: Characteristics of Convective and Radiant Superheaters; Steam Temperature ControlDownload
27Lec 33: Factors that affect the efficiency, problem on flow nozzleDownload
28Lec 6: Combined First and Second Laws: Flow and Non-Flow ProcessesDownload
29Lec: 27: Problems on Boiler/Steam GeneratorDownload
30Lec 34: Problem on flow nozzleDownload
31Lec 28: Use of nozzles in steam power plant, flow analysis of steam in nozzleDownload
32Lec 35: Steam Turbines: types and analysis using velocity trianglesDownload
33Lec 36: Analysis of Impulse Steam TurbineDownload
34Lec 37: Compounding of Steam TurbineDownload
35Lec 38: Analysis of Reaction Steam TurbineDownload
36Lec 39: Problems on Steam TurbineDownload
37Lec 40: The Role of Condenser in Power PlantDownload
38Lec 41: Cooling Tower: Types and AnalysisDownload
39Lec 42: Cooling Tower PerformanceDownload
40Lec 43: IC Engines, Classification, Different Parts, SI and CI EnginesDownload
41Lec 44: Comparison of 2-stroke and 4-stroke EnginesDownload
42Lec 45: Comparison of SI and CI Engines, Compression RatioDownload
43Lec 46: Introduction to Carburettor and Regimes of Engine OperationDownload
44Lec 47: Regimes of Engine Operation and Simple Float Type CarburettorDownload
45Week 48: Simple Float Type Carburettor and its AnalysisDownload
46Week 49: Mass Flow Rate of Fuel and limitations of Simple Float Type CarburettorDownload
47Week 50: Limitations of Simple Float Type Carburettor, Problem on CarburettionDownload
48Week 51: Engine Operating Characteristics: MEP and Indicator diagramDownload
49Week 52: Performance Analysis parameters of IC EngineDownload
50Week 53: Fuel of IC EnginesDownload
51Week 54: Alternative Fuels and Self Ignition Characteristics of Fuel: Octane Numner, Cetane NumberDownload
52Lec 55: Thermodynamic Analysis of SI EngineDownload
53Lec 56: Thermodynamic Analysis of CI EngineDownload
54Lec 57: Numerical Problems on Engine PerformanceDownload
55Lec 58: Pressure-Crank angle diagram, Engine EfficienciesDownload
56Lec 59: Numerical Problems on SI and CI EnginesDownload
57Lec 60: Vapour Compression Refrigeration Cycle and its analysisDownload
58Lec 61: Problems on Vapour Compression Refrigeration CycleDownload
59Lec 62: Gas Turbine Units and Thermodynamic CyclesDownload
60Lec 63: Gas Compressor and Optimum Pressure RatioDownload
61Lec 64: Compressor Efficiency and Multistage Compression with IntercoolingDownload
62Lec 65: Gas Turbine Unit: Combined CycleDownload
63Lec 66: Problems On Gas Turbine CycleDownload

Sl.No Chapter Name English
1Lec 1: First law of Thermodynamics for control mass and control volume systemsPDF unavailable
2Lec 7: Description of Steam Power Plant: Application of 1st and 2nd Laws to Different ProcessesPDF unavailable
3Lec 11: Limitations of Carnot Cycle, Simple Rankine Cycle and AnalysisPDF unavailable
4Lec 18: Multi-fluid Cycle and AnalysisPDF unavailable
5Lec: 22: Types of Boiler, Different Cycles in Boiler Operation, Boiler attachmentPDF unavailable
6Lec 29: Flow analysis of steam in nozzle: Mass flow ratePDF unavailable
7Lec 2: First law of Thermodynamics for control volume system (Flow system)PDF unavailable
8Lec 8: Second Law Applied to Processes of Power Plant and Ideal Cycle of Power PlantPDF unavailable
9Lec 12: Analysis of Simple Rankine Cycle and its Design ModificationsPDF unavailable
10Lec 19: Analysis of Multi-fluid Cycle; Second Law Analysis of Steam Power CyclePDF unavailable
11Lec: 23: Cochran Boiler Operation, Boiler attachmentPDF unavailable
12Lec 30: Mass flow rate of steam in nozzle, Critical Pressure RatioPDF unavailable
13Lec 3: Steady State Steady Flow Processes, combination of First and Second LawsPDF unavailable
14Lec 9: Steam Power Plant: Thermodynamic aspects, Efficiency, Work ratio and Ideal CyclePDF unavailable
15Lec 13: Reheat Cycle and AnalysisPDF unavailable
16Lec 20: Problems of Steam Power CyclePDF unavailable
17Lec: 24: Boiler AttachmentsPDF unavailable
18Lec 31: Critical Pressure Ratio and its Physical SignificancePDF unavailable
19Lec 4: Second Law of Thermodynamics: A Brief ReviewPDF unavailable
20Lec 10: Ideal Power Cycle and its Limitations, Introduction to Actual Power CyclePDF unavailable
21Lec 14: Reheat Cycle and Analysis - Cont.PDF unavailable
22Lec 21: Problems of Steam Power Cycle - Cont.PDF unavailable
23Lec: 25: Superheaters and their Arrangements, Steam Temperature ControlPDF unavailable
24Lec 32: Nozzle efficiency and factors that affect the efficiencyPDF unavailable
25Lec 5: Combined First and Second Laws Applied to ProcessesPDF unavailable
26Lec: 26: Characteristics of Convective and Radiant Superheaters; Steam Temperature ControlPDF unavailable
27Lec 33: Factors that affect the efficiency, problem on flow nozzlePDF unavailable
28Lec 6: Combined First and Second Laws: Flow and Non-Flow ProcessesPDF unavailable
29Lec: 27: Problems on Boiler/Steam GeneratorPDF unavailable
30Lec 34: Problem on flow nozzlePDF unavailable
31Lec 28: Use of nozzles in steam power plant, flow analysis of steam in nozzlePDF unavailable
32Lec 35: Steam Turbines: types and analysis using velocity trianglesPDF unavailable
33Lec 36: Analysis of Impulse Steam TurbinePDF unavailable
34Lec 37: Compounding of Steam TurbinePDF unavailable
35Lec 38: Analysis of Reaction Steam TurbinePDF unavailable
36Lec 39: Problems on Steam TurbinePDF unavailable
37Lec 40: The Role of Condenser in Power PlantPDF unavailable
38Lec 41: Cooling Tower: Types and AnalysisPDF unavailable
39Lec 42: Cooling Tower PerformancePDF unavailable
40Lec 43: IC Engines, Classification, Different Parts, SI and CI EnginesPDF unavailable
41Lec 44: Comparison of 2-stroke and 4-stroke EnginesPDF unavailable
42Lec 45: Comparison of SI and CI Engines, Compression RatioPDF unavailable
43Lec 46: Introduction to Carburettor and Regimes of Engine OperationPDF unavailable
44Lec 47: Regimes of Engine Operation and Simple Float Type CarburettorPDF unavailable
45Week 48: Simple Float Type Carburettor and its AnalysisPDF unavailable
46Week 49: Mass Flow Rate of Fuel and limitations of Simple Float Type CarburettorPDF unavailable
47Week 50: Limitations of Simple Float Type Carburettor, Problem on CarburettionPDF unavailable
48Week 51: Engine Operating Characteristics: MEP and Indicator diagramPDF unavailable
49Week 52: Performance Analysis parameters of IC EnginePDF unavailable
50Week 53: Fuel of IC EnginesPDF unavailable
51Week 54: Alternative Fuels and Self Ignition Characteristics of Fuel: Octane Numner, Cetane NumberPDF unavailable
52Lec 55: Thermodynamic Analysis of SI EnginePDF unavailable
53Lec 56: Thermodynamic Analysis of CI EnginePDF unavailable
54Lec 57: Numerical Problems on Engine PerformancePDF unavailable
55Lec 58: Pressure-Crank angle diagram, Engine EfficienciesPDF unavailable
56Lec 59: Numerical Problems on SI and CI EnginesPDF unavailable
57Lec 60: Vapour Compression Refrigeration Cycle and its analysisPDF unavailable
58Lec 61: Problems on Vapour Compression Refrigeration CyclePDF unavailable
59Lec 62: Gas Turbine Units and Thermodynamic CyclesPDF unavailable
60Lec 63: Gas Compressor and Optimum Pressure RatioPDF unavailable
61Lec 64: Compressor Efficiency and Multistage Compression with IntercoolingPDF unavailable
62Lec 65: Gas Turbine Unit: Combined CyclePDF unavailable
63Lec 66: Problems On Gas Turbine CyclePDF unavailable


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