Media Storage Type : 32 GB USB Stick
NPTEL Subject Matter Expert : Prof. Pranab K. Mondal
NPTEL Co-ordinating Institute : IIT Guwahati
NPTEL Lecture Count : 66
NPTEL Course Size : 12 GB
NPTEL PDF Text Transcription : Available and Included
NPTEL Subtitle Transcription : Available and Included (SRT)
Lecture Titles:
Lecture 1 - First law of Thermodynamics for control mass and control volume systems
Lecture 2 - First law of Thermodynamics for control volume system (Flow system)
Lecture 3 - Steady State Steady Flow Processes, combination of First and Second Laws
Lecture 4 - Second Law of Thermodynamics: A Brief Review
Lecture 5 - Combined First and Second Laws Applied to Processes
Lecture 6 - Combined First and Second Laws: Flow and Non-Flow Processes
Lecture 7 - Description of Steam Power Plant: Application of 1st and 2nd Laws to Different Processes
Lecture 8 - Second Law Applied to Processes of Power Plant and Ideal Cycle of Power Plant
Lecture 9 - Steam Power Plant: Thermodynamic aspects, Efficiency, Work ratio and Ideal Cycle
Lecture 10 - Ideal Power Cycle and its Limitations, Introduction to Actual Power Cycle
Lecture 11 - Limitations of Carnot Cycle, Simple Rankine Cycle and Analysis
Lecture 12 - Analysis of Simple Rankine Cycle and its Design Modifications
Lecture 13 - Reheat Cycle and Analysis
Lecture 14 - Reheat Cycle and Analysis (Continued...)
Lecture 15 - Regenerative Principle of Steam Power Cycles
Lecture 16 - Analysis of Regenerative Steam Power Cycles
Lecture 17 - Regenerative Steam Power Cycle with Closed Feed-Water Heater, Ideal Working Fluid
Lecture 18 - Multi-fluid Cycle and Analysis
Lecture 19 - Analysis of Multi-fluid Cycle; Second Law Analysis of Steam Power Cycle
Lecture 20 - Problems of Steam Power Cycle
Lecture 21 - Problems of Steam Power Cycle (Continued...)
Lecture 22 - Types of Boiler, Different Cycles in Boiler Operation, Boiler attachment
Lecture 23 - Cochran Boiler Operation, Boiler attachment
Lecture 24 - Boiler Attachments
Lecture 25 - Superheaters and their Arrangements, Steam Temperature Control
Lecture 26 - Characteristics of Convective and Radiant Superheaters; Steam Temperature Control
Lecture 27 - Problems on Boiler/Steam Generator
Lecture 28 - Use of nozzles in steam power plant, flow analysis of steam in nozzle
Lecture 29 - Flow analysis of steam in nozzle: Mass flow rate
Lecture 30 - Mass flow rate of steam in nozzle, Critical Pressure Ratio
Lecture 31 - Critical Pressure Ratio and its Physical Significance
Lecture 32 - Nozzle efficiency and factors that affect the efficiency
Lecture 33 - Factors that affect the efficiency, problem on flow nozzle
Lecture 34 - Problem on flow nozzle
Lecture 35 - Steam Turbines: types and analysis using velocity triangles
Lecture 36 - Analysis of Impulse Steam Turbine
Lecture 37 - Compounding of Steam Turbine
Lecture 38 - Analysis of Reaction Steam Turbine
Lecture 39 - Problems on Steam Turbine
Lecture 40 - The Role of Condenser in Power Plant
Lecture 41 - Cooling Tower: Types and Analysis
Lecture 42 - Cooling Tower Performance
Lecture 43 - IC Engines, Classification, Different Parts, SI and CI Engines
Lecture 44 - Comparison of 2-stroke and 4-stroke Engines
Lecture 45 - Comparison of SI and CI Engines, Compression Ratio
Lecture 46 - Introduction to Carburettor and Regimes of Engine Operation
Lecture 47 - Regimes of Engine Operation and Simple Float Type Carburettor
Lecture 48 - Simple Float Type Carburettor and its Analysis
Lecture 49 - Mass Flow Rate of Fuel and limitations of Simple Float Type Carburettor
Lecture 50 - Limitations of Simple Float Type Carburettor, Problem on Carburettion
Lecture 51 - Engine Operating Characteristics: MEP and Indicator diagram
Lecture 52 - Performance Analysis parameters of IC Engine
Lecture 53 - Fuel of IC Engines
Lecture 54 - Alternative Fuels and Self Ignition Characteristics of Fuel: Octane Numner, Cetane Number
Lecture 55 - Thermodynamic Analysis of SI Engine
Lecture 56 - Thermodynamic Analysis of CI Engine
Lecture 57 - Numerical Problems on Engine Performance
Lecture 58 - Pressure-Crank angle diagram, Engine Efficiencies
Lecture 59 - Numerical Problems on SI and CI Engines
Lecture 60 - Vapour Compression Refrigeration Cycle and its analysis
Lecture 61 - Problems on Vapour Compression Refrigeration Cycle
Lecture 62 - Gas Turbine Units and Thermodynamic Cycles
Lecture 63 - Gas Compressor and Optimum Pressure Ratio
Lecture 64 - Compressor Efficiency and Multistage Compression with Intercooling
Lecture 65 - Gas Turbine Unit: Combined Cycle
Lecture 66 - Problems On Gas Turbine Cycle