Thermodynamics & Power Plant

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Thermodynamics is the branch of science concerned with heat and temperature and their relation to energy and work. It states that the behavior of these quantities is governed by the four laws of thermodynamics, irrespective of the composition or specific properties of the material or system in question. These video classes have been developed based on the latest GATE syllabus and will be useful for Mechanical Engineering students as well as for GATE exams preparation.

  • Introduction of Thermodynamics
    • Thermodynamics & Power Plant
    • Introduction To Thermodynamics
    • Thermodynamic System
    • Thermodynamic Surroundings
    • Macroscopic & Microscopic Point Of View
    • Property Of A Systems
    • State Of A System Process Cycle
    • Path & Point Function
    • Quasi Static Process
  • Zeroth Law of Thermodynamics
    • Zeroth Law Introduction
    • Liquid In Glass Thermometer
    • Constant Volume Gas Thermometer
    • Thermo Couple
  • Work & Heat Transfer
    • Work & Heat Transfer
    • Displacement Work
    • Displacement Work Example
  • First Law of Thermodynamics
    • First Law Of Thermodynamics
    • Isobaric Process
    • Isochoric Process
    • Isothermal Process
    • Adiabatic Process
    • First Law Of Thermodynamics Example 1
    • First Law Of Thermodynamics Example 2
    • Flow Process In Flow Work
    • Energy Balance In Study Flow Process
    • SFEE Application On Nozzles And Diffuser
    • SFEE Application On Steam And Gas Turbine
    • SFEE Application On Compressor
    • SFEE Application On Throttling Device
    • SFEE Numerical Example 1
    • SFEE Numerical Example 2
    • Transient Flow Process
    • Transient Flow Process Example
  • Second Law of Thermodynamics
    • Second Law Thermodynamics
    • Heat Engine
    • Heat Pump & Refrigerator
    • Heat Engine Numerical Example
    • Carnot Cycle
    • Efficiency Of Carnot Cycle
    • Refrigerator Numerical Example 1
    • Refrigerator Numerical Example 2
    • Kelvin Planck And Clausius Statement
  • Entropy
    • Introduction Of Entropy
    • Two Reversible Adiabatics Cannot Intersect
    • Clausius Theorem
    • Clausius Inequality
    • Entropy As A System Property
    • Change Of Entropy In Reversible Process
    • Increase Of Entropy Principle
    • Clausius Inequality Example 1
    • Clausius Inequality Example 2
    • Entropy Balance
    • Entropy Example 1
    • Entropy Example 2
    • Entropy Example 3
  • Availability
    • Availability & Available Energy
    • Available Energy
    • Useful Work
    • Availability Of Energy Entering A System
    • Availability Of A System
    • Availability Of A Closed System & Steady Flow System
    • Second Law Efficiency
    • Availability Numerical Example 1
    • Availability Numerical Example 2
  • Thermodynamic Relation
    • Helmholtz Gibbs Function Gibbsian Equation
    • Maxwells Relations
    • Volumetric Expansivity Isothermal Compressibility And Isentropic Compressibility
    • Change In Internal Energy
    • Change In Enthalpy
    • Clausius Clapeyron Equation
  • Pure Substances
    • Introduction Of Pure Substances
    • Phases Of Pure Substances
    • Phase Change Phenomena Of Pure Substances
    • Saturation Temperature & Saturation Pressure
    • T V Diagram
    • P T Diagram
    • P V Diagram
    • Critical Point & Triple Point
    • Temperature Entropy Diagram
    • Enthalpy Entropy Diagram
  • Gas Power Cycle
    • Carnot Gas Power Cycle
    • Stirling Cycle
    • Ericsson Cycle
    • Otto Cycle
    • Diesel Cycle
    • Otto Cycle Numerical Example
    • Diesel Cycle Numerical Example
    • Brayton Cycle
    • Brayton Cycle Numerical Example
  • Vapour Power Cycle
    • Introduction Of Vapour Power Cycle
    • Carnot Vapour Power Cycle
    • Rankine Cycle
    • Reheat Cycle
    • Reheat Factor
    • Regenerative Cycle
  • Internal Cumbustion Engine
    • Internal Combustion Engines
    • Components Of An IC Engine
    • Air Fuel Mixture
    • Performance Of IC Engine
    • Indicated Power Brake Power Friction Power
    • Fuel Consumption
    • Air Consumption
    • Efficiency Of IC Engine
    • IC Engine Numerical Example 1
    • IC Engine Numerical Example 2
  • Reciprocating Air Compressor
    • Introduction Of Reciprocating Air Compressor
    • Important Terms Of Reciprocating Air Compressor
    • Construction Of Reciprocating Air Compressor
    • Indicated Work For A Single Acting Compressor
    • Mean Effective Pressure
    • Reciprocating Air Compressor Example
  • Rotary Air Compressor
    • Introduction To Rotary Compressors
    • Roots Blower
    • Roots Blower Example
    • Vane Type Compressor
    • Vane Type Compressor Example
    • Construction Of Centrifugal Compressor
    • Velocity Diagram
    • Degree Of Reaction
    • Losses In Centrifugal Compressor
    • Centrifugal Compressor Example 1
    • Centrifugal Compressor Example 2
    • Centrifugal Compressor Example 3
  • Turbine
    • Turbine
    • Energy Transfer In Axial Flow Turbine
    • Velocity Diagram For Axial Flow Turbines
  • Previous Years GATE Questions & Answers
    • First GATE Question
    • Second GATE Question
    • Third GATE Question
    • Fourth GATE Question
    • Fifth GATE Question
    • Sixth GATE Question
    • Seventh GATE Question
    • Eighth GATE Question
    • Ninth GATE Question
    • Tenth GATE Question
    • Eleventh GATE Question
    • Twelfth GATE Question
    • Thirteenth GATE Question
    • Fourteenth GATE Question
    • Fifteenth GATE Question
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