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Engineering Thermodynamics - ET

Course: B.Tech / BEGroup: Engineering Thermodynamics
Engineering Thermodynamics
AVABILITY AND IRREVERSIBILITY
THERMODYNAMIC RELATION
GAS POWER CYCLE AND VAPOUR POWER CYCLE
VAPOUR POWER CYCLE
ENGINEERING THERMODYNAMICS
Basic Concepts
Temperature Basics
Work Transfer
Displacement Work and Indicator Diagram
Other types of Work Transfer-1
Other types of Work Transfer-2
Heat Transfer
First Law for a Closed System
Enthalpy
Specific Heat at Constant Volume and Pressure and Control Volume
Mass Balance & Energy Balance in a Simple Steady Flow Process
Variable Flow Processes
Polytropic Process-1
Polytropic Process-2
Second Law of Thermodynamics
Cyclic Heat Engine
Kelvin-Planck Statement and Clausius’ Statement of Second Law
Refrigerator and Heat Pump
Reversibility, Irreversibilty and causes of Irreversibilty
Carnot Theorem, Carnot Cycle and Reversed Heat Engine
Absolute Thermodynamic Temperature Scale
Clausius’ Theorem and the Inequality of Clausius
The Property of Entropy
Temperature-Entropy Plot
Entropy Principle and its Applications-1
Entropy Principle and its Applications-2
Entropy Transfer Mechanisms
Entropy Generation in a Closed and Open System-1
Entropy Generation in a Closed and Open System-2
First and Second Laws Combined
Available Energy Referred to a Cycle
Quality of Energy
Maximum Work in a Reversible Process
Boundary Work in a Multistep Process
Work in a Reversible Process-1
Work in a Reversible Process-2
Work in a Reversible Process-3
Useful Work
Availability-1
Availability-2
Irreversibility and Gouy-Stondola Theorem
Availability or Exergy Balance
Second Law Efficiency-1
Second Law Efficiency-2
P-V diagram for Pure Substance
Pure Substance
P-T and T-S diagram for Pure Substance
Quality or Dryness Fraction
Steam Tables
Measurement of Steam Quality
Equations of State of a Gas
Ideal Gas-1
Ideal Gas-2
Ideal Gas-3
Gas Compression
Equations of State
Law of Corresponding States
Dalton’s Law of Partial Pressures and Gibbs Function
Maxwell’s Equations and TDS Equations
Difference in Heat Capacities and their Ratio
Energy Equation-1
Energy Equation-2
Energy Equation-3
Joule Kelvin Effect
Clausius Clapeyron Equation
Evaluation of Thermodynamic Properties from an Equation of State
Mixtures of Variable Composition
Types of Equilibrium
Simple Steam Power Cycle and Rankine Cycle
Actual Vapor Cycle Processes
Mean Temperature of Heat Addition and Reheat Cycle
Ideal Regenerative Cycle and Regenerative Cycle
Reheat-Regenerative Cycle and Feedwater Heaters
Characteristics of an Ideal Working Fluid in Vapor Power Cycles
Binary Vapor Cycles
Thermodynamics of Coupled Cycles
Efficiencies in Steam Power Plant
Carnot Cycle, Stirling Cycle and Ericsson Cycle
An Overview of Reciprocating Engines
Otto Cycle
Diesel Cycle and Dual Cycle
Brayton Cycle-1
Brayton Cycle-2
Aircraft Propulsion
Reversed Heat Engine
Vapor Compression Refrigeration Cycle-1
Vapor Compression Refrigeration Cycle-2
Absorption Refrigeration Cycle
Heat Pump System
Properties of Atmospheric Air
Psychrometric Chart and Process
Velocity of Pressure Pulse in a Fluid and Stagnation Properties
One Dimensional Steady Isentropic Flow and Choking-1
One Dimensional Steady Isentropic Flow and Choking-2
Normal Shocks
Work of Compression
Volumetric Efficiency
Multi-Stage Compressions
Rotary Compressor
Engineering Thermodynamics