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Thermodynamics Introduction
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Classroom Contents
Thermodynamics - First and Second Laws
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- 1 Thermodynamics Introduction
- 2 Quality of Steam
- 3 Quality of Steam: Mass and Volume Fractions
- 4 Liquid Pressure Dependence
- 5 Pressure-Temperature Diagram
- 6 Pressure-Volume Diagram
- 7 Pressure-temperature Diagram for a single-component system
- 8 The Critical Point
- 9 Air/Water Vapor-Liquid Equilibrium
- 10 Heat Two Phases at Constant Volume
- 11 Linear Interpolation
- 12 Advanced Interpolation
- 13 Introduction to Steam Tables
- 14 Introduction to Steam Tables 2
- 15 Steam Tables: Calculating Quality
- 16 Steam Tables: Interpolation
- 17 Steam Tables: Constant Volume Process
- 18 Water Properties from Steam Tables
- 19 Compare Steam Tables to Ideal Gas Law
- 20 Internal Energy Introduction
- 21 Flow Work
- 22 State Function Explanation
- 23 Gas Expansion From a Tank
- 24 Problem Solving Approach
- 25 Energy Balance: Steam Tables
- 26 What is Enthalpy?
- 27 Enthalpy Dependence on Pressure
- 28 Pressure-Enthalpy Diagram
- 29 Energy Balance Around a Turbine
- 30 Throttle Temperature Change
- 31 Heat Removal to Condense a Vapor Mixture
- 32 Energy Balance On a Closed System
- 33 Energy Balance on a Heat Exchanger
- 34 Energy Balance on a Human
- 35 Calculate Work for Reversible and Irreversible Expansion/Compression
- 36 Adiabatic Compression of an Ideal Gas
- 37 Adiabatic Compression/Expansion: Enthalpy-Entropy Diagram
- 38 Expansion in a Piston-Cylinder
- 39 Enthalpy Change for an Ideal Gas
- 40 Isothermal Ideal Gas Compression
- 41 Reversible Adiabatic Compression of Ideal Gas
- 42 What is Evaporative Cooling?
- 43 Evaporative Cooling Energy Balance
- 44 Unsteady-State Energy Balance (Steam Tables)
- 45 Unsteady-State Energy Balance (Filling an Empty Tank)
- 46 Unsteady-State Energy Balance (Filling a Tank Containing N2)
- 47 Work and Enthalpy Misunderstandings
- 48 Carnot Heat Engine Calculations
- 49 Heat Engine Introduction
- 50 Minimum Work to Cool a Liquid
- 51 Carnot Heat Pump
- 52 Adiabatic Mixing Temperature
- 53 Heat of Mixing
- 54 Enthalpy Balance on a Tubular Reactor
- 55 Energy Balance on a Semibatch Reactor
- 56 Heat of Reaction (from Heat of Formation)
- 57 Adiabatic Temperature
- 58 Heat Removal from a Chemical Reactor
- 59 Entropy Change: Gas Mixture
- 60 Entropy: 2 Explanations
- 61 T-S and P-H Diagrams
- 62 Second Law Application
- 63 Adiabatic Expansion of Steam
- 64 Entropy Change: Ideal Gas
- 65 Entropy Change for Ideal Gas Expansion
- 66 Entropy Change for a Supercooled Liquid
- 67 Second Law of Thermodynamics: Hilsch Tube
- 68 Throttle Example: High-Pressure Liquid
- 69 Throttle Energy Balance: Real Gas
- 70 Energy Balance on a Throttling Fluid
- 71 Compressor Efficiency
- 72 Solving a Steam Turbine Problem
- 73 Maximum Work from a Turbine
- 74 Power Cycle Introduction
- 75 Refrigeration Cycle Introduction
- 76 Freon-12 Refrigeration Cycle
- 77 Joule-Thomson Expansion
- 78 Acceleration of an Airplane by a Turbojet Engine
- 79 Otto Cycle: Gas Engine Power Output
- 80 COSMOtherm: Vapor Pressures
- 81 Energy Balance on a Liquid Pump
- 82 Cogeneration (Cogen): Closed System
- 83 Properties of Liquid Water in Steam Tables
- 84 Reversible and Irreversible Processes
- 85 Calculate Water Fugacity From Steam Tables
- 86 Temperature Dependence of Gibbs Free Energy and Fugacity
- 87 Using "What If" Data Table in Excel
- 88 Balances for an Adiabatic Flash Drum
- 89 How To Calculate Entropy Changes: Ideal Gases
- 90 How To Calculate Entropy Changes: Liquids, Solids, and Phase Changes
- 91 How To Calculate Entropy Changes: Mixing Ideal Gases
- 92 Second Law of Thermodynamics
- 93 State Function: Heat of Reaction
- 94 Introduction to First Law: Open Systems
- 95 Ideal Gas Properties
- 96 Adiabatic Reversible Process For Ideal Gas
- 97 Introduction to First Law: Closed System
- 98 Introduction to Single-Component Fugacity
- 99 Rankine Cycle Examples
- 100 Rankine Cycle Example 1
- 101 Throttle High-Pressure Liquid Water
- 102 Pressure-Enthalpy Diagram For Rankine Cycle
- 103 Expand Gas from One Tank to an Empty Tank
- 104 Clapeyron Equation for Solid-Liquid Equiliubrium
- 105 Phase Changes on a Pressure-Temperature Diagram
- 106 Use Heat Capacity to Calculate Outlet Temperature
- 107 Calculate Heat of Reaction at an Elevated Temperature
- 108 How to Determine Heat of Reaction from Heat of Formation
- 109 Calculate Adiabatic Flame Temperature
- 110 Adiabatic Flame Temperature Introduction
- 111 Heat of Mixing and Deviations from Raoult's Law
- 112 Calculate Gibbs Free Energy Change for a Reaction at Elevated Temperature
- 113 Gibbs Free Energy of Reaction Spreadsheet
- 114 Chemical Equilibrium Using Gibbs Minimization: Example
- 115 Gibbs Free Energy of a Chemical Reaction as a Function of Temperature
- 116 Irreversible Adiabatic Expansion: Temperature vs. Entropy
- 117 Carnot Cycle Example
- 118 Chemical Potential Pressure Dependence Example
- 119 Refrigeration Cycle Example
- 120 Determine if Mixture Exhibits Phase Separation
- 121 Ideal Gas - Pressure and Volume Dependence on Temperature
- 122 Ideal Gas Law (Interactive Simulation)
- 123 Using a Pressure-Enthalpy Diagram for Water
- 124 Using a Temperature-Entropy Diagram for Water
- 125 Heat of Reaction Temperature Dependence (Interactive Simulation)
