Thermodynamics - First and Second Laws

Thermodynamics - First and Second Laws

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Expansion in a Piston-Cylinder

38 of 125

38 of 125

Expansion in a Piston-Cylinder

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Classroom Contents

Thermodynamics - First and Second Laws

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

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