Material and Energy Balances

Material and Energy Balances

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Transient Material Balances

123 of 131

123 of 131

Transient Material Balances

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Material and Energy Balances

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  1. 1 General Balance for Material Balances
  2. 2 General Mass Balance on Single Tank
  3. 3 Introduction to Degrees of Freedom
  4. 4 Degree of Freedom Analysis on a Single Unit
  5. 5 Material Balance Problem Approach
  6. 6 Performing a Material Balance on a Single Unit
  7. 7 Average Molecular Weight of Mixed Stream
  8. 8 Flowchart Example
  9. 9 Liquid-Liquid Extraction Material Balance
  10. 10 Material Balance over a Crystallizer (Solubility)
  11. 11 Material Balances for a Mixing Process
  12. 12 Scaling a Material Balance
  13. 13 Water Vapor Adsorber Material Balance
  14. 14 Analysis of a Split Point
  15. 15 Degree of Freedom Analysis on Multiple Unit Process
  16. 16 Multiple Unit Material Balance: Degree of Freedom Analysis
  17. 17 Solving Material Balances on Multiple Units
  18. 18 Designing a Flowchart
  19. 19 Reactor with Recycle
  20. 20 Crystallizer Material Balance with Recycle
  21. 21 Multiple Unit Material Balance - Decaf Coffee
  22. 22 Equilibrium
  23. 23 Stoichiometry
  24. 24 Percent Excess Air
  25. 25 Chemical Equilibrium: Effect of an Inert
  26. 26 Gas Phase Chemical Equilibrium
  27. 27 Single Reaction With Recycle
  28. 28 Two Reactions (Extent of Reaction Method)
  29. 29 Fractional Conversion (Interactive)
  30. 30 Limiting Reagent (Interactive)
  31. 31 Reaction Stoichiometry (Interactive)
  32. 32 Three Methods for Reactive MEB Problems
  33. 33 Atomic Species Balances
  34. 34 Extent of Reaction for Material Balances
  35. 35 Molecular Species Balances
  36. 36 Two Reactions in a Two-Phase Reactor
  37. 37 Wet to Dry Basis
  38. 38 Dry to Wet Basis
  39. 39 Critical Properties of a Fluid (T and P)
  40. 40 Ideal Gas Law - Lung Example (BIO)
  41. 41 Standard Temperature and Pressure - Ideal Gas Law
  42. 42 Ideal Gas Mixture Characterization
  43. 43 Ideal Gas Mixtures Example
  44. 44 Ideal Gases Example Biofermentation (BIO)
  45. 45 SRK Equation of State Example
  46. 46 Compressibility Factor (Z-Factor) Equation of State
  47. 47 Pressure-Volume Diagram
  48. 48 Heat of Vaporization: Antoine's Equation
  49. 49 Heat of Vaporization: Clausius-Clapeyron
  50. 50 Gibbs Phase Rule
  51. 51 Relative and Absolute Humidity
  52. 52 Single Condensable Species Balance
  53. 53 Air/Water Vapor-Liquid Equilibrium
  54. 54 Condense Water Vapor from Air
  55. 55 Raoult's Law (Water as Condensable Component)
  56. 56 Lever Rule Derivation (P-x-y Diagram)
  57. 57 Lever Rule (Interactive)
  58. 58 Multi-condensable Species in VLE
  59. 59 Raoult's Law Explanation
  60. 60 Add Non-Volatile Component to VLE System
  61. 61 Add One Component to Binary VLE System
  62. 62 Condense a Binary Mixture
  63. 63 Phase Equilibrium: Txy Diagram
  64. 64 Binary Vapor: Partial Condensation
  65. 65 Bubble Point Calculation for Condenser
  66. 66 Dew Temperature Calculation/Excel Solver
  67. 67 P-x-y Diagram for VLE (Interactive Simulation)
  68. 68 Solving VLE Using Raoult's Law and Iterative Method Solver
  69. 69 Distillation of a Two Component Mixture Part 1
  70. 70 Distillation of a Two Component Mixture Part 2
  71. 71 Gas Stripping (Henry and Raoult's Laws)
  72. 72 Introduction to Solubility
  73. 73 Using Solubility Diagrams for Material Balances
  74. 74 Interpolating Tie Lines on a Ternary Diagram
  75. 75 Ternary Phase Diagram Basics (Interactive Simulation)
  76. 76 Plotting a Ternary Phase Diagram
  77. 77 Using a Triangular (Ternary) Phase Diagram
  78. 78 Triangular (Ternary) Phase Diagram Example
  79. 79 VLLE for Immiscible Liquids
  80. 80 Partial Pressure: Immiscible Liquids
  81. 81 Material & Energy Balances in a Reactor with Heat Exchange (Interactive Simulation)
  82. 82 Overview of Combustion Chemistry
  83. 83 Percent Excess Air (Combustion)
  84. 84 Material Balances on Complete Combustion of Methane
  85. 85 Complete and Partial Combustion of Ethane
  86. 86 Degree of Freedom Analysis of a Distillation Column (Interactive Simulation)
  87. 87 Phase Behavior on a Pressure-Volume Diagram (Interactive Simulation)
  88. 88 Compressibility Factor Chart (Interactive Simulation)
  89. 89 Using the DePriester Chart for Vapor Liquid Equilibrium (Interactive Simulation)
  90. 90 Reading Compressibility Factor Charts
  91. 91 Reading a Psychrometric Chart (Interactive Simulation)
  92. 92 Introduction to Non-Ideal Solutions
  93. 93 Water Phase Behavior on a Pressure-Temperature Diagram (Interactive Simulation)
  94. 94 Calculate Specific Volume of Water Vapor Using the Ideal Gas Law
  95. 95 Ideal Gas Properties
  96. 96 Phase Changes on a Pressure-Temperature Diagram
  97. 97 Virial Equation of State Introduction
  98. 98 Density, Specific Volume, and Specific Gravity
  99. 99 Temperature Scales
  100. 100 Basis of a Calculation
  101. 101 Bypass Example
  102. 102 Example of a Purge Process
  103. 103 Extent of Reaction
  104. 104 Fractional Conversion
  105. 105 Three Methods for Balancing Reactive Processes
  106. 106 Using Extent of Reaction for Multiple Reactions
  107. 107 Bubble and Dew Points for Binary Mixture
  108. 108 Reading Compressibility Factor Charts
  109. 109 Average Molecular Weight of a Mixed Stream
  110. 110 Calculate Mole Fractions on Wet and Dry Basis
  111. 111 Derive Equation for Boiling Point Elevation
  112. 112 Use Selectivity to Solve Reactor Mass Balances
  113. 113 Reactor With Recycle (Interactive Simulation)
  114. 114 Description of an Evaporative Crystallization Process with Recycle
  115. 115 Recycle in a Chemical Reactor
  116. 116 Recycle in a Chemical Reactor
  117. 117 Material Balances on a Crystallizer
  118. 118 Evaporative Crystallization with Recycle (Interactive Simulation)
  119. 119 Raoult's Law Example
  120. 120 Transient Material Balance Example
  121. 121 Transient Material Balance for a Solution
  122. 122 Lever Rule Example on P-x-y Diagram
  123. 123 Transient Material Balances
  124. 124 Material Balances on System with Purge
  125. 125 Material Balances on System with Recycle and Purge - Spreadsheet
  126. 126 Ideal Gas Law (Interactive Simulation)
  127. 127 System with Recycle and Purge - Example Problem
  128. 128 Single-Effect Evaporator (Interactive Simulation)
  129. 129 Mass Balances in Evaporative Crystallization (Interactive Simulation)
  130. 130 Transient Material Balances (Interactive Simulation)
  131. 131 Reactor with Recycle and Purge Stream (Interactive Simulation)

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