MEB - Energy Balances

MEB - Energy Balances

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Introduction to Energy

1 of 80

1 of 80

Introduction to Energy

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MEB - Energy Balances

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  1. 1 Introduction to Energy
  2. 2 Open and Closed Systems
  3. 3 Problem Solving Approach
  4. 4 What is Enthalpy?
  5. 5 Adiabatic Compression of an Ideal Gas
  6. 6 Enthalpy Change for an Ideal Gas
  7. 7 Energy Balance on a Human
  8. 8 Gas Expansion From a Tank
  9. 9 Energy Balance on Open System (PAV Device) (BIO)
  10. 10 Material & Energy Balances in a Reactor with Heat Exchange (Interactive Simulation)
  11. 11 How to Use Steam Tables
  12. 12 Introduction to Steam Tables
  13. 13 Introduction to Steam Tables 2
  14. 14 Steam Tables: Interpolation
  15. 15 Steam Table Examples
  16. 16 Compare Steam Tables to Ideal Gas Law
  17. 17 Water Properties from Steam Tables
  18. 18 Steam Tables: Constant Volume Process
  19. 19 Quality of Steam
  20. 20 Quality of Steam: Mass and Volume Fractions
  21. 21 Steam Tables: Calculating Quality
  22. 22 Energy Balance on a Heat Exchanger
  23. 23 Throttle Example: High-Pressure Liquid
  24. 24 Bernoulli Equation Example
  25. 25 Reference States for Enthalpy Calculations
  26. 26 Choosing a Reference State (Example)
  27. 27 Sensible Heat from Specific Enthalpy
  28. 28 How to Use a Psychrometric (Humidity) Chart
  29. 29 Psychrometric Chart Examples
  30. 30 Psychrometric Chart (Interactive Simulation)
  31. 31 Calculate Physical Properties using Humidity Charts
  32. 32 Humidity Chart: Adiabatic Humidification
  33. 33 Humidity Chart Example
  34. 34 Including a Phase Change in an Energy Balance
  35. 35 Latent Heat
  36. 36 Energy Balance on a Condenser
  37. 37 Adiabatic Mixing
  38. 38 Heat of Mixing
  39. 39 Isothermal Mixing
  40. 40 Heat of Reaction (from Heat of Formation)
  41. 41 Calculating Enthalpy Changes Using Heat of Reaction Method
  42. 42 Heat Removal from a Chemical Reactor
  43. 43 Heat of Combustion
  44. 44 Heats of Formation
  45. 45 Calculating Enthalpy Changes Using Heats of Formation Method
  46. 46 Thermochemistry of Solutions
  47. 47 Energy Balances with Unknown Outlet Conditions
  48. 48 Steam Reformer Material and Energy Balance
  49. 49 Unsteady-State Energy Balance (Steam Tables)
  50. 50 Properties of Liquid Water in Steam Tables
  51. 51 Throttle High-Pressure Liquid Water
  52. 52 Hess's Law
  53. 53 Heat of Combustion
  54. 54 Introduction to Energy
  55. 55 Open and Closed Systems
  56. 56 Changes in Pressure at Constant Temperature
  57. 57 Energy Balance on a Single-Phase System
  58. 58 Energy Balance on a Two-Component System with Phase Change
  59. 59 Hypothetical Process Paths
  60. 60 Adiabatic Flame Temperature Spreadsheet
  61. 61 Use Heat Capacity to Calculate Outlet Temperature
  62. 62 Calculate Heat Added Example
  63. 63 Calculate Heat of Reaction at an Elevated Temperature
  64. 64 How to Determine Heat of Reaction from Heat of Formation
  65. 65 Heat Capacity Introduction
  66. 66 Calculate Adiabatic Flame Temperature
  67. 67 Adiabatic Flame Temperature Introduction
  68. 68 Heat of Mixing and Deviations from Raoult's Law
  69. 69 Calculating Enthalpy and Entropy Using the NIST WebBook
  70. 70 Energy Balance on Reaction System Using Heat of Reaction
  71. 71 Energy Balance on Reaction System Using Heat of Formation
  72. 72 Introduction to the Mechanical Energy Balance Equation
  73. 73 Determine Height of Water Using Bernoulli Equation
  74. 74 Calculate Flow Rate Using Bernoulli Equation
  75. 75 Bernoulli Equation and Pipe Flow (Interactive Simulation)
  76. 76 Measuring Flow Rates with a Pitot Tube (Interactive Simulation)
  77. 77 Why a Solute Raises Boiling Point and Lowers Freezing Point
  78. 78 Adiabatic Flame Temperature Interactive Simulation
  79. 79 Ideal Gas - Pressure and Volume Dependence on Temperature
  80. 80 Heat of Reaction Temperature Dependence (Interactive Simulation)

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