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