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Chemical Equilibrium: Effect of an Inert
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Classroom Contents
Kinetics-Reactor Design - Non-Isothermal Reactors
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- 1 Differences between Kinetics and Thermodynamics
- 2 Activation Energy & Arrhenius Relationship
- 3 Apparent Activation Energy
- 4 Description of the Reaction Coordinate
- 5 Heat of Reaction (from Heat of Formation)
- 6 Adiabatic Batch Reactor
- 7 Adiabatic CSTR Example
- 8 Adiabatic PFR
- 9 Adiabatic Reactor Temperature
- 10 Adiabatic Semibatch Reactor Part 1
- 11 Adiabatic Semibatch Reactor Part 2
- 12 Chemical Equilibrium: Effect of an Inert
- 13 Chemical Reactor Design: Choosing a Temperature
- 14 Endothermic Reaction in Plug Flow Reactor
- 15 Energy Balance in an Adiabatic PBR
- 16 Energy Balance on a Semibatch Reactor
- 17 Unsteady-State Adiabatic CSTR
- 18 Autothermal Reactor
- 19 CSTR Energy Balance Calculation
- 20 CSTR Energy Balances
- 21 CSTR Sizing for Equilibrium Reaction
- 22 CSTR with Heat Exchanger
- 23 Heat Removal from a Chemical Reactor
- 24 Heat Transfer Rate for a Semibatch Reactor
- 25 Multiple Reactions: Energy Balances Part 1
- 26 Multiple Reactions: Energy Balances Part 2
- 27 Non-Isothermal CSTR Balance
- 28 Adiabatic Temperature
- 29 PFR Energy Balances
- 30 Stirred Tank Reactor Energy Balances
- 31 Tubular Reactor Energy Balance: Part 1
- 32 Tubular Reactor Energy Balance: Part 2
- 33 Multiple Steady-States in CSTR with Heat Exchange
- 34 Multiple States in a CSTR: Heat Generation
- 35 Multiple Steady-States in a CSTR
- 36 Multiple Steady-States Part 1
- 37 Multiple Steady-States Part 2
- 38 Reactor Runaway/Parametric Sensitivity
- 39 Introduction to Energy Balances for Stirred Tank Reactors
- 40 Introduction to Energy Balances for Plug Flow Reactors
- 41 Energy Balance for Stirred Tank for A to B Reaction