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Effectiveness Factor for Single Catalyst Pore
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Classroom Contents
Kinetics - Reactor Design: Kinetic Mechanisms
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- 1 Chain Growth Polymerization
- 2 Chain Reaction Mechanism
- 3 Using Steady-State Approximation to Determine Rate Expressions
- 4 Steady-State Approximation 2
- 5 Steady-State Approximation vs Rate-Determining Step
- 6 Diffusion and Bulk Flow for Catalytic Reaction
- 7 Diffusion and Reaction in a Cylindrical Porous Catalyst
- 8 Effectiveness Factor for a Spherical Catalyst
- 9 Effectiveness Factor for Single Catalyst Pore
- 10 Mass Transfer in a Catalyst Sphere
- 11 Enzyme Mechanism: Rate Derivation
- 12 Enzyme Reactions in a CSTR (Bio)
- 13 Michaelis-Menten Introduction
- 14 Michaelis-Menten Kinetics in a CSTR
- 15 Michaelis-Menten Parameters from Differential Reactor Data
- 16 Michaelis-Menten: Competitive Inhibition
- 17 Polymerization in a CSTR Part 1
- 18 Polymerization in a CSTR Part 2
- 19 Polymerization in a CSTR Part 3
- 20 Derivation of Michaelis-Menten Kinetics
- 21 Derivation of Enzyme Kinetics for Competitive Inhibition
- 22 Derivation of Enzyme Kinetics for Noncompetitive Inhibition
- 23 Derivation of Enzyme Kinetics for Uncompetitive Inhibition