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Chain Growth Polymerization

Chain Reaction Mechanism

Using Steady-State Approximation to Determine Rate Expressions

Steady-State Approximation 2

Steady-State Approximation vs Rate-Determining Step

Diffusion and Bulk Flow for Catalytic Reaction

Diffusion and Reaction in a Cylindrical Porous Catalyst

Effectiveness Factor for a Spherical Catalyst

Effectiveness Factor for Single Catalyst Pore

Mass Transfer in a Catalyst Sphere

Enzyme Mechanism: Rate Derivation

Enzyme Reactions in a CSTR (Bio)

Michaelis-Menten Introduction

Michaelis-Menten Kinetics in a CSTR

Michaelis-Menten Parameters from Differential Reactor Data

Michaelis-Menten: Competitive Inhibition

Polymerization in a CSTR Part 1

Polymerization in a CSTR Part 2

Polymerization in a CSTR Part 3

Derivation of Michaelis-Menten Kinetics

Derivation of Enzyme Kinetics for Competitive Inhibition

Derivation of Enzyme Kinetics for Noncompetitive Inhibition

Derivation of Enzyme Kinetics for Uncompetitive Inhibition

Description:

Explore a comprehensive series of screencasts on kinetic mechanisms in reactor design, covering topics such as deriving mechanisms, diffusion and reaction, bioreactions, and polymerization. Delve into chain growth polymerization, steady-state approximation techniques, and diffusion in catalytic reactions. Learn about enzyme mechanisms, Michaelis-Menten kinetics, and various types of enzyme inhibition. Examine polymerization processes in continuous stirred-tank reactors (CSTRs) through multiple parts. Benefit from corrected closed captioning available for all screencasts in this playlist, enhancing accessibility and understanding of complex concepts in chemical engineering kinetics and reactor design.

Kinetics - Reactor Design: Kinetic Mechanisms

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#Engineering #Chemical Engineering #Science #Physics #Kinetics #Computer Science #Machine Learning #Diffusion Models #Diffusion #Reactor Design

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