Kinetics - Reactor Design: Kinetic Mechanisms
Offered By: YouTube
Course Description
Overview
Syllabus
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.
Taught by
LearnChemE
Related Courses
Advanced Biobased ConversionWageningen University via edX Biobased Sciences for Sustainability Capstone
Wageningen University via edX Fundamentals of Nuclear Power Generation
Indian Institute of Technology Guwahati via Swayam Capstone Chemistry and Technology for Sustainability
Wageningen University via edX Catalytic Conversions for Biobased Chemicals and Products
Wageningen University via edX