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Kinetics - Reactor Design: Multiple Reactions

Offered By: YouTube

Tags

Chemical Engineering Courses Equilibrium Courses Kinetics Courses Reactor Design Courses

Course Description

Overview

Explore a comprehensive series of screencasts delving into advanced kinetics and reactor design concepts, focusing on multiple reactions. Learn about selectivity and equilibrium, reactor behavior with multiple reactions, and parallel and series reactions. Gain insights into determining rate constants from selectivity, understanding elementary reactions, and analyzing various types of chemical equilibrium. Study the application of these concepts in different reactor types, including batch reactors, continuous stirred-tank reactors (CSTRs), packed bed reactors (PBRs), and semibatch reactors. Examine specific topics such as the predator-prey model, reversible reactions, and isothermal conditions. Enhance your understanding of chemical engineering principles through practical examples and in-depth explanations. Benefit from corrected closed captioning available for all screencasts in this educational playlist.

Syllabus

Determining Rate Constants from Selectivity.
Elementary Reactions.
Gas Phase Chemical Equilibrium.
Inert Effect on Chemical Equilibrium.
Predator-Prey Model.
Relationship Between the Equilibrium Constants.
Reverse Reaction Rate.
Reversible Non-Elementary Reaction.
Solid-Liquid Chemical Equilibrium.
Batch Reactor with Multiple Reactions.
Batch Reactor with Reversible Reaction.
Isothermal Semibatch Reactor with Multiple Reactions.
Mass Balance for Reversible Reactions in a Batch Reactor.
Multiple Reactions in a CSTR.
Multiple Reactions in an Isothermal CSTR.
Multiple Reactions in PBR Part 1.
Multiple Reactions in PBR Part 2.
Packed Bed Reactor Design.
Selectivity in a Semibatch Reactor.
Semibatch Reactor with Heat Exchange.
Parallel Reactions in a Batch Reactor.
Selectivity in Parallel Reactions.
Series Reaction in a Batch Reactor.
Selectivity in Series Reactions.
Series Reaction in a Plug Flow Reactor.
Packed Bed Reactor Example.


Taught by

LearnChemE

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