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Kinetics - Reactor Design Review

Offered By: YouTube

Tags

Chemical Engineering Courses Reaction Mechanisms Courses Reactor Design Courses

Course Description

Overview

Review kinetics and reactor design concepts through a comprehensive series of screencasts covering past exam problems. Explore topics such as activation energy, rate constants, reactor types (CSTR, PFR, batch), conversion, selectivity, reaction mechanisms, and equilibrium constants. Delve into advanced subjects like multiple steady-states, pressure drop effects, and membrane reactors. Access corrected closed captioning for enhanced understanding. Benefit from organized playlists and textbook-aligned videos for efficient learning. Prepare thoroughly with multiple exam reviews, including graduate-level reaction engineering problems, to master fundamental and advanced concepts in chemical reaction engineering.

Syllabus

Activation Energy and Rate Constant for a Reversible Reaction (Review).
Changing Parameters in a CSTR (Review).
Conversion Dependence on Feed Temperature (Review).
Conversion in a PFR vs. CSTR (Review).
Conversion: PFR vs. CSTR (Review).
CSTRs in Series: Selectivity (Review).
Determining Reaction Rate Order for a Batch Reactor (Review).
Equilibrium Constant Effect on Conversion (Review).
Langmuir-Hinshelwood Mechanism (Review).
Membrane Reactor: Catalyst Pellet Size (Review).
Multiple Steady-States in a CSTR (Review).
Outlet Concentration for a PBR (Review).
Pressure Drop Dependence on Catalyst Particle Size (Review).
Reaction and Equilibrium Constants for a Reversible Reaction (Review).
Reaction Mechanism Dependence on Partial Pressure (Review).
Reaction Rate Dependence on Catalyst Particle Size (Review).
Reaction Rate Dependence on Space Time (Review).
Reactor with Lowest Rate of Consumption (Review).
Reversible Reaction in an Adiabatic CSTR (Review).
Selectivity: Isothermal vs. Adiabatic (Review).
Selectivity: PFR vs. CSTR (Review).
Surface Reaction Dependence on Partial Pressure (Review).
Uncompetitive Inhibitor Effect on Space Time (Review).
Which Reaction has the Higher Activation Energy? (Review).
Kinetics Exam Review 1A.
Kinetics Exam Review 1B.
Kinetics Exam Review 1C.
Kinetics Exam Review 2.
Kinetics Exam Review 3.
Kinetics Exam Review 4.
Kinetics Exam Review 5.
Kinetics Exam Review 6.
Kinetics Exam Review 7.
Graduate Reaction Engineering Exam Review A.
Graduate Reaction Engineering Exam Review B Part 1.
Graduate Reaction Engineering Exam Review B Part 2.
Graduate Reaction Engineering Exam Review B Part 3.
Graduate Reaction Engineering Exam Review B Part 4.
Graduate Midterm Exam Review Part 1A.
Graduate Midterm Exam Review Part 1B.
Graduate Midterm Exam Review Part 2.
Graduate Midterm Exam Review Part 3.
Graduate Reaction Engineering Final Exam Review A.


Taught by

LearnChemE

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