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CRE I.A - Rate Laws and Stoichiometry Tables for Reactors
Welcome
Welcome to the Course! (4:36)
Before you Start (8:09)
Chemical Reaction Engineering Series - Course Structure
About this Course (3:45)
Reference Material (1:08)
Rate Laws
Introduction to Rate Laws (5:08)
What is Rate of Reaction (9:50)
Relative Rates of Reaction (4:29)
Example of Rate of Reaction (2:59)
Ex 1.1 Rate Laws (4:07)
Rate Law Expressions (3:46)
What are Power Laws? (1:12)
Elementary Rate Laws (1:22)
Ex 1.2 Elementary Rate Laws (3:49)
More on Elementary Rate Laws (1:16)
Non Elementary Rate Laws (3:20)
COURSE: Non Elementary Rate Laws (0:54)
Introduction to the Rate Constant (3:22)
Effects on the Rate Constant (4:17)
The Ahrrenius Equation (3:32)
About Collision Theory (2:25)
The Pre Exponential Factor A (2:04)
The Ideal Gas Constant (2:45)
Activation Energy (Ea) (4:56)
Displaying Arrhenius Equation as a Linear Equation (5:51)
Ex 1.3 Modeling the Rate Constant with Arrhenius Equation (5:01)
Ex 1.4 Calculation of the Activation Energy using Arrhenius Equation (6:53)
Ex 1.5 Study of Rate Constant using the Arrhenius Equation (9:42)
Summary - Section 1 - Rate Laws
Evaluation - Section 1 - Rate Laws
Stoichiometry Tables for Batch Reactors
Introduction to Batch Stoichiometry Tables (5:07)
Why We Need Stoichiometry Tables (2:19)
Getting Started with Stoichiometry Tables for Batch Systems in terms of Moles (4:24)
Ex 2.1 Batch Systems - Stoichiometry Table - For Reactant A and B in terms of Moles (6:25)
Ex 2.2 Batch Systems - Stoichiometry Table - For Products C and D in terms of Moles (3:00)
Ex 2.3 Batch Systems - Stoichiometry Table - Inert and Total terms of Moles (7:00)
Important Notes Regarding Ex 2.1; Ex. 2.2 and Ex. 3 (3:35)
Final Review of Stoichiometry Tables for Batch Systems in terms of Moles (2:32)
Ex 2.4 Applying Batch System Stoichiometry Tables in terms of Moles (3:55)
The Concept of Delta and Theta for Stoichiometry Tables (4:54)
Ex 2.4 Using Theta in our Stoichiometry Table (1:35)
Why We Force Theta Concept in Equations for Chemical Reactors (2:03)
Summary for Batch System - Stoichiometry Tables in Terms of Moles (1:54)
Stoichiometry Table for Batch Systems in Terms of Concentration (11:49)
Ex 2.6 Applicaiton of Stoichiometry Tables for a Liquid Reaction (15:59)
Ex 2.7 Applying Stoichiometry Tables in terms of Concentration (4:28)
Ex 2.8 Setting Rate Law in terms of Concentration (8:12)
Notes on Ex 2.6 7 and 8 (1:34)
Summary of Stoichiometry Tables for Batch Systems (2:16)
Stoichiometry Tables for Batch Systems with Variable Volume (11:49)
Batch Table for Variable Volume (6:58)
Ex 2.9 Stoichiomerty Tables for a Batch System with volume change (24:45)
Final Notes on Ex 2.9 (2:17)
Summary - Section 2 - Stoichiometry Tables for Batch Reactors
Evaluation - Section 2 - Stoichiometry Tables for Batch Reactors
Stoichiometry Tables for Flow Systems
Introduction to Flow System Tables (2:10)
Flow System Tables in Molar Terms (5:15)
Ex 3.1 Using Flow System Equations in Molar Terms (2:53)
Flow System Tables in terms of Concentration (4:29)
Ex 3.2 Stoichiometry Tables in terms of Concentration (3:42)
Stoichiometry Tables for Flow Systems (1:08)
Ex 3.3 Stoichiometry Tables (2:40)
Stoichiometry Tables for Flow Systems in Gas Phase (9:02)
Ex 3.4 The effects of Epsilon in Gases (5:05)
Flow Stoichoimetry Table for Gas Phases (2:39)
Ex 3.5 Applying Tables for Flow Systems in Gas Phase (12:56)
Ex 3.6 Comparing Flow and Batch Systems with Gas Phases (14:10)
Summary - Section 3 - Stoichiometry Tables for Flow Systems
Evaluation - Section 3 - Stoichiometry Tables for Flow Systems
Closure
Course Review, Notes & Closure (5:39)
Where next? (5:17)
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Course Review, Notes & Closure
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