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CSTR Conversion Based on Batch Data

Compare First- and Second-Order Reactions

Determining Rate Order

Differential Analysis: Determining a Rate Law

Differential Data Analysis

Differential PBR Data

Differential Reactor Analysis

Differential Reactor Data (PBR)

Least Squares Method

Non-Linear Regression Introduction

Non-Linear Regression/POLYMATH

Pharmacokinetics: Analyzing Concentration Data (Bio)

Reaction Rate Explanation

Simpson's Rule/Excel

Using Data to Size a PBR Part 1

Using Data to Size a PBR Part 2

Non-Linear Regression in Mathematica

Thermodynamic Interpretation of Transition State Theory: The Eyring Equation

Relationship Between Arrhenius Activation Energy and Transition State Theory (Eyring Equation)

Non-linear Regression for Kinetic Data

Non-linear Regression for Kinetic Data Using POLYMATH

Linear Regression for Kinetic Data

Linear Regression for Kinetic Data Using POLYMATH

Determining Michaelis-Menten Kinetics Parameters Using Nonlinear Regression

Nonlinear Regression to Determine Michaelis-Menten Kinetics Parameters Using POLYMATH

Nonlinear Regression to Determine Michaelis-Menten Kinetics Parameters Using Excel Solver

How to Determine Activation Energy Using Nonlinear Regression

Determine Activation Energy Using Nonlinear Regression with POLYMATH

Determine Activation Energy Using Nonlinear Regression with Excel Solver

Calculate 95% Confidence Intervals for Nonlinear Regression in Excel Part 1

Calculate 95% Confidence Intervals for Nonlinear Regression in Excel Part 2

Determine Kinetic Parameters for Data from Isothermal Plug Flow Reactor Part 1: Overview

Determine Kinetic Parameters for Data from Isothermal Plug Flow Reactors Part 2: Excel Calculations

Determine Kinetic Parameters for Data from Isothermal Plug Flow Reactors Part 3: Excel Spreadsheet

Determine Kinetic Parameters for Data from Isothermal Plug Flow Reactors Part 4: Confidence Limits

Solving Mass Balance Differential Equations for an Isothermal Plug Flow Reactor in Excel

Nonlinear Regression for Kinetic Parameters for Isothermal PFR: Multiple Reactor Conditions Changed

Introduction to Virtual Catalytic Reactor Labratory

Analyze Virtual Catalytic Reactor Laboratory Data Using Nonlinear Regression

Mechanism For N2O Catalytic Decomposition: Example Problem

Conversion for a Reactor with Segregated Flow

Description:

Explore a comprehensive series of screencasts on kinetics and reactor design, covering essential topics such as rate order, conversion, differential analysis, non-linear regression, and reactor sizing. Delve into advanced concepts like CSTR conversion, first- and second-order reactions, pharmacokinetics, and the Eyring equation. Learn practical skills in data analysis, including linear and non-linear regression techniques using tools like POLYMATH, Excel, and Mathematica. Discover how to determine Michaelis-Menten kinetics parameters, calculate activation energy, and analyze data from isothermal plug flow reactors. Gain hands-on experience with virtual catalytic reactor laboratories and explore complex mechanisms like N2O catalytic decomposition. Master the use of differential equations in mass balance calculations and understand the principles of segregated flow reactors. Benefit from corrected closed captioning available for all screencasts in this extensive playlist.

Kinetics-Reactor Design: Rate Data

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#Engineering #Chemical Engineering #Science #Physics #Kinetics #Reactor Design

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