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Chemical Reaction Engineering II

Chemical Reaction Engineering II. Instructors: Prof. A. K. Suresh, Prof. Sanjay Mahajani and Prof. Ganesh Viswanathan, Department of Chemical Engineering, IIT Bombay. This is a typical second course in the subject of chemical reaction engineering with an emphasis on heterogeneous reaction engineering and non-ideal reactors. Catalysis, mechanistic treatment of rate forms and the practical issues of transport limitations, leading finally to design considerations, form the first part. Kinetics and design of reactors for noncatalytic gas-liquid and fluid-solid reactions follows, and the last part of the course deals with the subject of residence time distributions, and how they can be used to characterize and design non-ideal reactors. (from nptel.ac.in)

Lecture 31 - Measurement of Residence Time Distribution


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Lecture 01 - Introduction to Catalyst and Catalysis
Lecture 02 - Steps in Catalytic Reaction Adsorption, Reaction and Desorption
Lecture 03 - Derivation for the Rate Equation
Lecture 04 - Heterogeneous Data Analysis for Reactor Design
Lecture 05 - Heterogeneous Data Analysis for Reactor Design (cont.)
Lecture 06 - Catalyst Deactivation and Accounting for it in Design
Lecture 07 - Catalyst Deactivation and Accounting for it in Design (cont.)
Lecture 08 - Synthesize the Rate Equation
Lecture 09 - Introduction to Intraparticle Diffusion
Lecture 10 - Intraparticle Diffusion: Thiele Modulus and Effectiveness Factor I
Lecture 11 - Intraparticle Diffusion: Thiele Modulus and Effectiveness Factor II
Lecture 12 - Intraparticle Diffusion: Thiele Modulus and Effectiveness Factor III
Lecture 13 - Effectiveness Factor and Introduction to External Mass Transfer
Lecture 14 - External Mass Transfer
Lecture 15 - Implications to Rate Data Interpretation and Design
Lecture 16 - Implications to Rate Data Interpretation and Design (cont.)
Lecture 17 - Packed-bed Reactor Design
Lecture 18 - Fluidized-bed Reactor Design
Lecture 19 - Fluidized-bed Reactor Design (cont.)
Lecture 20 - Gas-liquid Reactions (GLR): Theories of Mass Transfer into Agitated Liquids
Lecture 21 - GLR: Effect of Chemical Reaction on Mass Transfer: the Slow Reaction Regime
Lecture 22 - GLR: Transition to Fast Reaction, and the Fast Reaction Regime
Lecture 23 - GLR: Fast Reaction Example; Instantaneous Reaction Regime
Lecture 24 - GLR: Transition to Instantaneous Reaction; Reaction Regimes in Surface Renewal Theories
Lecture 25 - GLR: Reaction Regimes in Surface Renewal Theories (cont.)
Lecture 26 - GLR: Surface Renewal Theories: Instantaneous Reaction and Summing Up
Lecture 27 - Fluid-solid Non-catalytic Reactions I
Lecture 28 - Fluid-solid Non-catalytic Reactions II
Lecture 29 - Fluid-solid Non-catalytic Reactions III
Lecture 30 - Distribution of Residence Time
Lecture 31 - Measurement of Residence Time Distribution
Lecture 32 - Residence Time Distribution Function
Lecture 33 - Reactor Diagnostics and Troubleshooting
Lecture 34 - Modeling Non-ideal Reactors
Lecture 35 - Residence Time Distribution: Performance of Non-ideal Reactors
Lecture 36 - Non-ideal Reactors: Tank-in-Serious Model
Lecture 37 - Non-ideal Reactors: Dispersion Model
Lecture 38 - Non-ideal Reactors: Dispersion Model Introduction to Multiparameter Models
Lecture 39 - Non-ideal Reactors: Multiparameter Models