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Chemical Reaction Engineering 2: Heterogeneous Reactors

Chemical Reaction Engineering 2: Heterogeneous Reactors. Instructor: Prof. K. Krishnaiah, Department of Chemical Engineering, IIT Madras. In simple terms, Chemical Engineering deals with the production of a variety of chemicals on large scale. Large scale production is associated with the engineering problems such as fluid flow, heat and mass transfer, mixing and all types of unit operations. These chemicals are produced through chemical reactions in a vessel called Chemical Reactor. Chemical Reactor is known as the heart of any chemical plant since the new chemicals are produced only in this vessel and the economics of the entire plant depends on the design of reactor.

Chemical Reaction Engineering (CRE) deals with the design of Chemical Reactors to produce chemicals. The design of Chemical Reactors is based on a few simple and useful concepts. Though the concepts are simple, it is not easy for the students to develop a feeling for these concepts unless the teacher explains by giving different day to day examples with which the students are familiar with. (from nptel.ac.in)

Introduction to Kinetics (Gas Solid Non-catalytic Reaction)


Lecture 01 - Introduction to Kinetics (Gas Solid Non-catalytic Reaction)
Lecture 02 - Introduction to Kinetics for Catalytic Reactions in Different Reactors
Lecture 03 - Heterogeneous Rate of Reactions and Different Types of Kinetic Models for Non-catalytic Reactions
Lecture 04 - Basics of Kinetics of Type A and B Reactions (Shrinking Core Model and Porous Particle Homogeneous Model)
Lecture 05 - Shrinking Core Model (cont.)
Lecture 06 - Shrinking Core Model (cont.)
Lecture 07 - Shrinking Core Model (cont.), Proof of Pseudo Steady State Assumption
Lecture 08 - Shrinking Core Model for Type D Reactions
Lecture 09 - Shrinking Core Model for Type D Reactions (cont.)
Lecture 10 - Homogeneous Reaction Model and Design of Non-catalytic Gas Reactors
Lecture 11 - Design of Non-catalytic Gas Reactors (cont.)
Lecture 12 - Design of Non-catalytic Gas Reactors (cont.)
Lecture 13 - Design Equation for MF of Solids, Uniform Gas Composition, Const. Single Particle Size, Shrinking Core Model
Lecture 14 - Design Equation for MF of Solids, Mixture of Particles for Different Size but Unchanging Size, Uniform Gas Composition, SCM
Lecture 15 - Design Equation for MF of Solids with Elutriation, Mixture of Particles of Different Size, Uniform Gas Composition, SCM
Lecture 16 - General Performance Equation for Non-Catalytic Gas Solid Reactions
Lecture 17 - Catalytic Reactions (LHHW Kinetic Model)
Lecture 18 - LHHW Kinetic Model (cont.)
Lecture 19 - LHHW Kinetic Model (cont.)
Lecture 20 - Industrially Important Catalytic Reaction Models
Lecture 21 - Inter and Intraphase Effectiveness Factor
Lecture 22 - Interface Effectiveness Factor and Generalised Non-isothermal Effectiveness Factor for External Mass Transfer Step
Lecture 23 - Generalised Non-isothermal Effectiveness Factor for External Mass Transfer Step (cont.)
Lecture 24 - Mass Transfer Correlations for Various Reactors
Lecture 25 - Isothermal Intraphase Effectiveness Factor
Lecture 26 - Isothermal Intraphase Effectiveness Factor (cont.)
Lecture 27 - Non-isothermal Intraphase Effectiveness Factor
Lecture 28 - Inter and Intraphase Effectiveness Factor
Lecture 29 - Inter and Intraphase Mass Transfer
Lecture 30 - Packed (Fixed) Bed Catalytic Reactor Design
Lecture 31 - Graphical Design of Fixed Bed Reactors
Lecture 32 - Packed Bed Design
Lecture 33 - Design Equations for Packed Bed Reactor Design
Lecture 34 - Conservative Equations for Packed Bed Reactor Design
Lecture 35 - Problem Solving Session
Lecture 36 - Fluidized Bed Reactor Design I
Lecture 37 - Fluidized Bed Reactor Design II
Lecture 38 - Fluidized Bed Reactor Design III
Lecture 39 - Fluidized Bed Reactor Design IV
Lecture 40 - Fluidized Bed Reactor Models
Lecture 41 - Davidson Harrison Model and Kunii Levenspiel Model
Lecture 42 - Kunii Levenspiel Model
Lecture 43 - Slurry Reactor Design

References
Chemical Reaction Engineering 2: Heterogeneous Reactors
Instructor: Prof. K. Krishnaiah, Department of Chemical Engineering, IIT Madras. Chemical Reaction Engineering (CRE) deals with the design of Chemical Reactors to produce chemicals.