About Course
Chemical reaction engineering – I.
This Chemical reaction course will provide an overview of chemical kinetics and reactor design at a basic to an intermediate level. Coverage will be relatively broad.
This course applies the concepts of reaction rate, stoichiometry, and equilibrium to the analysis of chemical and biological reacting systems such as the derivation of rate expressions from reaction mechanisms and equilibrium or steady-state assumptions and design of chemical and biochemical reactors via synthesis of chemical kinetics, and mass and energy balances.
The goal is to provide students with the theoretical/analytical background to understand chemical kinetics and reactor design and to tackle the short of complex problems.
INTENDED AUDIENCE: B.Tech in Chemical Engineering and allied disciplines.
Course Content
Chemical reaction engineering – I
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Chemical reaction engineering – I [Introduction Video]
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Lec 17: Design for Parallel Reactions
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Lec 18: Design for Series Reactions
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Lec 19: Design for Series-Parallel Reactions
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Lec 20: Denbigh Reactions and Their Special Cases
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Lec 21:Heats of Reaction and Equilibrium Conversion from Thermodynamics
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Lec 22: General Graphical Reactor Design Procedure
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Lec 23: Material and Energy Balances in Batch Reactor
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Lec 24: Optimum Temperature Progression in Batch Reactor
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Lec 25: Material and Energy Balances in Flug Flow and Mixed Flow Reactors
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Lec 26: Ideal and Non-Ideal Mixed Flow Reactor Design and Multiple Steady States
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Lec 27: Non-Ideal Reactors and Residence Time Distribution
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Lec 28: RTD Measurement and Moments of RTD
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Lec 29: RTD in Ideal Reactors
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Lec 16: Recycle and Autocatalytic Reactors
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Lec 15: Size Comaprison Multiple Reactors
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Lec 14: Size Comparisn of Single and Multiple Reactors
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Lec 1: Introduction and Overview on Reaction Engineering
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Lec 2: Kinetics of Homogeneous Reactions
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Lec 3: Kinetic Model and Temperature Dependency
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Lec 4: Introduction and Stoichiometry for the Batch System
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Lec 5: Stoichiometry for Constant Volume Flow and Variable Volume Batch Systems
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Lec 6: Stoichiometry for Variable Volume Flow System
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Lec 7: Analysis of Batch Reactor Kinetic Data
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Lec 8: Intregal Method of Analysis of Batch Reactor Data: Part 1
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Lec 9: Intregal Method of Analysis of Batch Reactor Data: Part 2
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Lec 10: Differential Method of Analysis and Variable Volume Batch Reactor Data
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Lec 11: Introduction and Ideal Batch Reactor Design
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Lec 12: Ideal Mixed Flow Reactor Design
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Lec 13: Ideal Plug Flow Reactor Design
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Lec 30: Reactor Modeling using the RTD
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