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Chemical Reaction Engineering

Chemical Reaction Engineering. Instructor: Prof. Jayant Modak, Department of Chemical Engineering, IISc Bangalore. The objective of this course is to help the student master several advanced ideas in chemical reaction engineering, notably: 1) Complex chemical reaction mechanisms and kinetics, 2) Transport effects in multiphase reactive systems, 3) Advanced reactor design and stability, including consideration of the energy balance. On completion of the course, the student should be able to design/analyze a variety of complex reacting systems in both traditional and nontraditional areas of chemical engineering. (from nptel.ac.in)

Lecture 39 - Nonideal Flow and Reactor Performance (cont.)


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Introduction
Lecture 01 - Introduction and Overview
Stoichiometry, Kinetics and Ideal Reactors
Lecture 02 - Basic Concepts: Representations of Chemical Reactions
Lecture 03 - Thermodynamics of Chemical Reactions
Lecture 04 - Thermodynamics of Chemical Reactions (cont.)
Lecture 05 - Chemical Reaction Kinetics: Overview
Lecture 06 - Chemical Reaction Kinetics and Reactor Design
Lecture 07 - Chemical Reactor Design
Lecture 08 - Problem Solving: Thermodynamics and Kinetics
Complex Reactions
Lecture 09 - Complex Reactions: Introduction
Lecture 10 - Complex Reactions: Yield and Selectivity
Lecture 11 - Complex Reactions: Quasi Steady State and Quasi Equilibrium Approximations
Lecture 12 - Complex Reactions: Kinetics of Chain Reactions and Polymerization
Lecture 13 - Catalytic Reactions: Introduction
Lecture 14 - Catalytic Reactions: Adsorption and Desorption
Lecture 15 - Catalytic Reactions: Kinetics
Lecture 16 - Monomolecular Reaction Network and Lumping Analysis
Lecture 17 - Problem Solving: Complex Reactions
Heterogeneous Reactions
Lecture 18 - Gas-solid Catalytic Reactions: External diffusion
Lecture 19 - Gas-solid Catalytic Reactions: Transport in Catalyst Pellet
Lecture 20 - Gas-solid Catalytic Reactions: Diffusion and Reaction I
Lecture 21 - Gas-solid Catalytic Reactions: Diffusion and Reaction II
Lecture 22 - Gas-solid Catalytic Reactions: Diffusion and Reaction III
Lecture 23 - Gas-solid Catalytic Reactions: Nonisothermal Effects
Lecture 24 - Gas-solid Noncatalytic Reactions
Lecture 25 - Gas-liquid Reactions
Lecture 26 - Problem Solving: Heterogeneous Reactions
Reactor Design
Lecture 27 - Chemical Reactor Design: Mass and Energy Balances
Lecture 28 - Chemical Reactor Design: Mass and Energy Balances for Heterogeneous Reactions
Lecture 29 - Nonisothermal Reactor Operation
Lecture 30 - Case Study: Ethane Dehydrogenation
Lecture 31 - Case Study: Hydrogenation of Oil
Lecture 32 - Case Study: Ammonia Synthesis
Lecture 33 - Autothermal Reactors
Lecture 34 - Parametric Sensitivity
Lecture 35 - CSTR - Multiple Steady States
Lecture 36 - Stability Analysis - Basics
Lecture 37 - Stability Analysis - Examples
Lecture 38 - Nonideal Flow and Reactor Performance
Lecture 39 - Nonideal Flow and Reactor Performance (cont.)
Lecture 40 - Problem Solving: Reactor Design