Description: Chemical Reaction Engineering
Curriculum
- 1 Section
- 40 Lessons
- 10 Weeks
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- Chemical Reaction Engineering40
- 2.1Introduction
- 2.2Basic Concepts: Representation of Chemical Reactions
- 2.3Thermodynamics of Chemical Reactions:Part-I
- 2.4Thermodynamics of Chemical Reactions:Part II
- 2.5Chemical Reaction Kinetics – Overview
- 2.6Chemical Reaction Kinetics and Reactor Design
- 2.7Chemical Reactor Design
- 2.8Problem Solving: Thermodynamics & Kinetics
- 2.9Complex Reactions – Introduction
- 2.10Complex Reactions – Yield & Selectivity
- 2.11Complex Reactions – Quasi Steady State & Quasi Equilibrium Approximations
- 2.12Complex Reactions – Kinetics of chain Reactions & Polymerization
- 2.13Catalytic Reactions – Introduction
- 2.14Catalytic Reactions – Adsorption & Desorption
- 2.15Catalytic Reactions – Kinetics
- 2.16Monomolecular Reaction Network & Lumping Analysis
- 2.17Problem Solving : Complex Reactions
- 2.18Gas-Solid Catalytic Reactions – External Diffusion
- 2.19Gas-Solid Catalytic Reactions – Transport in Catalyst Pellet
- 2.20Gas-Solid Catalytic Reactions – Diffusion & Reaction I
- 2.21Gas-Solid Catalytic Reactions – Diffusion & Reaction II
- 2.22Gas-Solid Catalytic Reactions – Diffusion & Reaction III
- 2.23Gas-Solid Catalytic Reactions – Non isothermal Effects
- 2.24Gas-Solid Noncatalytic Reactions
- 2.25Gas-Liquid Reactions
- 2.26Heterogenous Reactions
- 2.27Chemical Reactor Design: Mass & Energy Balances Part 1
- 2.28Chemical Reactor Design: Mass & Energy Balances Part 2
- 2.29Nonisothermal Reactor Operation
- 2.30Case Study – Ethane Dehyrogenation
- 2.31Case Study – Hydrogenation of Oil
- 2.32Case Study – Ammonia Synthesis
- 2.33Autothermal Reactors
- 2.34Parametric Sensitivity
- 2.35CSTR – Multiple Steady States
- 2.36Stability Analysis – Basics
- 2.37Stability Analysis – Examples
- 2.38Nonideal Flow & Reactor Performance Part 1
- 2.39Nonideal Flow & Reactor Performance Part 2
- 2.40Problem Solving: Reactor Design
