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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.

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This course includes
Hours of videos

1194 years, 3 months

Units & Quizzes

43

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Certificate of Completion

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)

Course Currilcum

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