NOC:Chemical Reaction Engineering-I


Lecture 1 - Introduction and Overview on Reaction Engineering


Lecture 2 - Kinetics of Homogeneous Reactions


Lecture 3 - Kinetic Model and Temperature Dependency


Lecture 4 - Introduction and Stoichiometry for the Batch System


Lecture 5 - Stoichiometry for Constant Volume Flow and Variable Volume Batch Systems


Lecture 6 - Stoichiometry for Variable Volume Flow System


Lecture 7 - Analysis of Batch Reactor Kinetic Data


Lecture 8 - Intregal Method of Analysis of Batch Reactor Data - Part 1


Lecture 9 - Intregal Method of Analysis of Batch Reactor Data - Part 2


Lecture 10 - Differential Method of Analysis and Variable Volume Batch Reactor Data


Lecture 11 - Introduction and Ideal Batch Reactor Design


Lecture 12 - Ideal Mixed Flow Reactor Design


Lecture 13 - Ideal Plug Flow Reactor Design


Lecture 14 - Size Comparisn of Single and Multiple Reactors


Lecture 15 - Size Comaprison Multiple Reactors


Lecture 16 - Recycle and Autocatalytic Reactors


Lecture 17 - Design for Parallel Reactions


Lecture 18 - Design for Series Reactions


Lecture 19 - Design for Series-Parallel Reactions


Lecture 20 - Denbigh Reactions and Their Special Cases


Lecture 21 - Heats of Reaction and Equilibrium Conversion from Thermodynamics


Lecture 22 - General Graphical Reactor Design Procedure


Lecture 23 - Material and Energy Balances in Batch Reactor


Lecture 24 - Optimum Temperature Progression in Batch Reactor


Lecture 25 - Material and Energy Balances in Flug Flow and Mixed Flow Reactors


Lecture 26 - Ideal and Non-Ideal Mixed Flow Reactor Design and Multiple Steady States


Lecture 27 - Non-Ideal Reactors and Residence Time Distribution


Lecture 28 - RTD Measurement and Moments of RTD


Lecture 29 - RTD in Ideal Reactors


Lecture 30 - Reactor Modeling using the RTD