NOC:Chemical Reaction Engineering-II


Lecture 1 - Introduction


Lecture 2 - Introduction to catalysis and catalytic processes


Lecture 3 - Catalyst properties and classification


Lecture 4 - Steps in catalysis


Lecture 5 - Adsorption isotherm


Lecture 6 - Surface reaction


Lecture 7 - Rate controlling steps and Rate law


Lecture 8 - Rate law: Pseudo-steady state hypothesis


Lecture 9 - Heterogeneous data analysis for reactor design - I


Lecture 10 - Heterogeneous data analysis for reactor design - II


Lecture 11 - Design of reactors: PBR and CSTR


Lecture 12 - Case study: Chemical Vapor Deposition


Lecture 13 - Catalyst deactivation - I


Lecture 14 - Catalyst deactivation - II


Lecture 15 - Catalyst deactivation - III


Lecture 16 - Catalyst deactivation - IV : Reactor design


Lecture 17 - Diffusional effects: Introduction


Lecture 18 - Internal diffusion effects: Model development


Lecture 19 - Non-dimensionalization: Thiele modulus


Lecture 20 - Concentration profile


Lecture 21 - Internal effectiveness factor - I


Lecture 22 - Internal effectiveness factor - II


Lecture 23 - Internal effectiveness factor - III: Exothermic and endothermic reactions


Lecture 24 - Falsification of kinetics


Lecture 25 - External mass transport limitations: Mass transfer coefficient


Lecture 26 - Estimation of mass transfer coefficient


Lecture 27 - Mass transfer to a single particle with reaction


Lecture 28 - Packed-bed reactor design: External mass transfer limitations


Lecture 29 - Mass transfer coefficient in Packed-beds


Lecture 30 - Estimation of conversion in Packed-bed reactor: Example problem


Lecture 31 - Overall effectiveness factor - I


Lecture 32 - Overall effectiveness factor - II


Lecture 33 - Identification of internal diffusion and reaction-limited regimes


Lecture 34 - Packed-bed reactor design


Lecture 35 - Generalized criterion for diffusion and reaction-limited conditions


Lecture 36 - Network of first order reactions


Lecture 37 - Use of experimental data


Lecture 38 - Packed-bed reactor design: External and Internal resistances


Lecture 39 - Fluidized bed reactor design - I


Lecture 40 - Fluidized bed reactor design - II


Lecture 41 - Fluidized bed reactor design - III


Lecture 42 - Fluidized bed reactor design - IV


Lecture 43 - Fluid-solid noncatalytic reactions - I


Lecture 44 - Fluid-solid noncatalytic reactions - II


Lecture 45 - Fluid-solid noncatalytic reactions - III


Lecture 46 - Fluid-solid noncatalytic reactions - IV


Lecture 47 - Fluid-solid noncatalytic reactions - V


Lecture 48 - Fluid-solid noncatalytic reactions - VI


Lecture 49 - Residence time distribution (RTD): Introduction


Lecture 50 - RTD: Non-ideal reactors


Lecture 51 - Measurement of RTD - I


Lecture 52 - Measurement of RTD - II


Lecture 53 - RTD function


Lecture 54 - Properties of RTD function


Lecture 55 - Reactor diagnostics and troubleshooting - I


Lecture 56 - Reactor diagnostics and troubleshooting - II


Lecture 57 - Modeling nonideal reactors - I


Lecture 58 - Modeling nonideal reactors - II


Lecture 59 - Non-ideal reactors: Zero parameter models - I


Lecture 60 - Non-ideal reactors: Zero parameter models - II