NPTEL : NOC:Mathematical Modelling and Simulation of Chemical Engineering Process (Chemical Engineering)

Co-ordinators : Prof. Sourav Mondal


Lecture 1 - Introduction

Lecture 2 - Introduction (Continued...)

Lecture 3 - Constitutive relations

Lecture 4 - Constitutive relations - Mass transfer and thermodynamics

Lecture 5 - Process diagrams

Lecture 6 - Special functions

Lecture 7 - Partial differential equations

Lecture 8 - Partial differential equations - Separation of variables

Lecture 9 - PDE - Separation of variables (Continued...)

Lecture 10 - PDE - Integral transforms

Lecture 11 - Numerical techniques of solving PDE - Discretization

Lecture 12 - Stability of finite difference schemes

Lecture 13 - Numerical solution of PDE - Method of lines

Lecture 14 - Numerical solution of implicit formulation - Tridiagonal matrix

Lecture 15 - Numerical solution of PDE - Finite volume method

Lecture 16 - Perturbation methods

Lecture 17 - Asymptotics

Lecture 18 - Matched Asymptotics

Lecture 19 - Stability of dynamical systems

Lecture 20 - Stability of dynamical systems (Continued...)

Lecture 21 - Modelling transport phenomena problems - Part 1

Lecture 22 - Modelling transport phenomena problems - Part 2

Lecture 23 - Modelling transport phenomena problems - Part 3

Lecture 24 - Modelling transport phenomena problems - Part 4

Lecture 25 - Modelling transport phenomena problems - Part 5

Lecture 26 - Modelling reaction systems - Packed bed catalytic reactor

Lecture 27 - Modelling intraparticle transport and catalysis

Lecture 28 - Modelling pore diffusion and reaction

Lecture 29 - Modelling enzymatic reactions

Lecture 30 - Demonstration of COMSOL Multiphysics

Lecture 31 - Modelling of multistage distillation process

Lecture 32 - FUG method of stage calculations

Lecture 33 - MESH equations and DOF analysis

Lecture 34 - Tearing method

Lecture 35 - Bubble point method stage calculations

Lecture 36 - Simultaneous correction method

Lecture 37 - Block tridiagonal matrix

Lecture 38 - Simple binary batch distillation

Lecture 39 - Multistage batch distillation

Lecture 40 - Heat exchanger network design pinch analysis

Lecture 41 - Pinch point temperature

Lecture 42 - Heat exchanger network synthesis

Lecture 43 - Solving a distillation column using Aspen plus

Lecture 44 - Solving two unit operations using Aspen Plus

Lecture 45 - Solving multiple units using Aspen Plus

Lecture 46 - Dispersed phase modelling - Introduction

Lecture 47 - Population balance equation

Lecture 48 - Dispersed phase modelling - Breakage process

Lecture 49 - Drop size distribution in lean mixtures

Lecture 50 - Mass transfer in lean liquid-liquid dispersion

Lecture 51 - Dispersed phase modelling - Aggregation

Lecture 52 - Dispersed phase modelling - Aerosol dynamics

Lecture 53 - Dispersed phase modelling - Aerosol dynamics (Continued...)

Lecture 54 - Solution of the population balance equation

Lecture 55 - Numerical solution of the population balance equation

Lecture 56 - Kinetic monte carlo simulation

Lecture 57 - Response surface methodology

Lecture 58 - Design of experiments

Lecture 59 - Artificial neural network

Lecture 60 - Supervised training