NPTEL : NOC:Advanced Process Dynamics (Chemical Engineering)

Co-ordinators : Prof. Parag A. Deshpande


Lecture 1 - Introduction and motivation

Lecture 2 - Dynamics of linear first order autonomous systems

Lecture 3 - Dynamics of linear first order autonomous systems (Continued...)

Lecture 4 - Lumped parameter analysis of cooling of a body

Lecture 5 - Lumped parameter analysis of cooling of a body (Continued...)

Lecture 6 - Introduction to higher order systems

Lecture 7 - Phase plane analysis of linear autonomous second order systems

Lecture 8 - Phase plane analysis of linear autonomous second order systems (Continued...)

Lecture 9 - Analysis of a free spring-mass system

Lecture 10 - Analysis of a free spring-mass system (Continued...)

Lecture 11 - Dynamics of non-autonomous systems

Lecture 12 - Similarity solution for non-autonomous higher order dynamics

Lecture 13 - Similarity solution for non-autonomous higher order dynamics (Continued...)

Lecture 14 - Analysis of a forced spring-mass system

Lecture 15 - Analysis of a forced spring-mass system (Continued...)

Lecture 16 - Phase portraits of linear autonomous systems of order three and higher

Lecture 17 - Phase portraits of linear autonomous systems of order three and higher (Continued...)

Lecture 18 - Analysis of complex reaction systems

Lecture 19 - Analysis of complex reaction systems (Continued...)

Lecture 20 - Analysis of complex reaction systems (Continued...)

Lecture 21 - Introduction to non-linear systems

Lecture 22 - Logistic population growth model

Lecture 23 - Logistic population growth model (Continued...)

Lecture 24 - Logistic population growth with harvesting

Lecture 25 - Logistic population growth with harvesting (Continued...)

Lecture 26 - Logistic population growth with threshold population

Lecture 27 - Logistic population growth with threshold population (Continued...)

Lecture 28 - Analysis of population dynamics in discrete domain

Lecture 29 - Analysis of fixed points and bifurcation in discrete domain

Lecture 30 - Analysis of fixed points and bifurcation in discrete domain (Continued...)

Lecture 31 - More on bifurcations in non-linear systems

Lecture 32 - Non-linear systems in higher dimensions

Lecture 33 - Reactor stability analysis

Lecture 34 - Reactor stability analysis (Continued...)

Lecture 35 - Reactor stability analysis (Continued...)

Lecture 36 - Analysis of infectious disease dynamics

Lecture 37 - Analysis of infectious disease dynamics (Continued...)

Lecture 38 - Analysis of infectious disease dynamics (Continued...)

Lecture 39 - Analysis of atmosphere dynamics using Lorenz equations

Lecture 40 - Analysis of atmosphere dynamics using Lorenz equations (Continued...)

Lecture 41 - Analysis of system dynamics in transform domain

Lecture 42 - Analysis of first order system subjected to ideal forcing functions

Lecture 43 - Analysis of first order system subjected to ideal forcing functions (Continued...)

Lecture 44 - Analysis of response of second order systems

Lecture 45 - Analysis of response of second order systems (Continued...)

Lecture 46 - Analysis of (p,q) order systems

Lecture 47 - Analysis of (p,q) order systems (Continued...)

Lecture 48 - Analysis of multiple input - multiple output systems

Lecture 49 - Block diagrams and inter-conversion of state-space and transform domain models

Lecture 50 - Analysis of inverse response systems

Lecture 51 - Analysis of dynamics of discrete-time systems

Lecture 52 - Sampling and reconstruction of continuous signals

Lecture 53 - Conversion of continuous models to discrete-time models

Lecture 54 - Introduction to z-transforms

Lecture 55 - z-transforms Continued

Lecture 56 - Response of discrete-time systems

Lecture 57 - Response of discrete-time systems (Continued...)

Lecture 58 - Response of discrete-time systems (Continued...)

Lecture 59 - Stability analysis in transform domain

Lecture 60 - Review of the course