Process Modelling &Simulation;

Finite difference and theory of interpolation, Iterative methods, Taylor series, Newton series,Approximation zeros (roots) numerical integration and differentiation, Iterative methods for solution of linear systems, Design value problems, Numerical solutions of ordinary differential equations,MATLAB Primer; Introduction to MATLAB, Linear algebra applications,Matrix calculations, Solution of linear equations, Eigen value calculation, Plotting of various types of graphs using ezplot and plot functions, Symbolic differentiation and solution of differential equations,Calculation of integrals, Derivatives and differential equations, Transfer function manipulation and study of transient response of various first and second order systems, Plotting Bode and Root Locus diagrams. Introduction to Simulink, Simulation of a typical feedback control loops in Simulink.Hierarchy of process design, Process synthesis and design strategy, Pinch design method, Heat and power integration, Reactor network design, Separation system selection and design, Design of heat exchanger networks, Optimization, Introduction to various design and simulation software, Development of process flow diagrams for various process industries and de bottlenecking using simulation software such as HYSYS/ASPEN, Economic evaluation of processes, Strategies for decision making.

Hours: XYZ where X = Lecture, Y = Lab, Z = Credit
All hours are per week.
3 Lab hours constitute 1 credit hour
1 credit hour implies 1 lecture of 50mins per academic week. 16 weeks in total.
Pre-Requisite courses are courses required to be completed before this course may be taken
Co-Requisite courses are courses required to be taken along with this course