scilab
TRANSCRIPT
“SCILAB (open source software for numerical computation) in Chemical Engineering”
Submitted By: Guided By: Kripal Priyadarshi (11BCH026) Asst Prof. Priya Saxena
Learning Outcome After Presentation
After Presentation we would be able to understand the following topics:-
• Introduction Open source softwares
• Difference between Scilab and Matlab
• Scilab basics and simple types of problem solving using scilab
• Engineering problems solving using Scilab
Introduction To Open source Software
• Open-source software is computer software with its source code made available and licensed with a license in which the copyright holder provides the rights to study, change and distribute the software to anyone and for any purpose.
• Software’s are used in designing, finance, computer simulation, mathematics, science, geographical information, nanotechnology, etc.
• Some of the software’s are Scilab, Firefox, Openoffice, GIMP, FreeNX, OpenVPN, rdesktop DVDFlick, Mozilla Calendar,etc
Introduction to Scilab
Scilab is a freely distributed open source scientific software package, first developed by researchers from INRIA and ENPC, and now by the Scilab Consortium. It is similar to Matlab, which is a commercial product. Yet it is almost as powerful as Matlab. Scilab consists of three main components: an interpreter libraries of functions libraries of Fortran and C routines
Difference between Scilab and Matlab
• Functions in SCILAB are not considered as separate files
• Functions in MATLAB are considered as separate files
• To execute a script file you must use • exec("filename") in SCILAB
• To execute a script file in MATLAB you just need to type the name of the file.
• Scilab comments begins with: // • Matlab commands begin with:%
• Boolean variables are %T, %F in SCILAB
• Boolean variables are 0,1 in MATLAB
• Polynomial matrices are defined by the function poly in SCILAB.
• They are considered as vectors of coefficients in Matlab
Installing the Scilab
• First, you must have the software. Go to the download section in the Scilab homepage, find a right version for your operating system (platform), and then click to download. For easy installation, it is advisable to download the installer (for binary version). Then double click the downloaded file and follow the instructions to complete the installation
Scilab Screen• The Scilab environment: Console and Prompt
• Once the user has opened Scilab, the window shown on the right appears.
• The main part is the Scilab Console, in which is contained the Prompt of commands, identified by the symbol -->
• Here the user types the commands and interacts with the environment.
Scilab Basics+ Addition
- Subtraction
* Multiplication
/ Division
^ Power
' conjugate transpose
Common Operators
Common Functions
sincos tanasin acos atan min max Sqrtsum
Special Constants
%pi,
%e,
%i
To enter a string, enclose it with either single or double quotations.
Strings
Entering Matrices
Addition of columns and rows
Using basic single commands
Finding Inverse of matrix
Solving linear system
Chemical engineering problems using Scilab
Scilab can be useful in solving the chemical engineering related problems such as:-• Heat transfer• Regrettions• Fluid flow operations• Different operation such as absorption, distillation etc with graphical
feautures• Designs of various equipment
Numerical based on Fluid Flow
Ouestion:-Find the Type of Flow of stream in pipe of diameter of 0.06m.
Using Graphical Feauture
• Question:-Plot a graph of dx/dt=sin2t.•
•
•
• Scilab coding→Graph ←
Solving Equilibrium stage operation numerical
• Question:-By means of a plate column, acetone is absorbed from its mixture with air in a nonvolatile absorption oil. The entering gas contains 30 mole % acetone, and the entering oil is acetone-free. Of the acetone in the air 97 % is to be absorbed, and the concentrated liquor at the bottom of the tower is to contain 10 mole % acetone. The equilibrium relationship is ye=1.9xe. Plot the operating line and determine the number of ideal stages.
Solving Equilibrium stage operation numerical
Solving Equilibrium stage operation numerical
Solving Designing of cyclone separator numerical
Particle size distribution
50 95
40 85
30 70
20 20
10 10
5 3
2 1
Permissible Pressure Drop,mmH20 125
Flow rate of gas,m^3/hr 2000
Density of solid particle 2500
Permissible pressure drop ?
%Recovery of solid 85%
Design a suitable cyclone for a given process.:
Solution
Solution
Optimization in Scilab
Scilab provides algorithms to solve constrained and unconstrained continuous and discrete problems:• Linear optimization Examples: karmaker,linpro• Non-linear optimization Examples: fminsearch, optim, derivative, leastsq• Semidefinite programming Example: semidef• Linear matrix inequalities Example: lmisolver
Optimization in Scilab
REFERENCES
[1] https://www.scilab.org, 8/1/2014, 19:23
[2] http://en.wikipedia.org/wiki/SCILAB, 15/1/2014, 18:27
[3] http://hkumath.hku.hk/~nkt/Scilab/IntroToScilab.html, 16/1/2014, 22:42
[4] http://www.openeering.com/scilab_tutorials, 25/1/2014, 19:56
[5] http://en.wikipedia.org/wiki/List_of_free_and_opensource_software_packages, 31/1/2014 19:27
[6]http://www-irma.ustrasbg.fr/~sonnen/SCILAB_HELP/matlabvsscilab_html.htm 31/1/2014, 19:40
Thank You