Mathematical Modeling of Interacting and Non Interacting Tank System
Mathematical Modeling of Interacting and Non Interacting Tank System
Mathematical Modeling of Interacting and Non Interacting Tank System
Mathematical Modeling of
Interacting and Non Interacting Tank System
Mr. Parvat. B.J.1, Mr. Deo.S.A.2 and Mr.KaduC.B.3
1
ABSTRACT
The main objective of this paper is to determine the mathematical model of a coupled tank system which will be useful for
designing and tuning controllers consisting of a PID and a fuzzy logic for the system. . In this paper, we adopt a two layer
quadruple tank system whose transfer function was obtained via mathematical modeling. The simulation is being carried out
using the Mat Lab/ Simulink Toolbox and the simulation results are compared with actual results performed during
experiment. Based on procedure of Mathematical modeling for tanks in single, non- interacting and interacting mode this
paper is an extensive comparative experimental study Liquid level controls. The system under investigation is a quadruple tank
system apparatus. [8] The basic control principle of the quadruple tank system is to maintain a constant level of the liquid in
the tank when there is an inflow and outflow of water in the tank.
1. INTRODUCTION
The first stage in the development of any control and monitoring system is the identification and modeling of the
system. The present work is concerned with developing Mathematical model for interacting and non interacting tank
process and comparing it with the real time experimental data. System identification from the experimental data plays a
vital role for model based controller design. Derivation of process model from first principles is often difficult due to its
complexity. [2]This paper presents a quadruple tank system is taken as a plant and will be modeled mathematically
using Bernoullis law, simulate with Mat lab / Simulink and decentralized using control and estimation tool manager
from Simulink model and mathematical model. This paper will help the method suitable for research findings
concerning on the coupled-tank liquid level control system.
2. MATHEMATICAL MODELING
A mathematical model is a description of a system using mathematical concepts and language. The process of
developing a mathematical model is termed mathematical modeling.[2] As far as process control systems are concerned
we need simple description of how process reacts to various inputs and this is what mathematical model can provide to
control designer. In this report mathematical modeling of single and coupled tank system (interacting and non
interacting mode) is developed using Quadruple Tank system. Multivariable level control trainer is designed for
teaching the basic level control principles and advanced study in complex systems for control engineering. It is a
combination of two double tank systems, usually also known as Quadruple Tank System. The setup consists of supply
water tank with two variable speed positive displacement pumps for water circulation, four transparent process tanks
fitted with level transmitters and flow dampers. The process signals from level transmitters are connected to Serial
based duel loop PID controller. The controller is connected to computer through USB port communication. The process
parameters are controlled through software and the output is fed to variable frequency drive used for the pumps. These
units along with necessary piping are fitted on standalone support structure. The set up is connected to computer
through USB port for monitoring and control by using PID logics. The product is supplied with 32 tag demo version
software package along with licensed version of 64 Tag SCADA software. The experimental set up and process
description is as given below
Page 86
Since there is no heating effects, density can be assumed constant for water, ODE becomes,
) /A
(3)
(4)
Page 87
Page 88
Page 89
Page 90
6. CONCLUSION
The coupled tank system model development presented in the paper is nothing but the representation of the system in
mathematical form. However, the complexity increases with increase in number of variables to be controlled.
Interacting two tank system is considered as non-linear system which will be helpful in designing Manual PID and the
simulation carried out using MATLAB will be helpful to ensure that controller perfectly regulates the desired output
level as per the requirement. The Mathematical modeling helps in furnishing a convenient and flexible design that
provides good performance in terms of disturbance rejection and set-point tracking. The values of parameters obtained
from physical model are substituted in the theoretical model and are validated and the results obtained are compared
with statistical method.
REFERENCES
[1] Bequette, B.W. (1991), Nonlinear Control of Chemical processes: A Review. Ind. Eng. Chem. Res., Vol. 30, pp.
1391-1413
[2] George Stephanopoulos (1990), Chemical Process Control, Prentice Hall of India Pvt Ltd, New Delhi
[3] Chidambaram M. (1998), Applied Process Control, Allied Publishers, India. Control Design Of A Coupled-Tank
Apparatus ByVanuvamalai Harishankar School Of Electrical And Electronic Engineering
[4] Design and Implementation of Sliding Mode Controller for Level Control Parvat B. J., Jadhav. V. K., Lokhande N.
N. ,IOSR Journal of Electronics and Communication Engineering (IOSR-JECE) ISSN : 2278-2834, ISBN : 22788735,PP:51-54www.iosrjournals.org
[5] Elke Laubwald., Coupled Tank System, Control System Principles.Co.uk 7] Analytical Design of State Feedback
Controllers for a Nonlinear Interacting Tank Process by S. Nagammai, S.Latha, I.Aarifa, S.D.Idhaya International
Journal of Engineering and Advanced Technology (IJEAISS 2249 8958, Volume-2, Issue-4, April 2013
[6] Modeling and Design of Controllers for Interacting Two Tank Hybrid System (ITTHS) by Y. Christy, D. Dinesh
Kumar International Journal of Engineering and Innovative Technology (IJEIT) Volume 3, Issue 7, January 2014
[7] http://eleceng.dit.ie
[8] Modeling And Controller Design for a Coupled tank Liquid Level System: Analysis & Comparison by Mohd
Fuaad Rahmat1 & Sahazati Md RozaLI2 Jurnal Teknologi, 48(D) Jun 2008: 113141 Universiti Teknologi
Malaysia
Page 91
AUTHOR
Mr.B.J.Parvat. received the B.E. and M.tech.degree in Instrumentation and Control from College
of Engineering Pune,now he is Associate Profesor and P.G.Coordinator at P.R.E.C.,loni,Ahmednagar
district,Maharashtra,India
Mr.Deo.S.A. received the B.E. degree in Instrumentation Engineering from Padmabhushan
Vasantdada Institute of Technology in 2000. He has experienceof more than 8 years in field of
education.Right now he is persuing his M.E. in field of Instrumentation and control at
PREC,Loni,Maharashtra,India.
Mr.Kadu.C.B. is Associate professor and HOD of Instrumentation and Control Department at
PREC, Loni, Maharashtra, and India.He is having experience of more than 15 years in education
field.
Page 92