%0 Journal Article
%T Implementation And Analysis Of PIDE Autotune Automation Control Of Spherical Tank System Using Control Logix 5571
%J Int. J. of Aquatic Science
%I
%Z 2008-8019
%A R, Dr.Deepa
%A K, Kumaresan
%D 2021
%\ 06/01/2021
%V 12
%N 3
%P 960-974
%! Implementation And Analysis Of PIDE Autotune Automation Control Of Spherical Tank System Using Control Logix 5571
%K Autotune
%K Control Logix
%K Enhanced PID
%K Level
%K Spherical tank
%R
%X The challenge of handling process parameters such as flow, level, temperature,and pressure, which is regarded as the most significant problem in the process industryenvironment. In a spherical tank, the cross section area of the tank varies nonlinearly asthe height of the tank changes, so shape of the level changes in a nonlinear manner. Thenonlinear system is used by most of the process industries for storage purposes, like cement,sugar, paper & pulp, oil, and gas. The maintaining and controlling the process parameterliquid level of the spherical tank is critical for system stability, and the controller isdesigned for simplicity and improved performance. In this research work the controlalgorithms in the enhanced PID controller were selected. The Enhanced PID employs avelocity form of algorithms, and the resources on which the loop operates a change in errorsto change the output. They are in charge of the system's stability as well as the proportional,integral, and derivative control values are then determined using the PIDE auto-tuning method. This is very effective for adaptive gains as well as multi-loop and cascadecontrol. Conventional PID control systems used in controllers have positional formand work directly on errors not suitable for large systems. So, the Logix5571 controller isused to control spherical tank that communicates IO’s remotely via Ethernet IP and Modbusmaster-slave connection.
%U http://www.journal-aquaticscience.com/article_135422_1a5cf680a0ac283892f4802a275dc845.pdf