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PID implementation of heating tank in mini automation plant using Programmable Logic Controller (PLC)

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Abstract:

This paper presents the implementation of PID controller using Programmable Logic Controller (PLC) in heating tank of mini automation plant. PID controller is implemented...Show More

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Abstract:

This paper presents the implementation of PID controller using Programmable Logic Controller (PLC) in heating tank of mini automation plant. PID controller is implemented by using ladder diagram in PLC OMRON CJIM-CPU12. A temperature control unit CJ1W-TC001 is also used where the temperature control unit is a special I/O unit that receives inputs directly from thermocouple, to perform PID control. Desired temperature or set point (SP) is set by the user using the Human Machine Interface (HMI) and the controller within the PLC will try to maintain the current temperature base on the set point temperature set by the user. Temperature control is very difficult to be implemented by using ordinary control techniques; hence the purpose of this research is to implement PID controller design using programmable logic controller (PLC) in order to control the time to heat up a particular solution to a desired temperature efficiently without scarifying the stability of the system. A complete analysis using different kind of PID parameters is presented in terms of system response. Performance of the controller is examined in terms of settling time, rise time and percent overshoot. Finally, a comparative assessment of the PID controller on the system performance is presented and discussed.

Published in: International Conference on Electrical, Control and Computer Engineering 2011 (InECCE)

Date of Conference: 21-22 June 2011

Date Added to IEEE Xplore: 14 July 2011

ISBN Information:

DOI: 10.1109/INECCE.2011.5953937

Conference Location: Kuantan, Malaysia

Citations are not available for this document.

Contents

I. Introduction

The purpose of a temperature controller unit is to heat up a particular solution to a desire temperature with the minimum overshoot and quickest time constant, in other word the optimum result. Heater comes in a variety of size and power consumption, basically the higher the power consumption the faster the heating process will be. The system operates in a closed loop system to ensure the desired temperature will be obtained in fastest time and accurately.

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Saifullah Al Yusuf, "Development of PLC and SCADA based Integrated Thermal Control System with Self/Auto-tuning Feature", 2018 Condition Monitoring and Diagnosis (CMD), pp.1-6, 2018.

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Gabriela Rata, Mihai Rata, "Temperature control solution with PLC", 2016 International Conference and Exposition on Electrical and Power Engineering (EPE), pp.571-575, 2016.

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Cites in Papers - Other Publishers (5)

Sunkanmi Oluwaleye, Victoria Oguntosin, Francis Idachaba, "Conceptual design of smart multi-farm produce dehydrator using a low-cost programmable logic controller and raspberry pi", F1000Research, vol.10, pp.810, 2021.

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M. Castilla, F. Rodríguez, J.D. Álvarez, J.G. Donaire, J. Ramos-Teodoro, "A Hardware-in-the-Loop Prototype to design Benchmarks for Automation and Control Education", IFAC-PapersOnLine, vol.53, no.2, pp.17314, 2020.

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Nicholas R. Rodofile, Kenneth Radke, Ernest Foo, "Extending the Cyber-Attack Landscape for SCADA-based Critical Infrastructure", International Journal of Critical Infrastructure Protection, 2019.

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Abinash Kumar Panda, Fijo M. Francis, Sudha Ramasamy, P. Sanjeevikumar, Advances in Systems, Control and Automation, vol.442, pp.355, 2018.

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PID implementation of heating tank in mini automation plant using Programmable Logic Controller (PLC)

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Abstract:

I. Introduction

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PID implementation of heating tank in mini automation plant using Programmable Logic Controller (PLC)

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Abstract:

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Abstract:

I. Introduction

Cites in Papers - IEEE (7) | Other Publishers (5)

Cites in Papers - IEEE (7)

Cites in Papers - Other Publishers (5)

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