Design Of PID Controller For Boiler Drum Level Control

J. Pavithra*, T.Kalavathi Devi**, R. Mouleeshuwarapprabu***
* PG Scholar, Dept. of Electronics and Instrumentation Engineering, Kongu Engineering College, Perundurai, Erode, Tamilnadu, India.
** Asst.Professor(Sr.G.), Dept. of Electronics and Instrumentation Engineering, Kongu Engineering College, Perundurai, Erode, Tamilnadu, India.
*** Asst.Professor, Dept. of Electronics and Instrumentation Engineering, Kongu Engineering College, Perundurai, Erode, Tamilnadu, India.
Periodicity:October - December'2013
DOI : https://doi.org/10.26634/jdp.1.4.2596

Abstract

In thermal power plant, the use of boiler unit which produces steam helps to rotate the turbine to produce electricity. The boiler unit which consists of boiler drum converts feedwater into steam. The three types of boiler drum system are single element boiler drum, two element boiler drum and three element boiler drum. In thermal power plant the three element boiler drum is used. In the boiler drum, during the conversion of feedwater into steam, the level should be maintained and controlled properly. For controlling purpose the PID controller is used and the tuning of controller parameter controller is done manually. In the proposed method PID controller is replaced by adaptive controller where the tuning of controller will be made automatically. Thus the performance of the boiler drum level control system will be improved by three element method.

Keywords

Three Element Drum Level Control, PID Controller, Adaptive Controller.

How to Cite this Article?

Pavithra.J.,Devi,K.T., and Mouleeshuwarapprabu.R. (2013). Design of PID Controller for Boiler Drum Level Control. i-manager’s Journal on Digital Signal Processing, 1(4), 14-18. https://doi.org/10.26634/jdp.1.4.2596

References

[1]. Astrom K.J, Eklund K, (1972). “A simplified non-linear model of a drum boiler-turbine unit,” International Journal of Control, Vol. 16, No. 1, pp. 145-169.
[2]. Bell R.D and Astrom K.J, (1987). “Dynamic models for boiler-turbine alternator units: Data loss and parameter estimation for 160 MW unit”, Report TFRT- 3192,Lund inst.Technol., Lund, Sweden.
[3]. Chen C.S, Lee Y.D, Hsu C.T, and Chen C.K (2008). “Transient response of an incinerator plant by considering boiler model with dynamic steam variation”, IEEE Transactions on Power Systems, Vol.23, No.1, pp.92-99.
[4]. Cheres E (1990). “Small and medium size drum boiler models suitable for long term dynamic response ”, IEEE Transaction on Energy Conversion, Vol.5, No.4, pp.686-692.
[5]. Ghousiya Begu k, Mercy D, Kiren Vedi H, (2013). “ An intelligent model based level control of boiler drum”, ISSN, Vol.3, Issue.1, pp. 2250-2459.
[6]. Hugh F. VanLandingham and Nishith D. Tripathi, (1996). “Knowledge-based adaptive fuzzy control of drum level in a boiler system”, Southcon/96, Conference Record, pp. 454 - 459.
[7]. Huang Wei-jian, Wang Yuan, (2010). “Analysis and treatment of drum level regulation abnormality”, Guang Dong Electric Power, Vol.23, No.2, pp.101-102.
[8]. Liu Jing, (2011). “The water level control system of boiler steam drum”, Wide and Heavy Plate, Vol.17, No.1, pp.54-57.
[9]. Preeti Manke and Sharad Tembhurne (2012). “Application of back propagation neural network to drum level control in thermal Power plant”, IJCSI, Vol.9, Issue 2, No.1.
[10]. B.Wayne Beuquette, (2002). “Process control modeling, design and simulation” Prentice Hall PTR.
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