Boiler Modelling and Optimal Control of Steam Temperature in Thermal Power Plants
Boiler Modelling and Optimal Control of Steam Temperature in Thermal Power Plants
摘要
Achieving accurate control of main steam temperature is a very difficult task in thermal power plants due to the large process lag (8 to 10 minutes) associated with the superheater system and there exists a deviation of ±10 ℃ in closed loop control. A control oriented boiler model and an appropriate optimal control strategy are the essential tools for improving the accuracy of this control system. This paper offers a comprehensive integrated 8th order mathematical model for the boiler and a Kalman Filter based state predictive controller for effectively controlling the main steam temperature within ± 2 ℃ and to enhance the efficiency of the boiler. It is proved through simulation that the predictive controller method with Kalman filter state estimator and predictor is the most appropriate one for the optimization of main steam temperature control as compared to other methods. This control system is under field implementation in a 210 MW boiler of a thermal power plant.
参考文献15
-
1J.N. Wallace, R. Clarke, The application of kalman filtering estimation techniques in power station control system, IEEE Trans. Automatic Control AC 28 (3) (1983) 416-427.
-
2Y. Sato, M. Nomura, H. Matsumoto, M. lioka, Steam temperature prediction control for thermal power plant. IEEE Trans. Power Apparatus and Systems PAS 103 (9) (1984) 2382-2387.
-
3X.J. Liu, J.Z. Liu, Neuro-fuzzy generalized predictive control of boiler steam temperature, in: Proc. of 6th World Congress on Intelligent Control and Automation, Dalian, China, 2006, pp. 6531-6535.
-
4N. Nomura, Y. Sato, Adaptive optimal control of steam temperature for thermal power plants, IEEE Trans. Energy Conversion 4 (1) (1989) 25-33.
-
5J. Waddington, Kalman filter applications for coal-fired generating unit control, in: lEE Conference Publication No. 389, CONTROL'94, 1994, pp. 379-384.
-
6X.C. Luan, S.Y. Li, L.L. Li, Adaptive control for the superheated steam temperature based multi-model state observer, in: Proc. of the Third International Conference on Machine Learning and Cybernetics, Shanghai, 2004, pp978-982.
-
7D. Flynn, Thermal Power Plant Simulation and Control, The Institution of Electrical Engineers, London, UK, 2003.
-
8G.A. Oluwante, Exploitation of advanced control techniques in power generation, Journal of Computing and Control Engineering 12 (2) (2001) 63-67.
-
9J.L. Wei, J.H. Wang, Q.H. Wu, Development of a multisegment coal mill model using an evolutionary computation technique, IEEE Transactions on Energy Conversion 22 (3) (2007) 718-727.
-
10S.R. Valsalam, S. Anish, B.R. Singh, Boiler modelling and optimal control of steam temperature in power plants, in: IFAC International Symposium on Power Plants and Power Systems Control, Tampere, Finland, July 5-8, 2009.
-
1麻斌,高莹,刘宇,刘洪岐,陈伟,徐英健.相间滑移对喷油器喷孔内空化现象数值模拟研究的影响[J].西安交通大学学报,2017,51(1):59-64. 被引量:6
-
2魏崇帆,陈少林.汽车水冷发动机冷却系统冷却性能影响因素的研究[J].现代车用动力,2014(3):23-26. 被引量:2
-
3热力系统[J].动力工程:英文版,2005(2):3-4.
-
4郑赟.印度工程锅炉给水泵选型设计探讨[J].广东电力,2012,25(4):88-91. 被引量:1
-
5Zhen HUANG,Jin XIAO,Xinqi QIAO,Gaozhi JIANG,Yiming SHAO,Seiichi SHIGA,Yasuhiro DAISHO.Spray characteristics and controlling mechanism of fuel containing CO2[J].Frontiers in Energy,2012,6(1):80-88. 被引量:1
-
6锅炉控制[J].动力工程:英文版,2005(2):18-19.
-
7英文摘要[J].热能动力工程,2013,28(3):320-330.
-
8李西秦,刘冰,黎苏.CNG/LNG和LPG汽车动力性研究状况[J].小型内燃机与摩托车,2009,38(3):54-57. 被引量:4
-
9WU Zhiying and CUI Zhengqiang Shanghai Power Equipment Research Institute,Shanghai 200240,China.Critical materials selection for 700℃clean and high-efficiency coal-fired boiler[J].Baosteel Technical Research,2010,4(S1).
-
10MaXuehu,TaoBai,等.Dropwise Condensation Heat Transfer of Steam on a Polytethefluoroethylene Film[J].Journal of Thermal Science,2001,10(3):247-253. 被引量:1
