Abstract
SCADA is a set of systems with a higher automatic level of the long-distance pipeline. When the sub-transmission stations in the state of full load, the automatic control of sub-output capacity is quite stable working at certain settings. However, partly sub-transmission stations sub-output capacity is far less than the design of sub-output capacity in actual projects, which makes the PLC parameter of the control system in the stations difficult to set. And unstable sub-output often appears. This paper gives the optimizing design to achieve stable sub-output in small flow, and gives the algorithms to achieve better effects for sub-output control on the practical spots under the condition of unchanging the original structure of the system.
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References
Ye, Y.-F.: Design and Realization of Mineral Feeding SCADA System. Journal of China University of Mining & Technology 6(1), 68–70 (2006)
Shafiei, Z., Shenton, A.T.: Tuning of PID-type controllers for stable and unstable systems with time delay. Automatica 30(10), 1609–1615 (1994)
Pouline, Pomerleau, A., Desbiens, A., Hodouin, D.: Development and evaluation of an autotuning and adaptive PID controller. Automatica 32(1), 71–82 (1996)
Ho, W.K., Xu, W.: PID tuning for unstable processes based on gain and phase-margin specifications. Control Theory and Applications. IEE Proceedings 5(145), 392–396 (1998)
Wang, Q.G., Lee, T.H., Fung, H.W.: PID tuning for improved performance. IEEE Trans. on Control Systems Technology 7(4), 457–765 (1999)
Datta, A., Ho, M.T., Bhattacharyya, S.P.: Structure and synthesis of PID controllers. Springer, London (2000)
Visioli, A.: Optimal tuning of PID controllers for integral and unstable processes. IEE Proc. D: Control and Applications 148(2), 180–184 (2001)
Tan, W., Chen, T., Marquez, J.: Robust Controller design and PID tuning for multivariable process. Asian J. of Control 4(4), 439–451 (2002)
Silva, G.J., Datta, A., Bhattacharyya, S.P.: New results on the synthesis of PID controllers. IEEE Trans. on Automatic Control 47(2), 241–252 (2002)
Tan, N.: Computation of Stabilizing PI and PID Controllers for Processes with Time Delay. ISA Trans. 44(2), 213–223 (2005)
Huang, C.T., Lin, Y.S.: Tuning PID controller for open-loop unstable process with time delay. Ind. Eng. Chem. Res. 133, 11–30 (1995)
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Guo, Y., Zhang, Z., Pei, X. (2009). A Research on Instability of Small Flow in SCADA and an Optimizing Design for Control. In: Gervasi, O., Taniar, D., Murgante, B., Laganà, A., Mun, Y., Gavrilova, M.L. (eds) Computational Science and Its Applications – ICCSA 2009. ICCSA 2009. Lecture Notes in Computer Science, vol 5593. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-02457-3_55
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DOI: https://doi.org/10.1007/978-3-642-02457-3_55
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-02456-6
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