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TECHNICAL PAPERS

Robust Stabilization of Axial Flow Compressor Dynamics Via Sliding Mode Design

[+] Author and Article Information
Der-Cherng Liaw

Department of Electrical and Control Engineering, National Chiao Tung University, Hsinchu, 30010 Taiwan, Republic of Chinae-mail: dcliaw@cc.nctu.edu.tw

Jeng-Tze Huang

Department of Electronic Engineering, Van Nung Institute of Technology, Chungli, 340 Taiwan, Republic of Chinae-mail: jthuang@cc.vit.edu.tw

J. Dyn. Sys., Meas., Control 123(3), 488-495 (Jul 28, 1998) (8 pages) doi:10.1115/1.1386393 History: Received July 28, 1998
Copyright © 2001 by ASME
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References

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Liaw,  D.-C., and Huang,  J.-T., 1998, “Global Stabilization of Axial Compressors Using Nonlinear Cancellation and Backstepping Designs,” Int. J. Syst. Sci., 29, pp. 1345–1361.
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Figures

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Schematic diagram of an axial-flow compression system
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Jump behavior for operation in the prestalled zone (a) A versus t, (b) mass flow versus t, (c) pressure rise versus t, (d) plot in the phase plane
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Jump behavior for operation in the stalled zone (a) A versus t, (b) mass flow versus t, (c) pressure rise versus t, (d) plot in the phase plane
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Maximal uncertainty allowed in the control design
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Results for operation in the pre-stalled zone (a) A versus t, (b) mass flow versus t, (c) versus t, (d) plot in the phase plane
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Two compressor characteristics used in the simulation works
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Results of Case 2 for operation in the pre-stalled zone (a) A versus t, (b) mass flow versus t, (c) u versus t, (d) plot in the phase plane
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Results of Case 2 for operation in the stalled zone (a) A versus t, (b) mass flow versus t, (c) u versus t, (d) plot in the phase plane

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