Approximate Nonlinear Modeling of Aircraft Engine Surge Margin Based on Equilibrium Manifold Expansion 被引量：3

Approximate Nonlinear Modeling of Aircraft Engine Surge Margin Based on Equilibrium Manifold Expansion

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摘要 Stable operation of aircraft engine compressions is constrained by rotating surge. In this paper, an approximate nonlinear surge margin model of aircraft engine compression system by using equilibrium manifold is presented. Firstly, this paper gives an overview of the current state of modeling aerodynamic flow instabilities in engine compressors. Secondly, the expansion form of equilibrium manifold is introduced, and the choosing scheduling variable method is discussed. Then, this paper also gives the identification procedure of modeling the approximate nonlinear model. Finally, the modeling and simulations with high pressure （liP） compressor surge margin of the aircraft engine show that this real-time model has the same accuracy with the thermody- namic model, but has simpler structure and shorter computation time. Stable operation of aircraft engine compressions is constrained by rotating surge. In this paper, an approximate nonlinear surge margin model of aircraft engine compression system by using equilibrium manifold is presented. Firstly, this paper gives an overview of the current state of modeling aerodynamic flow instabilities in engine compressors. Secondly, the expansion form of equilibrium manifold is introduced, and the choosing scheduling variable method is discussed. Then, this paper also gives the identification procedure of modeling the approximate nonlinear model. Finally, the modeling and simulations with high pressure （liP） compressor surge margin of the aircraft engine show that this real-time model has the same accuracy with the thermody- namic model, but has simpler structure and shorter computation time.

作者 LIU Xiaofeng ZHAO Lei

机构地区 School of Transportation Science and Engineering

出处《Chinese Journal of Aeronautics》 SCIE EI CSCD 2012年第5期663-674,共12页 中国航空学报（英文版）

基金 National Natural Science Foundation of China (61104146) Innovation Plan of Aero Engine Complex System Safety by the Ministry of Education Chang Jiang Scholars of China (IRT0905)

关键词 aircraft engine surge margin system identification equilibrium manifold scheduling variable perpendicular expan-sion aircraft engine surge margin system identification equilibrium manifold scheduling variable perpendicular expan-sion

分类号 V23 [航空宇航科学与技术—航空宇航推进理论与工程] TP273 [自动化与计算机技术—检测技术与自动化装置]

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参考文献28

1Cohen H, Rogers G F C, Saravanamuttoo H I H. Gas turbine theory. 3rd ed. New York: John Wiley and Sons Inc., 1987.
2Greitzer E M. Surge ad rotating stall in axial flow com- pressors-Part I: theoretical compression system model. ASME Journal of Engineering for Gas Turbines and Power 1976; 98(2): 190-198.
3Moore F KI Greiizer E M. A theory of post-stall tran- sients in axial compression systems-Part I: development of equations. ASME Journal of Engineering for Gas Turbines and Power 1986; 108(1): 68-76.
4Greitzer E M, Moore F K. A theory of post-stall tran- sients in axial compression systems-Part II: application. ASME Journal of Engineering for Gas Turbines and Power 1986; 108(1): 231-239.
5Feulner M R, Hendricks G J, Paduano J D. Modeling for control of rotating stall in high-speed multistage ax- ial compressors. ASME Journal of Turbomachinery 1996; 118(1): 1-10.
6Willems F, de Jager B. Modelling and control of rotat- ing stall and surge: an overview. Proceedings of the IEEE International Conference on Control Applications, 1998; 331-335.
7Gravctahl J T, Egeland O. A Moore-Greitzer axial com- pressor model with spool dynamics. Proceedings of the 1EEE Conference on Decision and Control, 1997; 4714-4719.
8Gravdahl J T, Egeland O. Speed and surge control for a low order centrifugal compressor model. Proceedings of the IEEE International Conference on Control Applica- tions, 1997; 344-349.
9Gu G, Sparks A, Banda S S. An overview of rotating stall and surge control for axial flow compressors. IEEE Transactions on Control Systems Technology 1999; 7(6): 639-647.
10Leonessa A, Chellaboina V, Haddad W M. Multi-mode control of axial compressors via stability-based switch-ing controllers. Journal of Propulsion and Power 1999; 15(2): 364-367.

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Chinese Journal of Aeronautics

2012年第5期

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Approximate Nonlinear Modeling of Aircraft Engine Surge Margin Based on Equilibrium Manifold Expansion 被引量：3

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