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Surge control of axial flow compression systems via linear and nonlinear designs

机译：通过线性和非线性设计的轴流压缩系统的喘振控制

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Based on Moore and Greitzer's model (1986), surge behavior is found to be attributable to the appearance of Hopf bifurcation. Lyapunov function based control is proposed to provide the asymptotic stability of the post-surge operating point for the compressor with uncertain axisymmetric characteristics. Although robust stabilization can be achieved by Lyapunov function based design, such an approach strongly relies on the explicit knowledge of the operating point. A washout filter type linear controller is proposed to delay and suppress the occurrence of Hopf bifurcation in compressor dynamics, which does not require the knowledge of system equilibria. Numerical results demonstrate the effectiveness of the proposed designs.

机译：根据Moore和Greitzer的模型（1986年），发现浪涌行为可归因于Hopf分叉的出现。提出了基于李雅普诺夫函数的控制方法，为具有不确定轴对称特性的压缩机提供了喘振后工作点的渐近稳定性。尽管可以通过基于Lyapunov函数的设计来实现鲁棒的稳定，但这种方法强烈依赖于对工作点的明确了解。提出了一种冲洗滤波器式线性控制器来延迟和抑制压缩机动力学中霍普夫分叉的发生，这不需要了解系统平衡。数值结果证明了所提出设计的有效性。

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《》|2002年|p.4347-4352|共6页
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作者
Der-Cherng Liaw; Sing-Ming Ren; Wen-ChingChung; Abed; E.H.;
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中图分类无线电电子学、电信技术;
关键词
compressors; flow control; bifurcation; linear systems; nonlinear control systems; robust control; Lyapunov methods; closed loop systems; uncertain systems; control system synthesis; axial flow compression systems; surge control; linear design; nonli;

机译：压缩机流量控制;分叉线性系统;非线性控制系统;鲁棒的控制; Lyapunov方法;闭环系统;不确定的系统;控制系统综合轴流压缩系统;电涌控制线性设计;诺里;

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专利

1. NONLINEAR CONTROL OF SURGE IN AXIAL COMPRESSION SYSTEMS [J] . Badmus OO., Nett CN., Chowdhury S. Automatica . 1996,第1期

机译：轴向压缩系统喘振的非线性控制
2. On Active Surge Control of Compression Systems via Characteristic Linearization and Model Nonlinearity Cancellation [J] . Yohannes S.M. Simamora, Harijono A. Tjokronegoro, Edi Leksono Journal of Engineering and Technological Sciences . 2014,第3期

机译：基于特征线性化和模型非线性抵消的压缩系统主动喘振控制
3. Nonlinear robust disturbance rejection controllers for rotating stall and surge in axial flow compressors [J] . Haddad W.M., Leonessa A. IEEE Transactions on Control Systems Technology . 1999,第3期

机译：用于轴流压缩机旋转失速和喘振的非线性鲁棒干扰抑制控制器
4. Surge control of axial flow compression systems via linear and nonlinear designs [C] . Der-Cherng Liaw, Sing-Ming Ren, Wen-Ching Chung, American Control Conference . 2002

机译：通过线性和非线性设计浪涌控制轴流压缩系统
5. Nonlinear control of rotating stall and surge with axisymmetric bleed and air injection on axial flow compressors. [D] . Yeung, Chung-hei (Simon). 1999

机译：轴流压气机的轴对称放气和空气注入的旋转失速和喘振的非线性控制。
6. Fuzzy ... formula ... output-feedback control for the discrete-time system with channel fadings sector nonlinearities and randomly occurring interval delays and nonlinearities [O] . Xiaozheng Fan, Yan Wang, Manfeng Hu -1

机译：具有信道衰落扇区非线性以及随机出现的间隔延迟和非线性的离散时间系统的模糊...公式输出反馈控制
7. On Active Surge Control of Compression Systems Via Characteristic Linearization and Model Nonlinearity Cancellation [O] . Simamora, Yohannes S.M, Tjokronegoro, Harijono A, Leksono, Edi 2014

机译：基于特征线性化和模型非线性抵消的压缩系统主动喘振控制
8. A Design Methodology for Nonlinear Systems Containing Parameter Uncertainty: Application to Nonlinear Controller Design [R] . Young, G. 1982

机译：含参数不确定性的非线性系统设计方法 - 非线性控制器设计的应用

Surge control of axial flow compression systems via linear and nonlinear designs

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