Active Stabilization of Axial Compressors With Circumferential Inlet Distortion
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In this article, the authors describe the first experimental validation of transfer function modeling and active stabilization for axial compressors with circumferential inlet distortion, and introduce a new control law that addresses many of the challenges associated with active control with distortion.Abstract:
This paper describes the first experimental validation of transfer function modeling and active stabilization for axial compressors with circumferential inlet distortion. The inlet distortion experiments were carried out in a three-stage low-speed compressor. Theory-experiment comparisons of steady performance, unsteady stall precursor, and forced response (transfer function) data were all used to assess a control-theoretic version of the Hynes-Greitzer distorted flow model. The tests showed good agreement between theory and data and demonstrated that a priori predictions, based on geometry and steady-state performance data, can be used to design control laws that stabilize rotating stall with inlet distortion. Based on these results, active feedback control has been used to stabilize the inlet distortion induced instability associated with rotating stall onset. The stabilization allowed stall-free operation to be extended below the natural (distorted flow) stall point by up to 3.7 percent for a 0.8 dynamic head distortion. For a 1.9 dynamic head distortion, 40 percent of the mass flow range lost due to inlet distortion was regained through active control. The paper elucidates the difficulties associated with active control with distortion, and introduces a new control law that addresses many of these challenges.read more
Citations
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Compressor Stability Enhancement Using Discrete Tip Injection
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Compression system stability and active control
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Proceedings ArticleDOI
Rotating Stall Control in a High-Speed Stage With Inlet Distortion: Part II — Circumferential Distortion
Zoltán S. Spakovszky,C. M. van Schalkwyk,H. J. Weigl,James D. Paduano,Kenneth L. Suder,Michelle M. Bright +5 more
TL;DR: In this article, the first attempt to stabilize rotating stall in a single-stage transonic axial flow compressor with inlet distortion using active feedback control was made at the NASA Lewis Research Center.
Journal ArticleDOI
Stall margin enhancement of a novel casing treatment subjected to circumferential pressure distortion
TL;DR: In this article, the stall margin enhancement of a novel casing treatment subjected to circumferential pressure inlet distortion is presented. But the performance of the compression system is not analyzed.
References
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Linear Optimal Control Systems
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TL;DR: In this article, the authors provide an excellent introduction to feedback control system design, including a theoretical approach that captures the essential issues and can be applied to a wide range of practical problems.
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F. K. Moore,Edward M. Greitzer +1 more
TL;DR: In this paper, an approximate theory for post-stall transients in multistage axial compression systems is presented, which leads to a set of three simultaneous nonlinear third-order partial differential equations for pressure rise, and average and disturbed values of flow coefficient, as functions of time and angle around the compressor.
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TL;DR: In this article, the authors express limitations imposed by right half plane poles and zeros of the open-loop system directly in terms of the sensitivity and complementary sensitivity functions of the closed-loop systems.
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Active control of rotating stall in a low-speed axial compressor
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TL;DR: In this paper, the wave pattern in terms of the individual spatial Fourier components was considered and a simple proportional control law was implemented for each harmonic, which yielded an 11 percent decrease in the stalling mass flow, while control of the first, second, and third harmonics together reduced the mass flow by 23 percent.
Journal ArticleDOI
Active suppression of rotating stall and surge in axial compressors
TL;DR: In this paper, two distinctly different methods were used to delay the onset of rotating stall and surge in a four-stage compressor using fast-acting air injection valves and removing emerging stall cells.