Stall Margin Improvement in an Axial Compressor by Continuous and Pulsed Tip Injection

IF 1.3 Q2 ENGINEERING, AEROSPACE

International Journal of Turbomachinery, Propulsion and Power Pub Date : 2022-03-16 DOI:10.3390/ijtpp7010010

Joseph Moubogha Moubogha, G. Margalida, P. Joseph, O. Roussette, A. Dazin

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引用次数: 5

Abstract

Stall and surge are strong limitations in the operating range of compressors and thus one of the major limits of jet engine performance. A promising way to push the stability limit of compression machines is to inject a small amount of flow at the blade tip to alter the physical mechanism responsible for stall onset. This study focuses on the experimental performance of such a system. To do so, an axial compressor test bench was equipped with 40 actuators connected to an auxiliary pressurised air supply system. They were able to generate high-speed jet blowing just at the tip of the rotor blades. The opening of each actuator was controlled by an electromagnetic valve. This allowed generating continuous or pulsed jets with frequencies up to 500 Hz at different duty cycles. The performance of the control system was investigated for various control strategies, where the injected flow rate, the injection angle, the number of injectors, the jet frequency and the duty cycle were systematically varied. This paper is concluded by a study of the energy balance of the system for various configurations. To the best of the authors’ knowledge, this constitutes a rarely seen analysis in the literature.

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连续和脉冲叶尖喷射改善轴流压气机失速余量

失速和喘振是压气机工作范围的重要限制因素，是制约喷气发动机性能的主要因素之一。一种有希望突破压缩机稳定性极限的方法是在叶尖注入少量的流动来改变导致失速的物理机制。本研究的重点是该系统的实验性能。为此，轴向压缩机试验台配备了40个执行器，连接到辅助加压空气供应系统。他们能够在旋翼叶片的尖端产生高速射流。每个执行器的开度由一个电磁阀控制。这允许在不同占空比下产生频率高达500 Hz的连续或脉冲射流。研究了不同控制策略下喷射流量、喷射角度、喷油器数量、喷射频率和占空比的系统性能。本文通过对不同构型下系统能量平衡的研究得出结论。据作者所知，这构成了文献中罕见的分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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