Unsteady Analysis of a Pulsating Alternate Flow Pattern in a Radial Vaned Diffuser

IF 1.3 Q2 ENGINEERING, AEROSPACE
Nicolas Poujol, M. Buisson, P. Duquesne, I. Trébinjac
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引用次数: 1

Abstract

In centrifugal compressors, Mild Surge (MS) leads to unstable operation. Previous experimental work on a centrifugal compressor designed and built by Safran Helicopter Engines (SafranHE) showed that MS corresponds to the pulsation of an alternate stall pattern at the Helmholtz frequency of the test rig on two channels in the radial diffuser. The present contribution experimentally investigates the impact of the Inlet Guide Vane (IGV) stagger angle on this alternate flow and numerically studies the topology of this pulsating alternate flow. The experimental investigation is performed with unsteady pressure sensors, and shows that the IGV stagger angle only impacts the pulsation frequency of the alternate flow pattern. This change is explained by the dependence of the Helmholtz frequency on the compressor inlet section. The topological analysis of the average flow field, computed from wall-resolved Unsteady Reynolds-Averaged Navier–Stokes (URANS) simulations, demonstrates that the saddle point (major critical point) in the corner hub/suction side of the stalled blade migrates upstream while staying in the corner if the mass flow rate decreases. One main blade over two is stalled on both sides because the flow originating from this corner separation circumvents the trailing edge and migrates upstream along the pressure side. In the simulation, the pulsation of the alternate stall is coupled with the reflection of acoustic waves on the inlet and outlet planes, regarded as an environmental effect.
径向叶片扩压器内脉动交替流型的非定常分析
在离心式压缩机中,轻微喘振(MS)会导致运行不稳定。先前对赛峰直升机发动机公司(SafranHE)设计和制造的离心式压缩机的实验工作表明,MS对应于径向扩散器中两个通道上试验台亥姆霍兹频率下的交替失速模式的脉动。本论文通过实验研究了进口导叶(IGV)交错角对这种交变流的影响,并对这种脉动交变流的拓扑结构进行了数值研究。利用非定常压力传感器进行了实验研究,结果表明,IGV交错角只影响交替流型的脉动频率。这种变化可以通过亥姆霍兹频率对压缩机入口部分的依赖性来解释。根据壁面解析的非定常雷诺平均Navier-Stokes(URNS)模拟计算的平均流场拓扑分析表明,如果质量流量降低,失速叶片的角毂/吸力侧的鞍点(主要临界点)会向上游移动,同时停留在角部。两个主叶片上的一个主叶片在两侧失速,因为源自该角分离的气流绕过后缘并沿压力侧向上游迁移。在模拟中,交替失速的脉动与声波在入口和出口平面上的反射相耦合,被视为环境效应。
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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来源期刊
CiteScore
2.30
自引率
21.40%
发文量
29
审稿时长
11 weeks
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