Uncovering the Root Causes of Stall Flutter in a Wide Chord Fan Blisk

IF 1.3 Q2 ENGINEERING, AEROSPACE
Huang Huang, Ming Yang, Dingxi Wang
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引用次数: 1

Abstract

Flutter was encountered at part speeds in a scaled wide chord fan blisk designed for a civil aeroengine during a rig test when the fan bypass flow was throttled toward its stall boundary. Analysis of the blade tip timing measurement data revealed that the fan blades vibrated at the first flap (1F) mode with nodal diameters of two and three. To facilitate a further rig test and ultimately eliminate the flutter problem, a numerical campaign was launched to help understand the root causes of the flutter. Both the influence coefficient method (ICM) and the traveling wave method (TWM) were employed in the numerical investigation to analyze unsteady flows due to blade vibration, with the intention to corroborate different numerical results and take advantage of each method. To eliminate nonphysical reflections, a sponge layer with an inflated mesh size was used for the extended inlet and outlet regions. Steady flow field and unsteady flow field were examined to relate them to the blade flutter. The influences of vibration frequency, mass flow rate, shock, boundary layer separation and acoustic mode propagation behaviors on the fan flutter stability were also investigated. Particular attention was paid to the acoustic mode propagation behaviors.
揭示宽弦扇形颤振失速的根本原因
针对某民用航空发动机设计的宽弦扇形叶片,在对扇形叶片进行失速边界节流时,在部分速度下出现了颤振现象。对叶尖定时测量数据的分析表明,风扇叶片在第一扇叶(1F)模式下振动,节径分别为2和3。为了便于进一步的钻机试验并最终消除颤振问题,开展了一项数值运动,以帮助了解颤振的根本原因。采用影响系数法(ICM)和行波法(TWM)对叶片振动引起的非定常流场进行了数值分析,验证了数值结果的差异性,并充分利用了两种方法的优点。为了消除非物理反射,在扩展的进出口区域使用了膨胀网格尺寸的海绵层。研究了定常流场和非定常流场与叶片颤振的关系。研究了振动频率、质量流量、激波、边界层分离和声模态传播特性对风机颤振稳定性的影响。特别关注了声模传播特性。
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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