转子-腔系统中的声弹性模式:测量支持的频移效应综述

IF 1.3 Q2 ENGINEERING, AEROSPACE
Tina Unglaube, D. Brillert
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引用次数: 0

摘要

随着离心压缩机中流体密度的增加,流体-结构相互作用和耦合声弹性模式越来越受到关注,以避免机器故障。除了叶轮的振动行为外,还需要了解侧腔中形成的声学模式,以确保安全可靠的操作。在耦合系统中,这些结构和声学主模相互影响。因此,基于文献中的发现,对转子空腔系统中的频移效应进行了全面的概述。此外,还介绍了在带有转盘的转子腔试验台上,在不同操作条件下对耦合模式对的实验结果。结构主模态的测量结果与理论预测吻合良好。在圆盘旋转的情况下,演示了每种模式的前向和后向行波的发展。进行的实验表明,当观察到频率偏移时,会出现弱耦合和强耦合模式对,这不能仅用“非耦合模式效应”来解释,如增加的质量、声速和硬化效应,但表明存在额外的耦合效应。然而,对于更强的耦合模式,频率偏移更大的假设无法得到一致的证实。仅对于“宽腔”设置中的强耦合四节点直径模式对,以模式转向的形式可以清楚地看到耦合效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Acoustoelastic Modes in Rotor-Cavity Systems: An Overview on Frequency Shift Effects Supported with Measurements
With an increase in fluid densities in centrifugal compressors, fluid-structure interaction and coupled acoustoelastic modes receive growing attention to avoid machine failure. Besides the vibrational behavior of the impeller, acoustic modes building up in the side cavities need to be understood to ensure safe and reliable operation. In a coupled system, these structure and acoustic dominant modes influence each other. Therefore, a comprehensive overview of frequency shift effects in rotor-cavity systems is established based on findings in the literature. Additionally, experimental results on coupled mode pairs in a rotor-cavity test rig with a rotating disk under varying operating conditions are presented. Measurement results for structure dominant modes agree well with theoretical predictions. The development of a forward and a backward traveling wave is demonstrated for each mode in case of disk rotation. Conducted experiments reveal the occurrence of weakly and strongly coupled mode pairs as frequency shifts are observed that cannot solely be explained by “uncoupled mode effects”, such as the added mass, speed of sound, and stiffening effect, but indicate an additional coupling effect. However, the hypothesis of a bigger frequency shift for stronger coupled modes cannot be corroborated consistently. Only for the strongly coupled four nodal diameter mode pair in the “wide cavity” setup, a coupling effect is clearly visible in the form of mode veering.
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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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