An improved reduced order model for bladed disks including multistage aeroelastic and structural coupling

IF 1.1 Q4 ENGINEERING, MECHANICAL
Lukas Schwerdt, N. Maroldt, Lars Panning‐von Scheidt, J. Wallaschek, J. Seume
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引用次数: 0

Abstract

To assess the influence of mistuning on the vibration amplitudes of turbomachinery rotors, reduced order models (ROMs) are widely used. A variety of methods are available for single-stage configurations and mostly aeroelastic effects can be taken into account. More recent research focusses on extending these methods to include multiple stages. However, due to the significantly increased computational effort of the aeroelastic simulations when adding more stages to the models, these ROMs are rarely applied with the inclusion of multistage aeroelastic effects. It is therefore desirable to develop reduction methods which minimize the number of these simulations to reduce the computational cost and thereby enable analyses of rotors with multiple stages including aeroelastic effects. In this paper, a cyclic Craig-Bampton reduction method with an a priori interface reduction for multistage rotors is extended with an additional a posteriori interface reduction to reduce the number of aeroelastic simulations necessary for a given accuracy level of the ROM. The interface degrees of freedom between stages are reduced using a modified version of Characteristic Constraint Modes, to yield a more efficient representation of their displacements while retaining their monoharmonic nature. The method is applied to a two-stage axial compressor with full aeroelastic coupling between the stages and its reduced computational effort is demonstrated. Additionally, two sorting methods for the degrees of freedom (DOFs) of the ROM are compared.
包含多级气动弹性和结构耦合的改进叶盘降阶模型
为了评估失谐对涡轮机械转子振动幅值的影响,广泛使用了降阶模型。对于单级结构,有多种方法可用,并且大多数可以考虑气动弹性效应。最近的研究重点是将这些方法扩展到多个阶段。然而,由于在模型中加入更多的级时,气动弹性模拟的计算工作量会显著增加,因此这些rom很少应用于包含多级气动弹性效应的模型。因此,需要开发减少这些模拟次数的简化方法,以减少计算成本,从而能够分析包括气动弹性效应在内的多级旋翼。本文将多级旋翼的克雷格-班普顿循环约简方法与先验界面约简进行了扩展,并增加了一个额外的后测界面约简,以减少给定ROM精度水平所需的气动弹性模拟次数。使用改进版本的特征约束模式降低了级之间的界面自由度。在保持它们的单谐性质的同时,更有效地表示它们的位移。将该方法应用于两级完全气动弹性耦合的轴流压气机,计算结果表明,该方法减少了计算量。此外,比较了两种ROM自由度排序方法。
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
Journal of the Global Power and Propulsion Society
Journal of the Global Power and Propulsion Society Engineering-Industrial and Manufacturing Engineering
CiteScore
2.10
自引率
0.00%
发文量
21
审稿时长
8 weeks
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