Efficient analysis of unsteady flows within multi-stage turbomachines using the coupled time and passage spectral method

IF 1.1 Q4 ENGINEERING, MECHANICAL
Dingxi Wang, Sen Zhang, Xiuquan Huang
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引用次数: 0

Abstract

A coupled time and passage spectral method has been proposed very recently for tracking blade wakes penetrating the immediate downstream blade row and reaching far downstream blade rows. To achieve an efficient numerical analysis, the number of time and space modes to be retained has to be limited, as the computational cost of such an analysis is at least proportional to the number of modes. In this study, time and space modes related to downstream propagation of blade wakes reaching beyond their immediate downstream blade row are ranked according to their amplitudes of flow quantities through a time domain harmonic balance analysis using a domain consisting of multiple blade passages for the third row to capture the wakes of the first row of a two-stage fan. Modes with significant amplitudes are identified and they are really sparse. This sparsity of significant modes provides the premise for an efficient analysis using the coupled time and passage spectral method. A guideline for a priori selection of time and space modes has been developed by analyzing the frequencies and nodal diameters of those significant modes. The guideline is subsequently verified through four different coupled time and passage spectral analyses with different levels of accuracy by including different time and space modes.
利用耦合时间和通道谱方法高效分析多级涡轮内部非定常流动
最近提出了一种耦合时间和通道谱方法,用于跟踪穿透直接下游叶列并到达远下游叶列的叶片尾流。为了实现有效的数值分析,必须限制要保留的时间和空间模式的数量,因为这种分析的计算成本至少与模式的数量成比例。在本研究中,通过时域谐波平衡分析,使用由第三排的多个叶片通道组成的域来捕捉两级风机第一排的尾流,根据其流量振幅对与叶片尾流下游传播相关的时间和空间模式进行排序,这些尾流到达其直接下游叶排之外。具有显著振幅的模式被识别,并且它们实际上是稀疏的。有效模式的这种稀疏性为使用耦合时间和通道谱方法进行有效分析提供了前提。通过分析这些重要模式的频率和节点直径,制定了时间和空间模式的先验选择指南。随后,通过四种不同的耦合时间和通道谱分析,通过包括不同的时间和空间模式,以不同的精度水平验证了该指南。
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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