The Investigation of Distorted and Enhanced Inlet Flow Influence on the Performance of a Centrifugal Compressor Stage

Yunbae Kim, R. Aungier, A. Engeda, Gregory L. Direnzi
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Abstract

The performance of a centrifugal compressor can be seriously affected by inlet flow distortions due to the unsatisfactory nature of the inlet configuration and the resulting inlet flow structure. In the previous work, experimental tests were carried out for the comparison of a centrifugal compressor stage performance with two different inlet configurations: one of which was a straight pipe with constant cross-sectional area as an ideal model and the other is a 90-degree curved pipe with nozzle shape as an actual model. The comparative test results indicated significant compressor stage performance difference between the two different inlet configurations. In addition, the numerical simulation part of the previous work clearly showed that the inlet flow distortion is caused by the pressure driven secondary flow developed in the curved section in the case of the bend inlet, resulting in locally concentrated incidence at the impeller inlet and thus the compressor stage performance degradation. An improved inlet model with the design method has been proposed based on the comparisons of the designated flow properties. In the present work, further numerical simulations on the compressor stage including the impeller and the diffuser with three different inlets are carried out to investigate the performance behavior of the compressor exposed to different inlet configurations. The three different inlet systems include the original bend inlet as well as the proposed inlet model based on the developed design method. Since the flow from the bend inlet is not axisymmetric due to the circumferential and radial distortion on the cross-section, the impeller and the diffuser are modeled with fully 360-degree passages, which accommodates the inlet flow distortion and the impeller-diffuser interaction influence on the entire flow passage of the compressor. The stage performance with the different inlet systems are evaluated and compared with the previous experimental result. The diffuser performance and the flow properties in the vaneless region are compared among those inlet models. The proposed inlet system indicated the benefit of performance improvement over the original inlet system.
进口气流畸变和增强对离心式压缩机级性能影响的研究
离心式压缩机的性能会受到进口气流畸变的严重影响,这是由于进口配置的不满意性质和由此产生的进口气流结构。在之前的工作中,对两种不同进口结构下的离心压气机级性能进行了实验测试,其中一种是理想模型为等截面积的直管,另一种是实际模型为喷嘴形状的90度弯曲管。对比试验结果表明,两种不同进口结构的压气机级性能存在显著差异。此外,前面工作的数值模拟部分清楚地表明,在弯曲进口的情况下,进口流动畸变是由压力驱动的二次流在弯曲截面发展引起的,导致叶轮进口局部集中入射,从而导致压气机级性能下降。在对指定流动特性进行比较的基础上,提出了一种改进的进气道模型。在本工作中,进一步对压气机级包括叶轮和扩压器进行了三种不同进口的数值模拟,以研究不同进口配置下压气机的性能行为。三种不同的进气道系统包括原始的弯曲进气道以及基于所开发的设计方法提出的进气道模型。由于截面上的周向和径向畸变导致弯曲进口的流动不是轴对称的,因此叶轮和扩压器采用全360度通道进行建模,以适应进口流动畸变和叶轮-扩压器相互作用对压气机整个流道的影响。对不同进气系统下的级性能进行了评价,并与前人的实验结果进行了比较。比较了不同进气道模型的扩压器性能和无叶区流动特性。所提出的进气系统表明,性能改进优于原来的进气系统。
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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