Cantilevered Tandem Stator in Annular High Speed Test Rig

IF 1.3 Q2 ENGINEERING, AEROSPACE
Roland Rückert, D. Peitsch
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引用次数: 0

Abstract

The present paper investigates the aerodynamic performance of a cantilevered tandem stator based on experiments conducted within a high speed annular test rig at the Technische Universitaet Berlin. A tandem blade in this context describes a double rowed stator configuration where the turning of the incoming flow is split up between two blades arranged in succession. For evaluation purposes, a conventional single bladed stator is used as reference. To provide machine relevant boundary conditions of cantilevered stator assemblies, the moving hub wall is recreated by a rotating disk. Overall, the tandem stator is able to achieve higher flow turning while keeping the total pressure losses below those of a single stator. It is found that the tandem stator in general behaves similar to the conventional stator. When installed in cantilevered fashion, both stator types benefit considerably in terms of loss reduction. Without the hub clearance and therefore absence of the clearance flow, each of the configurations suffered from severe corner separation. The tandem stator responds more sensitively to change in clearance height.
环形高速试验台悬挑串联定子
本文基于在柏林工业大学高速环形试验台上进行的实验,研究了悬臂串联定子的气动性能。本文中的串联叶片描述了双列定子配置,其中流入流的转向在连续布置的两个叶片之间分开。出于评估目的,使用传统的单叶片定子作为参考。为了提供悬臂定子组件的机器相关边界条件,通过旋转圆盘重新创建了移动轮毂壁。总的来说,串联定子能够实现更高的流量转弯,同时将总压力损失保持在单个定子的压力损失以下。研究发现,串联定子的性能通常与传统定子相似。当以悬臂方式安装时,两种定子类型在降低损耗方面都有很大的好处。没有轮毂间隙,因此也没有间隙流,每种配置都会出现严重的角分离。串联定子对间隙高度的变化反应更灵敏。
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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