Aerodynamic impact of hub and shroud leakage flow on an axial turbine stage

IF 1.7 4区工程技术 Q3 ENGINEERING, MECHANICAL

Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science Pub Date : 2016-08-01 DOI:10.1177/0954406215597711

Huo-xing Liu, Yuge An, Z. Zou

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Abstract

This paper presents a study analyzing the aerodynamic effect and loss mechanism of hub and shroud leakage flow for an axial turbine stage. A series of computational fluid dynamics computations were performed to investigate the effect of various complexity of leakage configurations on the flow field. It is found that a non-linear relationship between different flow systems emerges in the vicinity of both the shroud and hub leakage flow exhibiting a deviation of flow direction and a radial shift of flow pattern, while the efficiency drop caused by the shroud and hub leakage configurations can be added linearly. By analyzing the expansion process in the cooled turbine and the spatial distribution of viscous dissipation term, the loss sources which can be directly traced back to the flow phenomena were indentified. Based on the aerodynamic feature of the turbine, an analytical approach to separate and quantify loss sources was proposed and applied to analyze the turbine. Four kinds of loss mechanisms, referred to as cavity losses, mixing losses, extra losses, and the leakage work reduction, were observed and their contributions were eventually represented by efficiency penalty.

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轴向涡轮级轮毂和叶冠泄漏流的气动影响

本文对某轴向涡轮级轮毂和叶冠泄漏流的气动效应及其损失机理进行了分析研究。通过一系列计算流体力学计算，研究了不同泄漏构型复杂度对流场的影响。研究发现，在叶冠和轮毂泄漏流附近，不同流动系统之间存在非线性关系，表现为流动方向的偏离和流型的径向移位，而叶冠和轮毂泄漏配置引起的效率下降可以线性增加。通过分析冷却涡轮内的膨胀过程和粘性耗散项的空间分布，确定了可直接追溯到流动现象的损失源。根据涡轮的气动特性，提出了一种分离和量化损失源的分析方法，并将其应用于涡轮的气动分析。观察到四种损失机制，即空腔损失、混合损失、额外损失和泄漏功减少，它们的贡献最终用效率损失来表示。

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

Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 工程技术-工程：机械

CiteScore

3.80

自引率

10.00%

发文量

625

审稿时长

4.3 months

期刊介绍： The Journal of Mechanical Engineering Science advances the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in engineering.