Effect of rotation on the flow behaviour in a high-speed cryogenic microturbine used in helium applications

Sam Ashish Alex; Mondal Joydip; Ghosh Parthasarathi

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Effect of rotation on the flow behaviour in a high-speed cryogenic microturbine used in helium applications

机译：旋转对氦应用中使用的高速低温线虫流动的影响

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The complex flow characteristics in a high-speed helium microturbine used in cryogenic refrigeration and liquefaction cycles are highly influenced by the effects of rotation. In order to enhance the turbine performance and to improve the preliminary design process of the turboexpander, the flow characteristics within the turbine blade passage need to be investigated at different rotational speeds. Here, three-dimensional unsteady flow analysis of a high speed cryogenic microturbine used in helium applications was carried out using Ansys CFX (R). The loss generated by the various secondary and vortical flows for the different cases was quantified in terms of entropy loss coefficient. The loss generating mechanism was also assessed by analysing the velocity vectors, entropy contours and the behaviour of the vortex cores. With change in speed the influence of scraping flow due to relative casing motion and the blade loading on the flow characteristics was found to vary significantly. At lower speeds, the scraping flow decreases and thus augments the tip leakage flow which in turn interacts with the suction side leg of the leading edge vortex to form a single large vortex. This combined vortex increases the velocity defect and thus leads to increased loss generation. The analysis of the vortex core velocity and the blade loading diagram revealed the need for modifications in blade profile for improved turbine performance. Furthermore, the comparison of the CFD results with the Balje's n(s)d(s) chart showed remarkable variations, the results of which can be used to modify the chart for the design of efficient cryogenic microturbines for helium applications. (C) 2017 Elsevier Ltd and IIR. All rights reserved.

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来源
《International Journal of Refrigeration》 |2017年第2017期|共12页
作者
Sam Ashish Alex; Mondal Joydip; Ghosh Parthasarathi;
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作者单位

Indian Inst Technol Cryogen Engn Ctr Kharagpur 721302 W Bengal India;

Indian Inst Technol Cryogen Engn Ctr Kharagpur 721302 W Bengal India;

Indian Inst Technol Cryogen Engn Ctr Kharagpur 721302 W Bengal India;

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原文格式 PDF
正文语种 eng
中图分类制冷理论;
关键词
Cryogenic turboexpander; Microturbine; Computational fluid dynamics; Rotational effects; Loss;

机译：低温涡轮增压器;微型涡轮机;计算流体动力学;旋转效应;损失;

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5. Effect of rotation on the flow behaviour in a high-speed cryogenic microturbine used in helium applications [J] . Sam Ashish Alex, Mondal Joydip, Ghosh Parthasarathi International Journal of Refrigeration . 2017,第期

机译：旋转对氦应用中使用的高速低温线虫流动的影响
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Effect of rotation on the flow behaviour in a high-speed cryogenic microturbine used in helium applications

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