Modelling and simulation of a fluid-driven microturbine

2005 International Symposium on Electronics Materials and Packaging Pub Date : 2005-12-11 DOI:10.1109/EMAP.2005.1598270

C. Sriphung, R. Dhariwal

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引用次数: 2

Abstract

In this paper, an analytical study is presented which looks at the interaction between a rotor and shaft structure and surrounding viscous flow in steady state for a proposed microturbine. The finite element analysis (FEA) package, ANSYS, has been used for analysing in 3D, a nonlinear behaviour model of the fluid-structure interaction. The microturbine module consists of cavity, rotor, step and shaft with air applied as the driving fluid. The rotor can be fixed rigidly on to the shaft, where the shaft itself is free to move up or down but the rotor can also be considered to be rotating around a fixed shaft. Displacement and deflection of the rotor can be derived by the simulation model from the consideration of fluid pressure applied to the inlet at typically 2 kPa. Results are presented for levitation, torque and the volume of gas escaping from small gaps at the top and bottom of the unit, with the shaft protruding out of the module. This is the first step towards considering the power output from the turbine, since this would be done by attaching some sort of gearing mechanism to the protruding shaft.

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流体驱动微型涡轮的建模与仿真

本文分析研究了某型微型水轮机转子与轴系结构之间的相互作用以及周围的粘性流动。利用有限元分析软件ANSYS对流固耦合的非线性行为模型进行了三维分析。微涡轮模块由腔体、转子、台阶和轴组成，以空气作为驱动流体。转子可以刚性地固定在轴上，轴本身可以自由地向上或向下移动，但转子也可以被认为是围绕固定轴旋转。转子的位移和挠度可以通过仿真模型推导，考虑施加在入口的流体压力，通常为2kpa。结果给出了悬浮、扭矩和气体从机组顶部和底部的小间隙逸出的体积，轴伸出模块。这是第一步考虑从涡轮机的功率输出，因为这将是通过附加某种齿轮机构到突出的轴。

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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2005 International Symposium on Electronics Materials and Packaging

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