通过挤压膜悬浮控制非接触运输的倾斜的好处

IF 2.8 Q2 MECHANICS Flow (Cambridge, England) Pub Date : 2023-08-30 DOI:10.1017/flo.2023.22
Sankaran Ramanarayanan, A. L. Sánchez
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引用次数: 1

摘要

摘要本文发展了一种理论描述,涉及使用挤压膜悬浮操作的非接触输送系统中的流体流动。采用正则摄动方法求解了控制振荡体与悬浮体之间的细长膜中粘性、可压缩空气流动的适当雷诺方程。由此产生的简化公式可以有效地计算由流体压力引起的时间平均悬浮力和力矩,以及伴随的准静态推力(另外考虑剪切应力)。特别要研究的是结合两种不同的推力产生方法的可能性,这两种方法已经在以前的研究中得到了实验证明——(i)悬浮体的倾斜和(ii)在振荡器表面产生不对称的弯曲变形,如行波——后者被证明允许从典型的排斥性悬浮力转变为吸引力。计算结果表明,系统地控制倾斜角度可以为挤压膜输送系统提供显著的性能效益。在吸引力悬浮的情况下,可以获得的改善量似乎与弯曲振荡所表现出的横向不对称程度密切相关。
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Benefits of controlled inclination for contactless transport by squeeze-film levitation
Abstract Developed in this paper is a theoretical description of the fluid flow involved in contactless transport systems that operate using squeeze-film levitation. Regular perturbation methods are employed to solve the appropriate Reynolds equation that governs the viscous, compressible flow of air in the slender film separating the oscillator and the levitated object. The resulting reduced formulation allows efficient computation of the time-averaged levitation force and moment induced by fluid pressure, as well as the accompanying quasistatic thrust force that accounts additionally for shear stresses. Investigated, in particular, is the possibility of combining two distinct methods of thrust generation that have been experimentally demonstrated in previous studies – (i) inclination of the levitated body and (ii) generation of asymmetrical flexural deformations, such as travelling waves, on the oscillator surface – the latter of which is shown to allow a transition from the typically repulsive levitation force to one that is attractive. Computations reveal that systematic control of the inclination angle can provide significant performance benefits for squeeze-film transport systems. In the case of attractive levitation, the amount of improvement that can be obtained appears to correlate closely with the degree of lateral asymmetry exhibited by the flexural oscillations.
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