Multicellular piezoelectric actuator for setting in motion fluids, and heat exchange enhancement

2013 IEEE 11th International Workshop of Electronics, Control, Measurement, Signals and their application to Mechatronics Pub Date : 2013-06-24 DOI:10.1109/ECMSM.2013.6648958

Mounir Amokrane, B. Nogarede, P. Riviere, L. Leal, M. Miscevic, P. Lavieille, F. Topin, L. Tadrist

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引用次数: 1

Abstract

In this paper, a multi-cellular piezoelectric actuator has been dimensioned, designed and integrated into an electro-active morphing wall heat exchange demonstrator. The design study was performed using finite element simulations. Numerical study shows that the obtained deflections vary from 77 to 462 μm for applied displacement ranging from 3 to 18 μm. Once the operating principle validated, a series of actuators has been machined and tested. Dynamic tests (unloaded) gives a maximum displacement about 230 μm for a frequency ranging up to 100 Hz. However the static tests give results with a good agreement with simulation. The developed actuators have been introduced into a demonstrator to show the feasibility of an intensification of heat exchange by electro-active morphing. The recovered data have demonstrated the feasibility of pumping for a traveling wave of 5 Hz closing quasi-totally the channel. Another result is the reduction of wall temperatures during the application of a traveling wave on the, thereby that the heat transfer was intensified. Moreover, an increase in the rate of flow was observed. All this results demonstrate the enhancement of heat transfer.

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用于设置运动流体和增强热交换的多细胞压电驱动器

本文对多单元压电致动器进行了尺寸设计，并将其集成到电主动变形壁热交换演示器中。设计研究采用有限元模拟进行。数值研究表明，当施加的位移为3 ~ 18 μm时，得到的挠度变化范围为77 ~ 462 μm。一旦工作原理得到验证，一系列的执行器就被加工和测试了。动态测试(卸载)给出的最大位移约为230 μm，频率范围高达100 Hz。静态试验结果与仿真结果吻合较好。并将所研制的致动器引入演示器，以证明电主动变形强化换热的可行性。恢复的数据证明了泵送5hz行波近乎完全关闭通道的可行性。另一个结果是在施加行波时壁面温度降低，从而加强了传热。此外，还观察到流速的增加。所有这些结果都证明了传热的增强。

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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2013 IEEE 11th International Workshop of Electronics, Control, Measurement, Signals and their application to Mechatronics

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