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SCALING LAWS FOR ELECTROHYDRODYNAMIC AIR MOVERS

机译：电液动力换气器的尺度定律

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As modern electronic devices become more compact and capable, device cooling has become critical not only for the reliability and stability of the electronic circuitry, but also for the comfort of the user. Forced convection can be effective at removing heat to the ambient environment. However, considerable implementation challenges remain for cooling solution thicknesses below 6mm, where the height of rotary fans is a limiting factor. While scaling laws for fans have been previously reported in the literature, the scaling rules for electrohydrodynamic (EHD) air movers have not been widely studied. This paper explores the impact of thickness, width, and input power on pressure and airflow of EHD air movers using coupled-physics modeling, with experimental validation of the results. Device thicknesses were in the 2 to 6mm range, device widths in the 10 to 100mm range, and input powers between 0.25W and 2.5W.

机译：随着现代电子设备变得更加紧凑和功能强大，设备冷却不仅对于电子电路的可靠性和稳定性，而且对于用户的舒适性都变得至关重要。强制对流可以有效地将热量散发到周围环境。但是，对于厚度小于6mm的冷却溶液，仍然存在相当大的实施挑战，而旋转风扇的高度是一个限制因素。尽管以前在文献中已经报道了风扇的缩放定律，但是电动流体动力学（EHD）鼓风机的缩放定律尚未得到广泛研究。本文使用耦合物理模型探讨了厚度，宽度和输入功率对EHD鼓风机压力和气流的影响，并通过实验验证了结果。器件厚度在2至6mm范围内，器件宽度在10至100mm范围内，输入功率在0.25W至2.5W之间。

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《ASME/JSME thermal engineering joint conference;AJTEC2011 》|2012年|p.865-873|共9页
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Nels E. Jewell-Larsen; Gustavo G. Joseph; Kenneth A. Honer;
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中图分类热力工程理论 ;
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SCALING LAWS FOR ELECTROHYDRODYNAMIC AIR MOVERS

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