比菲尔德布朗效应在飞行中的应用研究

C. Lawrence, W. Phipps
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引用次数: 0

摘要

以前已经证明,当暴露于高电压时,推力可以在不对称电容器配置中产生,即所谓的比菲尔德-布朗效应。这种利用这种效应的装置的一个例子被称为离子飞片。该装置没有活动部件,没有燃烧排放,几乎无声。比菲尔德-布朗效应使飞行者能够漂浮在空中。使器件漂浮的推力是通过在电容器配置上施加高压直流电而产生离子风,从而产生从负极向正极的净力。一项调查正在进行,以确定比菲尔德-布朗效应是否可以用来在飞机机翼上产生升力效应,并以此来辅助飞行。为了重现比菲尔德-布朗效应,在高压直流电的作用下,对机翼模型进行了风洞试验。本文概述了在风洞中对机翼翼型模型进行的试验,以及所采取的经验测量。对结果进行了分析,并提出了在固定翼飞机上使用比菲尔德-布朗效应的潜在效益的论点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Investigation into the Application of Biefeld Brown Effect on Flight
It has been previously demonstrated that thrust can be produced in asymmetrical capacitor configurations when exposed to high voltage in what is known as the Biefeld-Brown effect. One example of such a device that utilises this effect is called an ionic flyer. The device has no moving parts, no combustion emissions and near silent. The Biefeld-Brown effect causes the flyer to be able to float in the air. The thrust that causes the device to float is created by the application of high voltage dc across a capacitor configuration resulting in an ionic wind, creating a net force from the negative toward the positive terminal. An investigation is undertaken to determine if the Biefeld-Brown effect could be used to create a lifting effect on an aircraft wing and as such aid flight. A model aerofoil wing was tested in a wind tunnel under the application of high voltage dc in order to reproduce the Biefeld-Brown effect. This paper outlines the tests that were conducted in the wind tunnel on a wing aerofoil model, as well as the empirical measurements taken. Results are analysed and arguments presented on the potential benefits of using the Biefeld-Brown effect on fixed wing aircraft.
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