Research lift coefficient on the distance between the revolving cylinders a turbulent stream

Bulletin of the Karaganda University "Physics Series" Pub Date : 2020-03-30 DOI:10.31489/2020ph1/82-87

N. Tanasheva, A. Dyusembaeva, N. N. Shuyushbayeva

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Abstract

In this paper the possibilities of using a system of revolved cylinders as part of a wind turbine are considered. The aerodynamic forces in the cross-flow of a cylinder and a system of two cylinders have been measured. A method for determining the optimal distance between the cylinders in their cross-flow has been developed. We experimentally determined the conditions under which the Magnus effect contributes to the largest increase of a lift force and, correspondingly, to the increase of the wind turbine efficiency. This can be used to create multi-bladed wind turbines of a new generation based on the Magnus effect. The aerodynamic characteristics of the cylinders with diameters 10 cm in diameter, that is the rotary motion, is determined by the maximum value with the coefficient of lifting force and the frontal impedance coefficient. These results are useful for us in practice, as these results can be used in smaller wind speed engines. In the local economy, the use of local wind power is a convenient, affordable, and environmentally friendly, with a minimal wind speed engine focused on reducing the deficit of electricity, which is one of the key issues in rural areas.

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研究升力系数对旋转圆筒之间距离的影响湍流

本文考虑了将旋转圆筒系统作为风力涡轮机一部分的可能性。测量了一个圆筒和两个圆筒系统交叉流中的空气动力。我们还开发了一种方法，用于确定圆筒在交叉流中的最佳间距。我们通过实验确定了马格努斯效应能最大程度增加升力并相应提高风力涡轮机效率的条件。这可用于制造基于马格努斯效应的新一代多叶风力涡轮机。直径为 10 厘米的圆柱体的空气动力特性，即旋转运动，是由升力系数和正面阻抗系数的最大值决定的。这些结果在实践中对我们很有用，因为这些结果可以用于较小风速的发动机。在地方经济中，利用当地风力发电是一种方便、实惠、环保的方法，最小风速发动机的重点是减少电力不足，这是农村地区的关键问题之一。

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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Bulletin of the Karaganda University "Physics Series"

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