Design and calibration of a new surface-obstacle skin-friction and flow direction meter

ICIASF '95 Record. International Congress on Instrumentation in Aerospace Simulation Facilities Pub Date : 1995-07-18 DOI:10.1109/ICIASF.1995.519113

R. J. Hakkinen

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引用次数: 1

Abstract

Calibration data of surface-obstacle skin friction meters, including blocks, fences, Preston tubes and Stanton tubes, are examined throughout the available ranges of dimensionless wall-shear-stress and pressure-differential parameters. The calibration relationships, including the effect of compressibility, are reformulated in terms of variables containing physical quantities at the wall and including the probe size in only one parameter. In view of the current trend toward miniaturization, special attention was given to the range where the flow disturbance introduced by the probe remains within the near-linear part of the velocity profile. Criteria are derived for the smallest probe protrusion which provides a practically measurable differential pressure at given flow situation. Design of an adjustable/retractable surface-obstacle device for the Wright Laboratory M3 and M6 supersonic wind tunnels is described, and initial results obtained with a simple prototype in the Washington University low-speed wind tunnel are presented.

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一种新型表面障碍皮肤摩擦流量计的设计与标定

表面障碍物表面摩擦计的校准数据，包括块，栅栏，普雷斯顿管和斯坦顿管，在无量纲的墙壁剪切应力和压差参数的可用范围内进行检查。校准关系，包括可压缩性的影响，被重新表述为包含壁面物理量的变量，并且探针尺寸仅包含一个参数。考虑到当前小型化的趋势，特别注意了探头引入的流动扰动保持在速度剖面的近线性部分的范围。导出了在给定流量情况下提供实际可测量的压差的最小探头突出的标准。介绍了Wright实验室M3和M6超声速风洞中可调/可收放表面障碍装置的设计，并介绍了在华盛顿大学低速风洞中使用简单样机获得的初步结果。

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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ICIASF '95 Record. International Congress on Instrumentation in Aerospace Simulation Facilities

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