Adrien Vasseur, Nicolas Binder, Fabrizio Fontaneto, Jean-Louis Champion
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引用次数: 0
Abstract
Wall proximity affects the accuracy of pressure probe measurements with a particularly strong impact on multi-hole probes. The wall-related evolution of the calibration of two hemispheric L-shaped 3D-printed five-hole probes was investigated in a low-speed wind tunnel. Pressure measurements and 2D particle image velocimetry were performed. The wall proximity causes the probe to measure a flow diverging from the wall, whereas the boundary layer causes the probe to measure a velocity directed towards the wall. Both angular calibration coefficients are affected in different manners. The error in angle measurement can reach 7°. These errors can be treated as calibration information. Acceleration caused by blockage is not the main reason for the errors. Methods to perform measurements closer to the wall are suggested.
靠近墙壁会影响压力探头的测量精度,对多孔探头的影响尤其大。我们在低速风洞中研究了两个半球形 L 形 3D 打印五孔探头的校准与墙壁相关的演变。进行了压力测量和二维粒子图像测速。靠近壁面会导致探头测量偏离壁面的气流,而边界层会导致探头测量朝向壁面的速度。两种角度校准系数受到不同方式的影响。角度测量误差可达 7°。这些误差可作为校准信息处理。堵塞造成的加速度并不是产生误差的主要原因。建议采用更靠近墙壁的方法进行测量。
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