タイトル | Sensor for Boundary Shear Stress in Fluid Flow |
本文(外部サイト) | http://hdl.handle.net/2060/20120007389 |
著者(英) | Bar-Cohen, Yoseph; Badescu, Mircea; Widholm, Scott E.; Kerenyi, Kornel; Lih, Shyh-Shiuh; Sherrit, Stewart; Trease, Brian P.; Chang, Zensheu; Ostlund, Patrick N.; Bao, Xiaoqi |
著者所属(英) | California Inst. of Tech. |
発行日 | 2012-04-01 |
言語 | eng |
内容記述 | The formation of scour patterns at bridge piers is driven by the forces at the boundary of the water flow. In most experimental scour studies, indirect processes have been applied to estimate the shear stress using measured velocity profiles. The estimations are based on theoretical models and associated assumptions. However, the turbulence flow fields and boundary layer in the pier-scour region are very complex and lead to low-fidelity results. In addition, available turbulence models cannot account accurately for the bed roughness effect. Direct measurement of the boundary shear stress, normal stress, and their fluctuations are attractive alternatives. However, most direct-measurement shear sensors are bulky in size or not compatible to fluid flow. A sensor has been developed that consists of a floating plate with folded beam support and an optical grid on the back, combined with a high-resolution optical position probe. The folded beam support makes the floating plate more flexible in the sensing direction within a small footprint, while maintaining high stiffness in the other directions. The floating plate converts the shear force to displacement, and the optical probe detects the plate s position with nanometer resolution by sensing the pattern of the diffraction field of the grid through a glass window. This configuration makes the sensor compatible with liquid flow applications. |
NASA分類 | Fluid Mechanics and Thermodynamics |
レポートNO | NPO-47812 |
権利 | Copyright, Distribution as joint owner in the copyright |
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