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Title In-flight Receptivity Experiments on a 30-degree Swept-wing using Micron-sized Discrete Roughness Elements
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University/Publisher Texas A&M University
Abstract One of the last remaining challenges preventing the laminarization of sweptwings is the control of unstable crossflow vortices. In low-disturbance environments the transition from laminar to turbulent flow on the swept-wing initially takes the path of receptivity, where surface roughness or disturbances in the environment introduce shortwavelength disturbances into the boundary layer. This is followed by development and linear growth of stationary crossflow vortices that modify the mean flow, changing the stability characteristics of the boundary layer. Finally, breakdown to turbulence occurs over a short length scale due to the high-frequency secondary instability. The receptivity mechanism is the least understood, yet holds the most promise for providing a laminar flow control strategy. Results of a 3-year flight test program focused on receptivity measurements and laminar flow control on a 30-degree swept-wing are presented. A swept-wing test article was mounted on the port wing of a Cessna O-2A aircraft and operated at a chord Reynolds number of 6.5 to 7.5 million. Spanwise-periodic, micronsized discrete roughness elements were applied at the leading edge of the swept-wing in order to excite the most unstable crossflow wavelength and promote early boundary layer transition. An infrared camera was used to detect boundary-layer transition due to changes in leading-edge roughness. Combined with the IR camera, a new technique of calibrating surface-mounted hotfilms was developed for making disturbance-amplitude measurements downstream of modulated roughness heights. This technique proved to be effective at measuring disturbance amplitudes and can be applied in future tests where instrumentation is limited. Furthermore, laminar flow control was performed with subcritically-spaced roughness. A 100% increase in the region of laminar flow was achieved for some of the conditions tested here.
Subjects/Keywords Receptivity; Laminar Flow; Boundary Layer; Swept-Wing; Roughness; Hotfilms; Infrared Thermography; Flight Test
Contributors Saric, William S. (advisor); Reed, Helen L. (committee member); Ward, Donald T. (committee member); Duggleby, Andrew (committee member)
Language en
Country of Publication us
Record ID handle:1969.1/ETD-TAMU-2009-05-728
Repository tamu
Date Retrieved
Date Indexed 2017-09-06
Issued Date 2010-01-16 00:00:00

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