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原文传递 Convection from Hemispherical and Conical Model Ice Roughness Elements in Stagnation Region Flows

题名：	Convection from Hemispherical and Conical Model Ice Roughness Elements in Stagnation Region Flows
作者：	Hughes, M. T.; Shannon, T. A.; McClain, S. T.; Vargas, M.; Broeren, A.
关键词：	Surface roughness##Ice formation##Control surfaces##Aircraft icing##Stagnation point##Convective heat transfer##Ice##Convection##Airfoils##
摘要：	To improve ice accretion prediction codes, more data regarding ice roughness and its effects on convective heat transfer are required. The Vertical Icing Studies Tunnel (VIST) at NASA Glenn Research was used to model realistic ice roughness in the stagnation region of a NACA 0012 airfoil. In the VIST, a test plate representing the leading 2% chord of the airfoil was subjected to flows of 7.62 m/s (25 ft/s), 12.19 m/s (40 ft/s), and 16.76 m/s (55 ft/s). The test plate was fitted with multiple surfaces or sets of roughness panels, each with a different representation of ice roughness. The sets of roughness panels were constructed using two element distribution patterns that were created based on a laser scan of an iced airfoil acquired in the Icing Research Tunnel at NASA Glenn. For both roughness patterns, surfaces were constructed using plastic hemispherical elements, plastic conical elements, and aluminum conical elements. Infrared surface thermometry data from tests run in the VIST were used to calculate area averaged heat transfer coefficient values. The values from the roughness surfaces were compared to the smooth control surface, showing convective enhancement as high as 400% in some cases. The data gathered during this study will ultimately be used to improve the physical modeling in LEWICE or other ice accretion codes and produce predictions of in-flight ice accretion on aircraft surfaces with greater confidence.
总页数：	15
报告类型：	科技报告