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Experimental Investigation Studying the Influence of Dimples on a Film Cooled Turbine Blade Leading Edge

机译：薄膜冷却涡轮叶片前缘凹坑影响的实验研究

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An investigation was conducted to examine the effect of a row of cylindrical surface dimples in reducing the heat load on a turbine blade leading edge model. The models consisted of a foam cylindrical leading edge with a flat afterbody fabricated from Plexiglass. A single coolant hole was located 21.5' from the leading edge, angled 20. to the surface and 90' from the streamwise direction. The leading edge diameter to hole diameter ratio was D/d = 18.7. A row of seven dimples was placed upstream of one of the coolant holes. Infrared thermography techniques were used to determine the adiabatic effectiveness, &(number sigh)951;, and heat transfer coefficient, h, distributions so that the net heat flux reduction could be calculated. Freestream conditions consisted of Reynolds numbers of 60,000 and 30,000 at both low turbulence and high turbulence. At Re = 60k, the dimples proved to increase the area averaged &(number sign)951; by an average of 0.007, while the dimpled cases performed equally, if not slightly poorer, than a smooth surface at the lower Reynolds number. The heat transfer coefficient was not greatly affected by the presence of the dimples beyond an x/d location of 0.5. Because the heat transfer coefficient remained relatively unchanged while &(number sign)951; increased at Re = 60k, the area averaged net heat flux reduction was increased slightly, by an average of 0.02, for the cases with dimples at those freestream conditions. Although, the dimpled cases provided slight improvement to the adiabatic effectiveness for some cases, any advantage was generally less than the uncertainty, indicating that the dimples' effect was negligible.

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作者
Frisinger, P. G.;
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年度 2009
页码 p.1-171
总页数 171
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Gas turbine blades ; Heat transfer coefficients ; Leading edges ; Coolants ; Holes(Openings) ; Infrared radiation ; Heat flux ; Free stream ; Adiabatic conditions ; Reynolds number ; Thermography ; Turbomachinery ; Afterbodies ; Cylindrical bodies ; Turbulence ; Plexiglas ; Diameters ; Theses;

机译：燃气轮机叶片;传热系数;前缘;冷却剂;孔（开口）;红外辐射;热通量;自由流;绝热条件;雷诺数;热成像;涡轮机械;后体;圆柱体;湍流;树脂玻璃;直径;论文;

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Experimental Investigation Studying the Influence of Dimples on a Film Cooled Turbine Blade Leading Edge

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