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Shock Tube Study of the Effects of Large Density Differences and Blowing Ratio onHeat Transfer to a Film-Cooled Flat Plate (Final Report)

机译：冲击管研究大密度差异和吹胀比对薄膜冷却板转热的影响（最终报告）

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The effects of coolant-to-mainstream density ratio (D.R.) and mass flux (blowing)ratio (Mb) on flat plate heat transfer were investigated in a shock tube. The round-nosed plate has a single row of holes inclined 35 deg downstream with two-diameter lateral spacing and hole length of three diameters. Mixing helium with air in the shock tube produced a D.R. range of 1.2 to 2.1. The parameters studied approach those of film-cooled turbine components. For an Mb range of 0.4 to 3 and 10% mainstream turbulence, heat flux was measured with thin-film heat flux gauges located 4 to 30 hole diameters downstream of the cooling holes using an electrical analog. Various flow conditions were produced over the flat plate. The 'steady' portion of turbulent flow heat transfer data compared within 20% of the theoretical flat plate solution. Ratios of heat flux with cooling to heat flux without cooling versus M. and D.R. were determined. Analysis of the results showed film cooling heat transfer is correlated by coolant-to-mainstream velocity ratio. Effectiveness of cooling was reduced by the high mainstream turbulence....Film cooling, Free-stream turbulence, Heat transfer, Shock tube, Turbulent flow, Density ratio, Blowing ratio, Flat plate, Gas turbine.

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Eads, T. A.;
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年度 1992
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总页数 183
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Gas turbines; Heat transfer; Turbine components; Air; Analogs; Coolants; Density; Diameters; Film cooling; Flow; Free stream; Heat flux; Helium; Length; Mixing; Parameters; Plates; Ratios; Shock tubes; Streams; Thin films; Transfer; Tubes; Turbines; Turbu;

机译：燃气轮机;传热;涡轮机部件;空气;类似物;冷却剂;密度;直径;薄膜冷却;流动;自由流;热通量;氦;长度;混合;参数;板;比率;激波管;流;薄膜;转让;管;汽轮机; Turbu;

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Shock Tube Study of the Effects of Large Density Differences and Blowing Ratio onHeat Transfer to a Film-Cooled Flat Plate (Final Report)

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