Deposition on film-cooled turbine components was studied in an accelerated test facility. The accelerated deposition facility seeds a natural-gas burning combustor with finely-ground coal ash pariticulate at 1180°C and 180 m/s (M = 0.25). Both cylindrical and shaped holes, with and without TBC coating, were studied over a range of blowing ratios from 0.5 to 4.0. Coolant density ratios were maintained at values from 2.1 to 2.4. Deposition patterns generated with the cylindrical film cooling holes indicated regions of low deposition in the path of the coolant, with heightened deposition between film holes. This distinctive pattern was more accentuated at higher blowing ratios. Optical temperature measurements of the turbine component surface during deposition showed elevated temperatures between coolant paths. This temperature non-uniformity became more accentuated as deposition increased, highlighting a mechanism for deposition growth that has been documented on in-service turbines as well. The shaped-hole components exhibited little or no deposition in the region just downstream of the holes, due to the distributed coolant film. Close cylindrical hole spacing of 2.25d displayed similar behavior to the shaped hole configuration.
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机译:在加速测试设备中研究了膜冷式涡轮机部件上的沉积。加速沉积设备在1180°C和180 m / s(M = 0.25)的条件下,向燃烧天然气的燃烧室注入细磨的煤灰。在0.5至4.0的吹塑比范围内,研究了带和不带TBC涂层的圆柱孔和异形孔。冷却剂密度比保持在2.1至2.4的值。用圆柱形薄膜冷却孔产生的沉积图案表示在冷却剂路径中低沉积的区域,在薄膜孔之间的沉积增加。在较高的吹气比下,这种独特的模式更加突出。沉积过程中涡轮机部件表面的光学温度测量结果表明,冷却剂路径之间的温度升高。随着沉积物的增加,温度的不均匀性变得更加突出,这也突出了一种已在使用中的涡轮机上记录下来的沉积物生长机理。由于分布的冷却剂膜,成形孔组件在孔的下游区域几乎没有沉积或没有沉积。封闭的2.25d圆柱孔间距显示出与异型孔配置相似的行为。
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