2008
DOI: 10.1002/htj.20204
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Investigation of film cooling and superposition method for double row dustpan‐shaped holes

Abstract: Film cooling effectiveness for injection from single row and double row dustpan-shaped holes was studied experimentally. The difference in cooling performance between single row and double row holes are described. The results show that the optimal blowing ratio of injection from double row holes is higher than that of injection from a single row hole. In the case of higher blowing ratios, the traditional superposition calculation method underpredicts the film cooling effectiveness of the double row injection b… Show more

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Cited by 5 publications
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“…It has been demonstrated that the additive method suggested by Sellers [68] will under-predict the AFE of the com- bined effect of a single row and showerhead cooling in isolation when compared to a single row of cooling holes in the presence of showerhead cooling. However, it can be recommended that the methods be further investigated to predict the superposition effect of multiple film cooling rows such as the ones discussed in Andreini et al [69], Zhu et al [70] and Benjamin and Thomas [71]. This can be beneficial for design purposes to predict heavily cooled turbine vanes which use multiple arrays of cooling holes.…”
Section: Suction Side Coolingmentioning
confidence: 99%
“…It has been demonstrated that the additive method suggested by Sellers [68] will under-predict the AFE of the com- bined effect of a single row and showerhead cooling in isolation when compared to a single row of cooling holes in the presence of showerhead cooling. However, it can be recommended that the methods be further investigated to predict the superposition effect of multiple film cooling rows such as the ones discussed in Andreini et al [69], Zhu et al [70] and Benjamin and Thomas [71]. This can be beneficial for design purposes to predict heavily cooled turbine vanes which use multiple arrays of cooling holes.…”
Section: Suction Side Coolingmentioning
confidence: 99%