%0 Journal Article %A Horbach, Tim %A Schulz, Achmed %A Bauer, Hans-Jorg %D 2010 %I Begell House %K rib array, heat transfer coefficients, discharge coefficients, blade cooling, flow interaction, internal turbulators, cooling design, slot, blowing ratio %N 8 %P 849-865 %R 10.1615/HeatTransRes.v41.i8.50 %T Trailing Edge Film Cooling of Gas Turbine Airfoils — Effects of Ejection Lip Geometry on Film Cooling Effectiveness and Heat Transfer %U https://www.dl.begellhouse.com/journals/46784ef93dddff27,734f68c856e85bfc,3ab9b56251c39e4a.html %V 41 %X The present paper concentrates on trailing edge film cooling of modern high-pressure turbine blades using cooling ejection through planar slots with a pressure side cutback. The experimental test section consists of a generic scaled-up trailing edge model. The effects of different geometric configurations on the structure and the performance of the cooling film are investigated in terms of film cooling effectiveness, heat transfer coefficients, and discharge behavior. The interaction between an internal turbulator array of ribs with the ejection slot lip is of major interest. Different designs of the cooling ejection lip are applied. Four different ratios of lip thickness to ejection slot height (t/H = 0.2, 0.5, 1.0, 1.5) are investigated, as well as three different lip contours representing typical manufacturing imperfections and wear. The experiments are performed at engine-realistic density ratios. The blowing ratios are varied between 0.2 < M < 1.25. The results show a strong dependency on ejection lip thickness and only marginal changes when the lip shape is varied. %8 2011-02-11