TY - JOUR TI - Impact of V-shaped interrupted ribs in cross-flow channels on film cooling AU - Wang Ke AU - Jia Xu AU - Wang Yongqing AU - Chen Weijie AU - Han Yu AU - Liu Yunshu AU - An Bo JN - Thermal Science PY - 2024 VL - 28 IS - 4 SP - 3093 EP - 3106 PT - Article AB - This study primarily investigates the enhanced heat transfer of V-shaped ribs with¬in an internal cross-flow channel and their impact on external film cooling per¬formance. The aim is to assess the advantages of V-shaped ribs in the cooling of gas turbine blades. The research specifically discusses the internal heat transfer efficiency of smooth channels, channels with V-shaped ribs, and channels with intermittently placed V-shaped ribs at a blowing ratio, M, of 0.5 and three different Reynolds numbers. The results indicate that the vortices generated by the coolant passing through the positive V-shaped ribs and intermittently placed V-shaped ribs effectively impinge on the upper and lower surfaces, thereby enhancing heat trans¬fer performance. Regarding film cooling, under low Reynolds number conditions, the film cooling efficiency of the positive V-shaped ribs is 9-20% higher than that of the smooth channel. Under high Reynolds number conditions, the film cooling efficiency of the negative V-shaped ribs significantly increases, reaching 29-120%. The study demonstrates that rib shape and inlet Reynolds number have a signifi¬cant impact on the swirl intensity of the coolant in the film cooling holes, and fluid with a certain swirl intensity exhibits better film cooling efficiency.