Experimental research in rotating wedge-shaped cooling channel with multiple non-equant holes lateral inlet |
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Authors: | Huimin ZHOU Haiwang LI Zhi TAO Hongwu DENG Meisong YANG Shuqing TIAN |
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Institution: | 1. National Key Laboratory of Science and Technology on Aero-Engine Aero-Thermodynamics, Beihang University, Beijing 100083, China;2. Collaborative Innovation Center of Advanced Aero-Engine, Beihang University, Beijing 100083, China;3. Research and Development Center, AVIC Commercial Aircraft Engine Co., Ltd., Shanghai 201108, China |
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Abstract: | The heat transfer in a novel smooth wedge-shaped cooling channel with lateral ejection of turbine blade trailing edge is experimentally investigated in both non-rotating and rotating cases. Beside the conventional inlet at the bottom of the channel, an extra coolant injection from 8 lateral non-equant holes is introduced to improve the overall heat transfer. The total mass flow rate ratio (lateral mass flow rate/total mass flow rate) varies from 0 to 1.0. The major inlet Reynolds number and rotation number respectively vary from 10000 to 20000 and from 0 to 1.16. Experimental results show that the lateral inlet decreases local bulk temperature and increases local heat transfer at the middle and the top of the static channel. In rotating cases, the lateral inlet notably improves the heat transfer at the high-radius half channel and compensates the negative effects induced by the rotation. Both intensity and uniformity of heat transfer inside the channel are enhanced while flow resistance decreases with proper mass flow rate ratio of coolant from two inlets. The most satisfactory total mass flow rate ratio is around 2/3. This new structural style of cooling channel has huge potential and provides new direction of heat transfer of turbine blade trailing edge. |
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Keywords: | Heat transfer Lateral inlet Rotor blades trailing edge Rotating Wedge-shaped channel |
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