槽型冷却管对燃气轮机气膜冷却性能的影响

ASME 2018 16th International Conference on Nanochannels, Microchannels, and Minichannels Pub Date : 2018-06-10 DOI:10.1115/ICNMM2018-7655

Hyun-Oh Kim, Hak-Sun Kim, Youn-J. Kim

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引用次数: 0

摘要

燃气轮机的性能在很大程度上取决于工作流体的温度。为了提高燃气轮机的效率，需要提高涡轮进口温度。然而，高温条件下的工作流体会产生热应力，从而损坏涡轮叶片。通过控制工质温度来要求涡轮叶片的方法之一是气膜冷却方法。在本研究中，考虑采用不同径比的槽长(L/Lt)，槽径为d = 1.2 mm的冷却管来提高气膜冷却效率。此外，还考虑了冷却管吹气比(M)和扩散角(δ)的影响。利用ANSYS软件进行了数值研究。17.1，得到了每种情况下的气膜冷却效率。特别是当吹气比M = 1.4、扩散器角δ = 3.5°时，槽长展弦比L/Lt = 0.4的冷却效率最高，达到18%。

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Influence of the Groove-Patterned Cooling Tube on the Film Cooling Performance of Gas Turbine

The gas turbine performance significantly depends on the temperature of working fluid. In order to improve the efficiency of gas turbine, it is required to increase turbine inlet temperature. However, the working fluid in high temperature conditions causes thermal stress which could damage turbine blades. One of the methods to require turbine blades by controlling the temperature of working fluid is a film-cooling method. In this study, cooling tubes with various aspect ratios of groove length (L/Lt) with groove diameter of d = 1.2 mm were considered to enhance the film cooling efficiency. In addition, effects of blowing ratios (M) and diffuser angles (δ) of the cooling tube were considered. Numerical investigations were conducted using ANSYS ver. 17.1, and film cooling efficiencies of each case were obtained. Especially, the case with groove length aspect ratio of L/Lt = 0.4 at blowing ratio M = 1.4 and diffuser angle δ = 3.5° showed the highest cooling efficiency of 18% among all model cases.

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ASME 2018 16th International Conference on Nanochannels, Microchannels, and Minichannels

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