Gas turbine blade flow analysis comparison using CFD and Wind Tunnel

Proceedings of 2012 9th International Bhurban Conference on Applied Sciences & Technology (IBCAST) Pub Date : 2012-04-03 DOI:10.1109/IBCAST.2012.6177554

M. Abid, M. Sarwar, A. Tahir, S. Shah, M. Shehryar

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引用次数: 2

Abstract

General Electric turbine blades are commonly used in many industrial gas turbine applications. The blade made by GE is twisted along its length so its modeling is quite difficult. The blade has been designed using reverse engineering technique in which different scans of the actual model are taken and then by merging these scans in Geomagic Studio software, analytical model is made. The remaining difficulty of generating grid is done in Gridgen. In order to manufacture the blade, a mold of plaster of paris was prepared using actual blade model as pattern. Then fiber glass is poured into the mold to make the physical model for testing. The flow analysis was done experimentally in a Wind Tunnel at low velocities so as to avoid the blade stall and vibrational effects. The coefficient of drag and lift are then computed using gas dynamics theory. While CFD analysis was done using 3D domain and laminar flow approximations to obtain the results for lift and drag coefficients. The results of CFD simulations are then compared with the experimentally calculated data. There is a slight difference in the compared results owing to the fact that ideal conditions could not be maintained experimentally.

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基于CFD和风洞的燃气轮机叶片流动分析比较

通用电气涡轮叶片通常用于许多工业燃气轮机应用。GE公司生产的叶片是沿其长度扭曲的，因此建模相当困难。叶片的设计采用逆向工程技术，对实际模型进行不同的扫描，然后通过将这些扫描合并到Geomagic Studio软件中，生成分析模型。剩余的网格生成难点在Gridgen中完成。为了制造叶片，以实际叶片模型为模板，制作了一种巴黎石膏模具。然后将玻璃纤维倒入模具中，制作物理模型进行测试。为了避免叶片失速和振动的影响，在低速风洞中进行了实验流动分析。然后利用气体动力学理论计算了阻力系数和升力系数。而CFD分析则使用三维区域和层流近似来获得升力和阻力系数的结果。并将CFD模拟结果与实验计算数据进行了比较。由于实验上不能维持理想的条件，所比较的结果略有不同。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 2012 9th International Bhurban Conference on Applied Sciences & Technology (IBCAST)

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