Aerodynamic Aspect of the Problem Relating to the Reduction of the Vibration Strain in the Axial Compressor Blades of the Gas Turbine Engine

NTU "KhPI" Bulletin: Power and heat engineering processes and equipment Pub Date : 2022-12-28 DOI:10.20998/2078-774x.2022.03.02

O. Krasnikov, Yu P Kukhtin

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Abstract

Consideration was given to the design methods available in practice for an increase in the vibration reliability of the blades of axial compressor. The problem was formulated to show the possibility of the reduction of the strain in the blade nib by the control of the exciting aerodynamic forces. When it is impossible to eliminate the resonance completely and the measures taken to increase structural damping fail to give positive effect it is reasonable to make use of the possibility of the strain reduction by the control of the excitation source. Consideration was given to the aerodynamic aspect of the problem relating to an increase of the vibration reliability of the blades of axial compressor. The aerodynamic loads affecting the axial compressor blades ranging from the trace to potential effects of adjacent shrouds were determined numerically. The program package SUnFlow with the realized in it numerical integration of the Reynolds-averaged Naiver-Stocks equations was used as an investigation tool. The high-pressure compressor stage containing 120 blades of the input guide unit, 83 operating blades and 104 blades of the guide system was used as a test object. The computations were done for the initial structure of the compressor stage and for the stage structure with embedded measures in the form of the variable- pitch input guide unit. Nonstationary computations of the options were done by including the three stage rings into the computation domain of total circumferences. Based on the obtained computation data, the integral and distributed loads onto operating blade were analyzed for comparable stage options. For the obtained distributed loads, the bend strains were calculated using the rod theory. Based on the obtained experimental data, the conclusion was made that the strains can be reduced in the blade nib by the control of the exciting aerodynamic forces.

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减少燃气轮机轴向压气机叶片振动应变问题的气动方面研究

为提高轴流压气机叶片的振动可靠性，考虑了现有的设计方法。该问题是为了说明通过控制激励气动力来减小叶片尖部应变的可能性。当不可能完全消除谐振，增加结构阻尼的措施也不能起到积极作用时，可以利用控制激励源的可能性来减小应变。考虑了提高轴向压气机叶片振动可靠性的气动方面的问题。数值计算了影响轴向压气机叶片的气动载荷，范围从邻近叶冠的迹线到潜在影响。利用程序包SUnFlow及其实现的reynolds -average naver - stocks方程的数值积分作为研究工具。以高压压气机级为试验对象，该级包含输入导向单元的120片叶片、83片操作叶片和导向系统的104片叶片。对压气机级的初始结构和以变螺距输入导向单元形式嵌入措施的级结构进行了计算。通过将三级环纳入总周长计算域，实现了各选项的非平稳计算。根据得到的计算数据，对工作叶片的整体载荷和分布载荷进行了分析，给出了可比较的阶段选择。对于得到的分布荷载，采用杆理论计算弯曲应变。根据得到的实验数据，得出了通过控制激励气动力可以减小叶尖应变的结论。

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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NTU "KhPI" Bulletin: Power and heat engineering processes and equipment

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