NUMERICAL SIMULATION OF GAS-DYNAMIC AND STRENGTH CHARACTERISTICS OF A FAN FOR THE EXPERIMENTAL TEST RIG FOR INVESTIGATION OF ICE BREAKDOWN ON ROTATING WORKING BLADES

Q3 Materials Science

PNRPU Mechanics Bulletin Pub Date : 2023-12-15 DOI:10.15593/perm.mech/2023.1.13

S. Kalyulin, N. A. Kalyulin, V. Modorskii, N. V. Vladimirov

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Abstract

The paper is devoted to modern experimental and computational studies analysis on the point of asymmetric destruction of ice on the surfaces of the working blades of gas-turbine engine blades. A schematic diagram of an experimental setup has been developed, which consists of the following main elements: a wind tunnel, a cold chamber, a model fan, an electric motor, and a high-speed video camera. The experimental setup makes it possible to carry out laboratory studies of the ice formation and destruction processes. The choice of the experimental test rig parameters was made to allow assessing the icing of the blades of a rotating fan, which reproduces the processes occurring on gas turbine engines. Based on the results of three-dimensional gas-dynamic and strength calculations, the design and basic geometrical parameters of the flow path and the dummy fan were determined. The dependences of compression ratio Pk and the power consumption of a model fan Wcons on the value of the mass air flow Gair for a different number of rotor blades are presented. The choice of materials for the disk hub and blades of a dummy fan which experience tensile and bending loads at high rotation speeds up to 12.000 rpm was made, that satisfies the conditions of static and dynamic strength, also the allowable safety factors were evaluated, and pressure characteristics were obtained.

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旋转工作叶片破冰实验试验台风机气动力及强度特性数值模拟

本文对燃气涡轮发动机工作叶片表面冰的不对称破坏点进行了现代实验和计算研究分析。一个实验装置的示意图已经开发，它包括以下主要元素:一个风洞，一个冷室，一个模型风扇，一个电动机和一个高速摄像机。实验装置使得对冰的形成和破坏过程进行实验室研究成为可能。实验试验台参数的选择是为了评估旋转风扇叶片的结冰情况，这可以重现燃气涡轮发动机上发生的过程。根据三维气体动力和强度计算结果，确定了流道和虚拟风机的设计和基本几何参数。给出了不同桨叶数下的空气质量流量Gair值与模型风机压缩比Pk和功率消耗的关系。对高转速下承受拉伸和弯曲载荷的虚拟风机的盘毂和叶片进行了满足静、动强度条件的材料选择，并对其允许安全系数进行了评估，获得了其压力特性。

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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来源期刊

PNRPU Mechanics Bulletin Materials Science-Materials Science (miscellaneous)

CiteScore

1.10

自引率

0.00%

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