Vibration and Aerodynamic Analysis and Optimization Design of a Test Centrifuge

IF 1.9 Q3 ENGINEERING, MECHANICAL

Vibration Pub Date : 2023-10-15 DOI:10.3390/vibration6040054

Chunyan Deng, Lidong He, Zhifu Tan, Xingyun Jia

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Abstract

Taking a type of test centrifuge as the research object, the finite element model of the test centrifuge was established, the vibration characteristics and aerodynamic performance of the test centrifuge were analyzed, and a structural optimization design of the test centrifuge was carried out. In this paper, the load was applied according to the actual working condition of a type of test centrifuge. The vibration of the mounting seat of the test centrifuge was analyzed, and the structure of the mounting seat was improved. After improvement, the vibration of the mounting seat was 77.38% lower than that of the original mounting seat. Then, the aerodynamic analysis of the test centrifuge was carried out. The analysis results show that the test centrifuge moved more smoothly under the whole-package shell and the fairing, the resistance decreased, and the shaft load decreased. Finally, the fairing of the test centrifuge was optimized. The analysis shows that an increase in the width of the fairing can reduce the resistance coefficient, which is helpful to the stability of the test centrifuge during operation and reduces the unbalanced response of the system caused by air resistance.

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试验离心机振动与气动分析及优化设计

以某型试验离心机为研究对象，建立了试验离心机有限元模型，分析了试验离心机的振动特性和气动性能，并对试验离心机进行了结构优化设计。本文根据某型试验离心机的实际工况，对其施加载荷。对试验离心机安装座的振动进行了分析，对安装座的结构进行了改进。改进后的安装座振动比原安装座振动降低77.38%。然后，对试验离心机进行了气动分析。分析结果表明，试验离心机在整体式壳体和整流罩下运行更加平稳，阻力减小，轴载荷减小。最后，对试验离心机的整流罩进行了优化。分析表明，增大整流罩宽度可以减小阻力系数，有利于试验离心机运行时的稳定性，减少空气阻力引起的系统不平衡响应。

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

Vibration

CiteScore

3.20

自引率

0.00%

发文量

审稿时长

10 weeks