Research on the Aerodynamic Noise Characteristics of Heat Exchanger Tube Bundles Based on a Hybrid URANS-FWH Method

IF 2.3 4区 工程技术 Q3 ENGINEERING, CHEMICAL
Guofeng Huang, Heng Wang, Sheng Tian, Wei Tan
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引用次数: 0

Abstract

This paper examines the aerodynamic noise characteristics of heat exchanger tube bundles, with the objective of exploring the frequency and directional features of noise under nonacoustic resonance conditions, to provide assistance in determining acoustic resonance. To predict the flow-induced noise of tube bundles, this study employs a hybrid URANS-FWH method. The transition SST model of URANS is used to accurately simulate the turbulent flow field and obtain precise statistical data on turbulence. The FWH equation is utilized to predict and evaluate the intensity and spectral characteristics of the tube bundle noise. The research findings indicate that the noise generated by the heat exchanger tube bundle is affected by pressure pulsations resulting from vortex motion in the deeper regions of the tube bundles. Notably, within specific frequency ranges, the noise intensity experiences a significant enhancement, potentially triggering complex modes of acoustic resonance. This resonance phenomenon poses safety concerns for equipment and threatens the wellbeing of personnel. Consequently, this study provides a solid theoretical foundation for predicting and controlling noise in heat exchanger tube bundles, offering valuable guidance for practical applications.
基于 URANS-FWH 混合方法的热交换器管束空气动力噪声特性研究
本文研究了热交换器管束的空气动力噪声特性,旨在探索非声学共振条件下噪声的频率和方向特征,为确定声学共振提供帮助。为预测管束的流动诱导噪声,本研究采用了 URANS-FWH 混合方法。URANS 的过渡 SST 模型用于精确模拟湍流流场,并获得精确的湍流统计数据。FWH 方程用于预测和评估管束噪声的强度和频谱特征。研究结果表明,热交换器管束产生的噪声受到管束深部区域涡流运动产生的压力脉动的影响。值得注意的是,在特定频率范围内,噪声强度会显著增强,有可能引发复杂的声共振模式。这种共振现象会对设备造成安全隐患,并威胁到人员的健康。因此,这项研究为预测和控制热交换器管束中的噪声提供了坚实的理论基础,为实际应用提供了宝贵的指导。
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来源期刊
International Journal of Chemical Engineering
International Journal of Chemical Engineering Chemical Engineering-General Chemical Engineering
CiteScore
4.00
自引率
3.70%
发文量
95
审稿时长
14 weeks
期刊介绍: International Journal of Chemical Engineering publishes papers on technologies for the production, processing, transportation, and use of chemicals on a large scale. Studies typically relate to processes within chemical and energy industries, especially for production of food, pharmaceuticals, fuels, and chemical feedstocks. Topics of investigation cover plant design and operation, process design and analysis, control and reaction engineering, as well as hazard mitigation and safety measures. As well as original research, International Journal of Chemical Engineering also publishes focused review articles that examine the state of the art, identify emerging trends, and suggest future directions for developing fields.
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