Investigating the hydraulic resonance behavior in pressurized in-series piping systems

IF 1.1 Q3 ENGINEERING, CIVIL

Proceedings of the Institution of Civil Engineers-Engineering and Computational Mechanics Pub Date : 2022-12-05 DOI:10.1680/jencm.21.00006

Badreddine Essaidi, A. Triki

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Abstract

This study outlines a methodology to inspect the resonant characteristics of in-series-pipes hydraulic systems. The numerical model is based on the impedance approach, assuming the sinusoidal fluctuations of flow-rate and pressure parameters, in conjunction with the Transfert Matrix concept, being implemented for automatic calculations within a complex piping systems framework. To verify the validity of the used numerical technique, the computed results were compared with a conventional numerical solution quoted in the literature. Applications address the free and forced vibration cases occurring into an in-series-pipes system. The free vibration case, is caused by an oscillating valve downstream with a constant level tank upstream; while the forced vibration case is caused by the closure of a turbine downstream. The obtained results show the reliability of the proposed numerical procedure to determine the natural frequencies of a complex in-series hydraulic system. However, this study unveils that the “equivalent pipe” concept is not accurate for analyzing the resonating behavior of a complex in-series pipe system.

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串联加压管道系统液压谐振特性研究

本研究概述了一种检测串联管道液压系统谐振特性的方法。数值模型基于阻抗方法，假设流量和压力参数的正弦波动，结合传输矩阵概念，在复杂的管道系统框架内实现自动计算。为了验证所采用数值方法的有效性，将计算结果与文献中引用的常规数值解进行了比较。应用程序解决了在串联管道系统中发生的自由和强制振动情况。自由振动的情况下，是由一个振荡阀下游与一个恒定的液位罐上游;而强迫振动情况是由于下游涡轮关闭造成的。计算结果表明，所提出的确定复杂串联液压系统固有频率的数值方法是可靠的。然而，该研究揭示了“等效管道”概念对于分析复杂串联管道系统的谐振行为并不准确。

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

Proceedings of the Institution of Civil Engineers-Engineering and Computational Mechanics ENGINEERING, CIVIL-

CiteScore

2.60

自引率

0.00%

发文量