On the Dynamic Loading Effects of Soil on Plastic Water Distribution Pipes and its Significance for Leak Detection Using Acoustics

O. Scussel, M. Brennan, J. Muggleton, Fabrício César Lobato de Almeida, A. Paschoalini
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引用次数: 2

Abstract

Detection and location of leaks in buried plastic fluid-filled pipes are topics of increasing concern for water distribution companies. Acoustic correlation techniques have been widely used to provide an accurate estimate of the position of a leak in order to reduce the wastage of water. However, this technique depends on an accurate estimate of the wave propagation speed along the pipe, which is heavily dependent on the type of soil in which the pipe is buried. The soil also affects the distance that leak noise will propagate along the pipe. This paper describes theoretical and experimental investigations into the way the coupling conditions between the pipe and the soil affects the propagation characteristics of the wave that propagates leak noise in the pipe. Two water pipe systems which have different soil properties are considered: one is in Brazil and the other one is in UK. For the Brazilian pipe system, it is found that the shear modulus rather than the bulk modulus of the soil, has a profound effect on the wave motion in the pipe since it is buried in a clay-like soil. In this case, only the shear wave in the soil propagates away from the pipe. For the UK pipe system, which has sandy soil, both compressional and shear waves propagate away from the pipe. An analysis of the physical effects of fluid-pipe-soil interface and their corresponding parameters on the pipe wave speed and attenuation is also carried out. The results show that the axial coupling between the pipe and the soil has an important effect in the UK pipe system, but has a negligible effect in the Brazilian pipe system.
土壤对塑料配水管的动载效应及其声学检漏意义
埋地塑料充液管道泄漏的检测和定位是供水公司日益关注的问题。声学相关技术已被广泛用于提供泄漏位置的准确估计,以减少水的浪费。然而,这种技术依赖于波沿管道传播速度的准确估计,这在很大程度上取决于管道所埋土壤的类型。土壤也会影响泄漏噪声沿管道传播的距离。本文从理论和实验两方面研究了管道与土壤之间的耦合条件对泄漏噪声在管道中传播的波的传播特性的影响。考虑了两个具有不同土壤特性的水管系统:一个在巴西,另一个在英国。对于巴西管道系统,由于其埋在粘土状土壤中,因此发现剪切模量而不是土体的体积模量对管道中的波浪运动有深刻的影响。在这种情况下,只有土壤中的剪切波从管道传播出去。英国的管道系统有沙质土壤,纵波和横波都从管道传播出去。分析了流-管-土界面及其相应参数对管道波速和衰减的物理影响。结果表明:管道与土体之间的轴向耦合对英国管道系统有重要影响,而对巴西管道系统的影响可以忽略不计。
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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