Experimental Determination of the Discharge Coeffcient Through Circular Orifice in PVC Pipes

IF 1 Q4 ENGINEERING, CIVIL

Journal of Applied Engineering Sciences Pub Date : 2020-11-11 DOI:10.2478/jaes-2020-0020

A. Hoțupan, A. Hadarean

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引用次数: 0

Abstract

Abstract Real water losses derived from water supply systems represent an important topic, nowadays. It is difficult to predict and to calculate the water lost volume, these values being crucial in any water balance. In addition, the leakage flow can be estimated only when the geometric and hydraulic characteristics of the pipes and the period of time associated to the leakage are known. Also, by using the equation of the water flow can be obtained inaccurate values, especially when incorrect values of discharge coefficient are used. The values of the discharge coefficient can vary between 0.6 and 0.85, depending on a multiple aspects, such as the pipe diameter, the orifice size and shape, the pipe material, the orifice position on the pipe wall, the pipe thickness and the hydraulic parameters of the water (flow and pressure). This paper is focused of an experimental study of a leak simulation in a PVC pipe. Thereby, a circular orifice is drilled on PVC pipe wall and the influence of the water flow and pressure on the discharge coefficient (Cd) is analysed. The experimental values obtained for de Cd are 0.59 - 0.86, values that are in accordance with the results from similar studies.

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PVC管圆孔排放系数的实验测定

摘要供水系统的实际水损失是当今的一个重要课题。很难预测和计算失水量，这些值在任何水平衡中都至关重要。此外，只有当管道的几何和水力特性以及与泄漏相关的时间段已知时，才能估计泄漏流量。此外，通过使用水流方程可以获得不准确的值，特别是当使用不正确的流量系数值时。流量系数的值可以在0.6和0.85之间变化，这取决于多个方面，例如管道直径、孔口尺寸和形状、管道材料、孔口在管壁上的位置、管道厚度和水的水力参数（流量和压力）。本文的重点是对PVC管道泄漏模拟的实验研究。在此基础上，在PVC管壁上开了一个圆孔，分析了水流和压力对流量系数Cd的影响。除Cd的实验值为0.59-0.86，与类似研究的结果一致。

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

Journal of Applied Engineering Sciences ENGINEERING, CIVIL-

自引率

9.10%

发文量

审稿时长

12 weeks