Water hammer mitigation by internal rubber hose

IF 1.1 Q3 ENGINEERING, CIVIL Archives of Civil Engineering Pub Date : 2024-03-29 DOI:10.24425/ace.2024.148911
Michał Kubrak
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Abstract

The aim of this research was to experimentally analyse the possibility of using a rubber hose placed inside a pipeline to mitigate the water hammer phenomenon. The experiments were conducted using a steel pipeline with an inner diameter of 53 mm and an EPDM rubber hose with a diameter of 6 mm. Hydraulic transients were induced by a rapid closure of the valve located at the downstream end of the pipeline system. In order to analyse the influence of steady-state flow conditions on the maximum pressure increase, measurements were carried out for different values of initial pressure and discharge. The experimental results indicate that placing a rubber hose inside a pipeline can substantially attenuate valve-induced pressure oscillations. It was observed that the initial pressure has a significant influence on the capacity of the rubber hose to dampen the water hammer phenomenon. Comparative numerical calculations were performed using the Brunone–Vitkovský instant acceleration-based model of unsteady friction. It was demonstrated that this approach does not allow satisfactory reproduction of the observed pressure oscillations due to the viscoelastic properties of the EPDM hose used in the tests.
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通过内部橡胶管缓解水锤
本研究的目的是通过实验分析在管道内放置橡胶管以减轻水锤现象的可能性。实验使用内径 53 毫米的钢管和直径 6 毫米的 EPDM 橡胶管进行。通过快速关闭位于管道系统下游端的阀门来诱发水力瞬态。为了分析稳态流动条件对最大压力增加的影响,对不同的初始压力和排量值进行了测量。实验结果表明,在管道内放置橡胶软管可以大大减弱阀门引起的压力振荡。据观察,初始压力对橡胶管抑制水锤现象的能力有重大影响。使用基于 Brunone-Vitkovský 瞬时加速度的非稳态摩擦模型进行了比较数值计算。结果表明,由于试验中使用的三元乙丙橡胶软管的粘弹性特性,这种方法无法令人满意地再现观察到的压力振荡。
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
Archives of Civil Engineering
Archives of Civil Engineering ENGINEERING, CIVIL-
CiteScore
1.50
自引率
28.60%
发文量
0
审稿时长
24 weeks
期刊介绍: ARCHIVES OF CIVIL ENGINEERING publish original papers of the theoretical, experimental, numerical and practical nature in the fields of structural mechanics, soil mechanics and foundations engineering, concrete, metal, timber and composite polymer structures, hydrotechnical structures, roads, railways and bridges, building services, building physics, management in construction, production of construction materials, construction of civil engineering structures, education of civil engineers.
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