Analysis of Mode Shape due to Flow Induced Vibration in pipes as a function of Flow Pattern

Jurnal Teknik Industri Terintegrasi Pub Date : 2024-01-19 DOI:10.31004/jutin.v7i1.26137

Iman Satria

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Abstract

Piping systems are very important in industry, especially in industries related to fluids such as oil and gas industries. Some disturbances in a production or distribution process often occur due to problems in the piping system. One of the serious problems in piping systems is the flow-induced vibration. This vibration problem if not handled properly will cause damage to the structure of the piping system and related components such as pumps or other fluid machines. In this study, the influence of fluid characteristics and the type of support on the vibration pattern (mode shape) will be investigated experimentally. Fluid characteristics are expressed in air and liquid fractions. Two types of pipe support are simply supported and clamped supported in detail investigated. The shape mode of the pipe vibration that occurs is measured as a function of fluid characteristics and support type. The measurement results are experimentally then compared with the results of simulations conducted with Finite Element Analysis. The results of this study indicate that clamped support makes the pipe vibrate with a higher frequency, while fluid flow with a higher liquid fraction provides a higher vibration level.

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管道中的流动诱导振动导致的模态振型与流动模式的函数关系分析

管道系统在工业中非常重要，尤其是在与流体有关的行业，如石油和天然气行业。生产或分配过程中的一些干扰往往是由于管道系统的问题造成的。管道系统中的一个严重问题就是流动引起的振动。如果处理不当，这种振动问题会对管道系统的结构和相关部件（如泵或其他流体机械）造成损坏。在本研究中，将通过实验研究流体特性和支架类型对振动模式（模态振型）的影响。流体特性以空气和液体分数表示。详细研究了简单支撑和夹紧支撑两种类型的管道支撑。测量管道振动的形状模式是流体特性和支撑类型的函数。然后将测量结果与有限元分析的模拟结果进行比较。研究结果表明，夹紧式支撑会使管道振动频率更高，而液体分数较高的流体流动会带来更高的振动水平。

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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Jurnal Teknik Industri Terintegrasi

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