Finite Element Modeling Aspects of Buried Large Diameter Steel Pipe–Butterfly Valve Interaction

WIT transactions on modelling and simulation Pub Date : 2023-11-10 DOI:10.3390/modelling4040031

Ashraf Mohammed Daradkeh, Himan Hojat Jalali

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Abstract

Buried flexible pipes are allowed to deflect up to 2–5% of the pipe diameter, which can become problematic for the connected direct-bury, large-diameter butterfly valves. The complex behavior of the pipe–valve–soil system makes it difficult to predict the deflection of the pipe/valve system. In the absence of field/experimental studies, the application of finite element analysis (FEA) seems necessary to predict deflection and stresses and to avoid potential downtime associated with disruption of service. This paper described the FEA of a large-diameter pipe–valve system, with different backfills under gravity, overburden, and internal pressure loads. The effects of modeling different components of the system (e.g., flanges, bearing housing, gate disc, etc.) were described and investigated. The goal of this study was to provide insight into the design and installation of direct-bury pipe–valve systems and evaluate current installation methods in the absence of guidelines. In addition, the level of modeling details required for FEA to yield accurate results was discussed.

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埋地大直径钢管-蝶阀相互作用的有限元建模

埋地柔性管允许挠度达到管径的2-5%，这对于连接的直埋大直径蝶阀来说可能会成为问题。由于管道-阀-土系统的复杂特性，使得管道-阀系统的挠度预测变得困难。在缺乏现场/实验研究的情况下，应用有限元分析(FEA)来预测挠度和应力，并避免与服务中断相关的潜在停机时间似乎是必要的。本文研究了大直径管阀系统在重力、覆盖层和内压荷载作用下不同充填体的有限元分析。对系统不同部件(如法兰、轴承座、闸板等)的建模效果进行了描述和研究。本研究的目的是深入了解直埋管阀系统的设计和安装，并在缺乏指南的情况下评估当前的安装方法。此外，讨论了有限元分析所需的建模细节水平，以获得准确的结果。

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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WIT transactions on modelling and simulation

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