Finite volume simulation of unsteady water pipe flow

Q2 Engineering

Drinking Water Engineering and Science Pub Date : 2014-08-21 DOI:10.5194/DWES-7-83-2014

J. Fernández-Pato, P. García-Navarro

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引用次数: 8

Abstract

Abstract. The most commonly used hydraulic network models used in the drinking water community exclusively consider fully filled pipes. However, water flow numerical simulation in urban pipe systems may require to model transitions between surface flow and pressurized flow in steady and transient situations. The governing equations for both flow types are different and this must be taken into account in order to get a complete numerical model for solving dynamically transients. In this work, a numerical simulation tool is developed, capable of simulating pipe networks mainly unpressurized, with isolated points of pressurization. For this purpose, the mathematical model is reformulated by means of the Preissmann slot method. This technique provides a reasonable estimation of the water pressure in cases of pressurization. The numerical model is based on the first order Roe's scheme, in the frame of finite volume methods. The novelty of the method is that it is adapted to abrupt transient situations, with subcritical and supercritical flows. The validation has been done by means of several cases with analytic solutions or empirical laboratory data. It has also been applied to some more complex and realistic cases, like junctions or pipe networks.

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非定常水管流动的有限体积模拟

摘要饮用水社区中使用的最常用的水力网络模型专门考虑满灌管道。然而，城市管道系统的水流数值模拟可能需要模拟稳定和瞬态状态下表面流和压力流之间的转换。这两种流型的控制方程是不同的，为了得到一个完整的求解动态瞬态的数值模型，必须考虑到这一点。在本工作中，开发了一个数值模拟工具，能够模拟主要不加压的管网，具有孤立的加压点。为此，采用Preissmann槽法对数学模型进行了重新表述。这种技术在加压情况下提供了对水压的合理估计。数值模型基于有限体积法框架下的一阶Roe格式。该方法的新颖之处在于它适用于具有亚临界和超临界流动的突变瞬态情况。通过几个案例的解析解或实验室经验数据进行了验证。它也被应用于一些更复杂和现实的情况，如结点或管网。

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