A 1-dimensional-two-layer transient drift-flux model for hydraulic transport pipelines: modelling and experiments of bed layer erosion and density wave amplification

IF 2.3 4区环境科学与生态学 Q3 WATER RESOURCES

Journal Of Hydrology And Hydromechanics Pub Date : 2024-02-08 DOI:10.2478/johh-2023-0039

Edwin de Hoog, Tjalie van der Voort, Arno Talmon, Cees van Rhee

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引用次数: 0

Abstract

Hydraulic transport pipelines in the dredging, mining and deep sea mining are designed using steady-state methods. However, these methods cannot predict density wave formation. Density waves form a risk for pipeline blockages, therefore there is a need to understand and preferably be able to model the process. The density waves studied in this research are caused by a stationary sediment deposit in the pipeline. This article explores the development of a new transient design model, based on 1-dimensional-two-layer Driftflux CFD. The two layers model the exchange of sediment between the turbulent suspension, and a stationary bed layer, and can therefore model density wave amplification. An empirical erosion-sedimentation closure relationship is applied to model the sediment exchange between the two layers, and is calibrated using experiments. The final model is also validated against a second experiment, specifically for density wave amplification. The experiments and the model show good agreement on the erosion of a stationary bed layer and the growth rate of a density wave and the amplitude of the density wave.

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水力输送管道的一维两层瞬态漂流-流动模型：床层侵蚀和密度波放大的建模与实验

疏浚、采矿和深海采矿中的液压输送管道都是采用稳态方法设计的。然而，这些方法无法预测密度波的形成。密度波有可能造成管道堵塞，因此有必要了解这一过程，最好能够建立模型。本研究中的密度波是由管道中的静止沉积物引起的。本文探讨了基于一维两层 Driftflux CFD 的新型瞬态设计模型的开发。两层模型模拟了湍流悬浮物与静止床层之间的沉积物交换，因此可以模拟密度波的放大。根据经验建立的侵蚀-沉积闭合关系用于模拟两层之间的沉积物交换，并通过实验进行校准。最终模型还通过第二次实验进行了验证，特别是密度波放大实验。实验和模型在静止床层的侵蚀、密度波的增长率和密度波的振幅方面显示出良好的一致性。

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 Hydrology And Hydromechanics 环境科学-水资源

CiteScore

4.20

自引率

5.30%

发文量

审稿时长

>12 weeks

期刊介绍： JOURNAL OF HYDROLOGY AND HYDROMECHANICS is an international open access journal for the basic disciplines of water sciences. The scope of hydrology is limited to biohydrology, catchment hydrology and vadose zone hydrology, primarily of temperate zone. The hydromechanics covers theoretical, experimental and computational hydraulics and fluid mechanics in various fields, two- and multiphase flows, including non-Newtonian flow, and new frontiers in hydraulics. The journal is published quarterly in English. The types of contribution include: research and review articles, short communications and technical notes. The articles have been thoroughly peer reviewed by international specialists and promoted to researchers working in the same field.