Detailed 3D URANS analysis of two-phase flow in an airlift pump

IF 2.5 3区 工程技术 Q2 MECHANICS
Geoffrey S. Gray, Scott J. Ormiston, Hassan M. Soliman
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引用次数: 0

Abstract

An airlift pump is a vertical tube that utilizes the buoyant effects of a gas to lift a liquid. Unlike a standard mechanical pump, the liquid flow rate through the airlift pump is not directly controlled; rather, it depends on the supplied gas flow rate, the tube length and diameter, and the relative height of the liquid supply free surface (submergence ratio). The present study uses the commercial CFD code ANSYS CFX to model the isothermal, 3D, transient flow in an airlift pump using water and air. The model applies pressure boundary conditions at both ends of the tube and specifies the mass flow rate of air through multiple openings in the side of the tube. The bottom of the tube is an inlet of water only and the outlet is a two-phase flow opening. A time-dependent, homogeneous, VOF two-phase RANS CFD modelling approach is used with the air treated as an ideal gas. This work found that a complete 3D domain was necessary for consistent prediction of the airlift performance and physically realistic two-phase flow structures. Statistical analysis of the two-phase flow structures was applied to characterize airlift pump instability and better understand the physics of the airlift pump.

气力提升泵中两相流动的 3D URANS 详细分析
气举泵是一种利用气体浮力效应提升液体的垂直管道。与标准机械泵不同的是,通过气举泵的液体流速不是直接控制的,而是取决于提供的气体流速、管子长度和直径以及供液自由表面的相对高度(浸没比)。本研究使用商业 CFD 代码 ANSYS CFX 对使用水和空气的气力提升泵中的等温三维瞬态流动进行建模。该模型在管子两端应用压力边界条件,并通过管子侧面的多个开口指定空气的质量流量。管子底部仅为进水口,出水口为两相流开口。采用随时间变化的均质 VOF 两相 RANS CFD 建模方法,将空气视为理想气体。这项研究发现,要想对气举性能和物理上真实的两相流结构进行一致的预测,就必须有一个完整的三维域。应用两相流结构的统计分析来描述气举泵的不稳定性,并更好地理解气举泵的物理原理。
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
CiteScore
5.90
自引率
3.80%
发文量
127
审稿时长
58 days
期刊介绍: The European Journal of Mechanics - B/Fluids publishes papers in all fields of fluid mechanics. Although investigations in well-established areas are within the scope of the journal, recent developments and innovative ideas are particularly welcome. Theoretical, computational and experimental papers are equally welcome. Mathematical methods, be they deterministic or stochastic, analytical or numerical, will be accepted provided they serve to clarify some identifiable problems in fluid mechanics, and provided the significance of results is explained. Similarly, experimental papers must add physical insight in to the understanding of fluid mechanics.
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