波动管道对多相流输沙影响的实验研究

N. E. Okeke, Osho Adeyem, A. Archibong-Eso, Y. Baba, A. Aliyu, E. Aluyor, H. Yeung
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引用次数: 1

摘要

之前的研究表明,含碳氢化合物的出砂有助于提高油井的产能。然而,由于砂沉积,这给关井和启动作业带来了困难,当管道起伏时,这种困难会加剧。管道的丘陵地形几何形状强烈影响多相流流态,因此需要研究输沙特性,这对有效的管道设计至关重要。本研究的目的是对不同含砂浓度下多相流输沙过程中的流体力学特性进行实验研究。研究中使用了一个2英寸的倾角装置,该装置由下坡管道段、下弯头(倾角)和倾角为24°的上坡管道组成。通过使用电导率环对瞬时液体和砂的持续测量,以及使用高速摄像机对流动进行可视化,收集和分析了大量数据。结果表明:通过目测和电导率环数据,沙水试验得到了五种不同的流型,即全悬浮流、条纹流、跃变流、沙丘流和砂床流。在最低运输条件和完全悬浮下的流量知识建立了管道寿命期间的侵蚀速率。而利用电导率环法对含沙量和沙丘状态进行独特识别,有助于克服管道测砂的局限性。此外,还进行了砂-气-水试验,研究了管道几何形状和多相流型对多相输沙管道输沙的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental Study on the Effect of Undulating Pipeline on Sand Transport in Multiphase Flow
Previous research work has shown that sand production with hydrocarbons has helped to increase the productivity of oil wells. However, this poses difficulties during shut down and start-up operations due to sand deposition and are aggravated when the pipelines are undulating. The hilly-terrain geometry of pipelines strongly affects multiphase flow regimes hence the need to study sand transport characteristics as it is vital in efficient pipeline design. The aim of this research work is to experimentally investigate the flow hydrodynamics that exist during sand transport in multiphase flow at different sand concentration. A 2-inch dip facility which consists of a downhill pipeline section, a lower elbow (dip) and an uphill pipeline at inclination angles of 24° is used in the study. Extensive data were collected and analysed from continuous measurement of instantaneous liquid and sand hold up using conductivity rings and flow visualisation using a high speed camera. Results show that five different flow patterns were obtained from the sand-water test both via visual observation and from the conductivity rings data namely: full suspension, streak, saltation, sand dunes and sand bed. The knowledge of flow at minimum transport condition and full suspension establishes the erosion rate over the life span of the pipeline. In contrast, the sand holdup measurement and sand dune regime which was uniquely identified using the conductivity ring method would help overcome the limitation of sand measurement in pipeline. Also, the Sand-Air-Water experiment carried out shows the influence of the pipe geometry and multiphase flow regimes on sand transport in multiphase transport pipelines.
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