Minimum Sand Transport Conditions in Gas-Solid-Liquid Three-Phase Stratified Flow in Horizontal Pipelines

O. Fajemidupe, A. Aliyu, Y. Baba, A. Archibong, N. E. Okeke, A. Ehinmowo, H. Yeung
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引用次数: 4

Abstract

Producing sand during oil and gas production is unavoidable. Sand is produced along with oil and gas and its deposition in pipelines is a significant risk as it can cause pipe corrosion and flow assurance difficulties. It is therefore key that flow conditions are sustained to guarantee lack of deposition of sand particles. The minimum combination of mixture velocities that guarantee continuous sand motion is known as the minimum transport condition (MTC). Here, we investigate the effect both of sand concentration and particle diameter on MTC in a horizontal pipeline in the stratified flow regime. Non-intrusive conductivity probes were utilised for the detection of sand. These sensors are commonly used for the measurement of film thickness in gas and liquid flows, but we demonstrate their use here for sand detection after suitable calibration. It was observed that at the ultra-low sand concentrations of our experiments, MTC increases with both sand particle diameter and concentration. We developed a new correlation based on Thomas's lower model but included a sand concentration correction term that also applies at low particle concentrations. The correlation's predictions compared favourably with our measurements at MTC as well as data obtained from the open literature at medium concentrations.
水平管道中气固液三相分层流输沙最小条件
在油气生产过程中出砂是不可避免的。砂随着油气的产生而产生,其在管道中的沉积是一个重大风险,因为它会导致管道腐蚀和流动保障困难。因此,关键是保持流动条件,以保证不沉积砂粒。保证砂体连续运动的混合速度的最小组合称为最小输运条件(MTC)。在这里,我们研究了砂浓度和颗粒直径对分层流动状态下水平管道中MTC的影响。非侵入式电导率探头用于检测砂粒。这些传感器通常用于测量气体和液体流动中的膜厚度,但我们在这里演示了它们在适当校准后用于砂粒检测的用途。在超低砂浓度下,MTC随砂粒直径和浓度的增加而增加。我们在Thomas的较低模型的基础上建立了一个新的相关性,但包含了一个砂浓度校正项,该项也适用于低颗粒浓度。相关性预测与我们在MTC的测量结果以及在中等浓度下从公开文献中获得的数据相比较有利。
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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