Analysis of Core Annular Flow Behavior of Water-Lubricated Heavy Crude Oil Transport

IF 1.8 Q3 MECHANICS Fluids Pub Date : 2023-09-28 DOI:10.3390/fluids8100267

Salim Al Jadidi, Shivananda Moolya, Anbalagan Satheesh

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Abstract

A possible method for fluid transportation of heavy oil through horizontal pipes is core annular flow (CAF), which is water-lubricated. In this study, a large eddy simulation (LES) and a sub-grid-scale (SGS) model are used to examine CAF. The behavior of heavy oil flow through turbulent CAF in horizontal pipes is numerically investigated. The Smagorinsky model is utilized to capture small-scale unstable turbulent flows. The transient flow of oil and water is first separated under the behavior of the core fluid. Two different conditions of the horizontal pipes, one with sudden expansion and the other with sudden contraction, are considered in the geometry to investigate the effects of different velocities of oil and water on the velocity distribution, pressure drop, and volume fraction. The model was created to predict the losses that occur due to fouling and wall friction. According to the model, increasing water flow can reduce fouling. Additionally, the water phase had an impact on the CAF’s behavior and pressure drop. Also, the increased stability in the CAF reduces the pressure drop to a level that is comparable to water flow. This study demonstrated that a very viscous fluid may be conveyed efficiently utilizing the CAF method.

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水润滑重质原油输送岩心环空流动特性分析

通过水平管道输送重油的一种可能方法是水润滑的岩心环空流动(CAF)。本研究采用大涡模拟(LES)和亚网格尺度(SGS)模型来检验CAF。对稠油在水平管道湍流CAF中的流动特性进行了数值研究。Smagorinsky模型用于捕获小尺度不稳定湍流。油水的瞬态流动首先在岩心流体的作用下分离。在几何上考虑了突胀和突缩两种不同的水平管状态，研究了不同油水流速对速度分布、压降和体积分数的影响。该模型的建立是为了预测由于结垢和壁面摩擦而产生的损失。根据该模型，增加水流量可以减少结垢。此外，水相对CAF的行为和压降也有影响。此外，CAF稳定性的提高将压降降低到与水流相当的水平。该研究表明，利用CAF方法可以有效地输送非常粘稠的流体。

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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