聚合物减阻剂(DRP)对水平管内单相和环形两相流的模拟

Cindy Dianita, A. H. Saputra, Puteri Amelia Khairunissa
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引用次数: 1

摘要

减阻聚合物(DRP)是一种减阻剂,在工业上广泛用作提高管道流体流动效率的添加剂。本研究通过建立方程模型来分析影响DRP效率的参数,并通过计算流体动力学(CFD)模拟来观察流体流动中出现的减阻现象。所使用的数据来自Vancko(1997)对单相水流的实验。关于两相环形流,使用了四个实验数据,即Vancko(1997)、Al-Sarkhi和Hanratty(2001a,b)以及Fernandes等人(2004)。基于本研究提出的模型方程,分析了流体速度和管径等参数。作为本研究输出的最终单相流动方程模型给出了初始减阻值,即4.00,误差高达18%。而所提出的具有和不具有减阻效应的环形流方程仅适用于液膜分布均匀对称且误差约为20%的情况,即较小直径的管道。CFD模拟结果显示了流体速度分布的变化;变得更加抛物线,表明由于DRP的影响,平均流体速度增加了0.43%。
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Simulation of Drag Reducer Polymer (DRP) for Single and Annular Two Phase Flow in Horizontal Pipe
Drag reducing polymers (DRP) is one of drag reducer types that is widely used in industry as an additive to improve fluid flow efficiency in pipes. This study is conducted to analyze the parameters that influence the efficiency of DRP through developing equation model, and to see the phenomenon of drag reduction that occurs in fluid flow through computational fluid dynamic (CFD) simulation. The data used are obtained from experiments by Vancko (1997) for a single phase flow of water. As for two-phase annular flow, four experiments data are used namely by Vancko (1997), Al-Sarkhi and Hanratty (2001a,b) and Fernandes et al. (2004). Parameters such as fluid velocity and pipe diameter are analyzed based on the model equations proposed in this study. The final single phase flow equation model as the output of this study gives a value for onset drag reduction i.e 4.00 with an error up to 18%. While the proposed annular flow equation with and without drag reduction effect is only suitable when the condition of fluid film distribution is uniform and symmetrical with the error around 20%, i.e. for smaller diameter pipes. The CFD simulation results shows a change in the fluid velocity profile; becoming more parabolic, indicating an increase in the mean fluid velocity up to 0.43%, as the effect of DRP.
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审稿时长
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