Simulation of Crude Oil Transportation with Drag Reduction Agents Using k-ϵ and k-ω Models

IF 1.5 Q3 MECHANICS European Journal of Computational Mechanics Pub Date : 2021-05-22 DOI:10.13052/EJCM1779-7179.29467
A. Khalaf, Asaad A. Abdullah
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引用次数: 1

Abstract

This work explores the possibility of using Newtonian turbulence k−ϵ and k−ω models for modelling crude oil flow in pipelines with drag reduction agents. These models have been applied to predict the friction factor, pressure drop and the drag reduction percentage. The simulation results of both models were compared with six published experimental data for crude oil flow in pipes with different types of drag reduction agents. The velocity near the wall was determined using the log law line of Newtonian fluid equation and by changing the parameter ΔB to achieve an excellent agreement with experimental data. Simulated data for k−ϵ model shows better agreement with most experimental data than the k−ω turbulence model.
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基于k- ε和k-ω模型的原油减阻剂输运模拟
这项工作探索了使用牛顿湍流k-ε和k-ω模型来模拟带有减阻剂的管道中原油流动的可能性。这些模型已用于预测摩擦系数、压降和减阻百分比。将两个模型的模拟结果与六个已发表的原油在含有不同类型减阻剂的管道中流动的实验数据进行了比较。使用牛顿流体方程的对数律线并通过改变参数ΔB来确定壁附近的速度,以获得与实验数据的良好一致性。与k-ω湍流模型相比,k-ε模型的模拟数据与大多数实验数据显示出更好的一致性。
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来源期刊
European Journal of Computational Mechanics
European Journal of Computational Mechanics MECHANICS-
CiteScore
1.70
自引率
8.30%
发文量
0
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