EFFECT OF GEOMETRICAL AND OPERATIONAL PARAMETER ON OIL-WATER SEPARATION IN AXIAL INLET HYDROCYCLONE

Iraqi Journal for Mechanical and Materials Engineering Pub Date : 2022-07-01 DOI:10.32852/iqjfmme.v22i2.597

Karima Esmail Amori, Zainab H. Ubaise Al-Ammar

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Abstract

To overcome the high water content in numerous oil fields, axial inlet hydrocyclone is considered an alternative device of oil-water separation technique that is used downfield. This type of hydrocyclone has a rare previous work compared to other vortex tube separators. Additionally, the accurate mechanism of the enhanced separation process by optimizing the separation technologies remains unclear. Therefore, an extensive study was conducted to expand the application range of the axial inlet hydrocyclone. This workpresents a literature review of the different separation technologies for the axial inlethydrocyclone. These are categorized into two groups: (i) geometrical parameters including, internal swirl element (ISE), swirl chamber, and (ii) operational parameters including, inlet flow rate, feed temperature, mixture fraction, and droplet size. The influence of these parameters on the velocity components profile and pressure drop were analyzed based on the separation performance parameters such as separation efficiency and pressure drop. This work could serve as an engineering tool that results in the enhanced economic workability of separation by hydrocyclone.

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几何参数和操作参数对轴向进口水力旋流器油水分离的影响

为了克服许多油田的高含水问题，轴向进口水力旋流器被认为是油田油水分离技术的一种替代装置。与其他涡旋管分离器相比，这种类型的水力旋流器具有罕见的研究成果。此外，通过优化分离技术增强分离过程的准确机制尚不清楚。因此，为了扩大轴向进口旋流器的应用范围，进行了广泛的研究。本文综述了轴向乙基旋流器的不同分离技术。这些参数分为两类:(i)几何参数，包括内部旋流元件(ISE)、旋流室;(ii)操作参数，包括进口流量、进料温度、混合物分数和液滴大小。基于分离效率和压降等分离性能参数，分析了这些参数对速度分量剖面和压降的影响。本研究可作为提高水力旋流器分离经济可行性的工程工具。

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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来源期刊

Iraqi Journal for Mechanical and Materials Engineering

自引率

0.00%

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审稿时长

24 weeks