Improving the Energy Efficiency of the Use of Oil Jet Pumps

Q3 Energy

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Pub Date : 2022-04-05 DOI:10.21122/1029-7448-2022-65-2-181-192

D. A. Panevnyk

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引用次数: 0

Abstract

The substantiation of the choice of design parameters characterizing the mutual orientation of the mixed flows and the ratio of the geometric dimensions of the elements of the flow path of the jet pump that provide an increase in the energy characteristics of borehole ejection systems is given. Depending on the mutual orientation of the mixed flows, three variants of the design of the jet pump are possible, viz. the one with a parallel orientation of the working and ejected flows, the one with the inlet of the ejected flow at a sharp angle, and the one with a perpendicular orientation of the working and ejected flows. The magnitude of the angle between the velocity vectors of the mixed flows directly affects the intensity of vortex formation in the mixing chamber, the amount of energy loss and the efficiency of the jet pump; however, the simplicity of their manufacture remains the determining condition for choosing the design variant of the elements of ejection systems. Based on the use of the laws of conservation of energy, the amount of motion and continuity of the flow, it is determined that the level of energy loss during mixing flows is directly proportional to the magnitude of the angle of entry of the ejected medium. In the course of computer simulation of the jet pump workflow, an asymmetric distribution of hydrodynamic parameters for the non-parallel orientation of the mixed flows has been obtained. In order to reduce energy losses when mixing flows, the value of the angle of entry of the ejected flow must be taken in the range from 0 to 15°. In the case of the implementation of the zero head mode and the maximum ejection coefficient, minimal energy losses during mixing of flows are provided for the main geometric parameter of the jet pump equal to 2.375. In the course of experimental studies, the inverse dependence of the maximum value of the efficiency of a borehole jet pump on the value of its main geometric parameter represented as a power function, has been established. When using ejection systems that implement long-term technological processes (e. g., during oil production), it is necessary to take the minimum possible value of the main geometric parameter of the jet pump for the specified operating conditions.

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提高喷油泵的能源使用效率

给出了表征混合流相互取向的设计参数的选择和喷射泵流道要素几何尺寸的比例，这些参数的选择提供了增加钻孔喷射系统能量特性的依据。根据混合流的相互方向，喷射泵的设计可以有三种变体，即工作流和喷射流的平行方向，喷射流的进口呈尖角方向，以及工作流和喷射流的垂直方向。混合流速度矢量夹角的大小直接影响混合腔内涡流形成的强度、能量损失的大小和喷射泵的效率;然而，其制造的简单性仍然是选择弹射系统元件设计变体的决定性条件。根据能量守恒定律，流动的运动量和连续性，确定了混合流动期间的能量损失水平与喷射介质进入角的大小成正比。在喷射泵工作流程的计算机模拟过程中，得到了混合流非平行方向时流体动力参数的非对称分布。为了减少混合流动时的能量损失，喷射流的进入角值必须在0 ~ 15°范围内。在采用零扬程模式和最大喷射系数的情况下，射流泵的主要几何参数为2.375时，流体混合时的能量损失最小。在实验研究过程中，建立了井喷泵效率最大值与以幂函数表示的井喷泵主要几何参数值的反比关系。当使用实施长期工艺过程的喷射系统时(例如，在石油生产过程中)，有必要在规定的操作条件下取喷射泵主要几何参数的最小可能值。

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

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Energy-Nuclear Energy and Engineering

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： The most important objectives of the journal are the generalization of scientific and practical achievements in the field of power engineering, increase scientific and practical skills as researchers and industry representatives. Scientific concept publications include the publication of a modern national and international research and achievements in areas such as general energetic, electricity, thermal energy, construction, environmental issues energy, energy economy, etc. The journal publishes the results of basic research and the advanced achievements of practices aimed at improving the efficiency of the functioning of the energy sector, reduction of losses in electricity and heat networks, improving the reliability of electrical protection systems, the stability of the energetic complex, literature reviews on a wide range of energy issues.