[1]孙洪国 周丛丛 王杰祥 王晋秀 牛迎春 邱 勇.有杆泵—喷射泵复合举升系统动力液优化设计研究[J].石油钻采工艺,2011,33(2):080-83.
 SUN Hongguo,ZHOU Congcong,WANG Jiexiang,et al.The power fluid optimizing design of sucker rod-jet pump combination-lifting system[J].Oil Drilling & Production Technology,2011,33(2):080-83.
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有杆泵—喷射泵复合举升系统动力液优化设计研究
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《石油钻采工艺》[ISSN:1000-7393/CN:13-1072/TE]

卷:
33卷
期数:
2011年2期
页码:
080-83
栏目:
油气开采
出版日期:
2011-03-20

文章信息/Info

Title:
The power fluid optimizing design of sucker rod-jet pump combination-lifting system
文章编号:
1000 – 7393( 2011 ) 02 – 0080 – 04
作者:
孙洪国1 周丛丛1 王杰祥2 王晋秀3 牛迎春3 邱 勇3
(1.大庆油田有限责任公司勘探开发研究院,黑龙江大庆 163712;
2.中国石油大学石油工程学院,山东青岛 266555;3.华北油田公司,河北任丘 062552)
Author(s):
SUN Hongguo1 ZHOU Congcong1 WANG Jiexiang2 WANG Jinxiu3 NIU Yingchun3 QIU Yong3
(1. Exploration and Development Research Institute of Daqing Oilfield Company Ltd., Daqing 163712, China; 2. College of Petroleum Engineering, China University of Petroleum, Qingdao 266555, China; 3. Huabei Oilfield CO., Rengqiu 062552, China)
关键词:
稠油油藏水力喷射泵有杆抽油泵复合举升动力液优选稀油比例
Keywords:
heavy oil hydraulic jet pump sucker-rod pump combination lifting system power fluid optimize the proportion of light oil
分类号:
TE355.5
文献标志码:
A
摘要:
轮古油田井深油稠,地层供液能力较差,单一的举升工艺很难适应油田生产的需要,因此应用了以稀油为动力液的有杆泵—喷射泵复合举升系统。为了解决目前稀油用量较大的问题,提出了产出液和混合液作为复合举升系统动力液方案,分别建立了其黏度、密度和稀油比例的模型,并分别对稀油、产出液、混合液以及活性水作为复合系统动力液展开可行性分析,通过对比计算得出掺稀比例为0.5时的混合液为最佳动力液方案。对该混合液作为复合举升系统动力液开展了实例计算和现场应用,结果表明该动力液系统可以维持较高的泵效,同时使得单位体积稀油携带能力得到很大的提高,从而极大地节约了稀油资源。
Abstract:
The sucker rod-jet pump lifting system powered by light oil is selected as the best choice for wells in Lungu oilfield to change the condition that the single lift technology can meet the requirement of oilfield development because of the deep wells, heavy oil and poor fluid production ability. In order to reduce the amount of light oil, production fluid and mixture fluid were used as the power fluid of the combination-lifting system, and the proportion model for viscosity & density of system fluid and that of light oil was. According to the coMParison of all kinds of power fluids such as light oil, production fluid, mixture fluid and active water, it finds that the mixture power fluid with light oil 0.5 parts is the best choice. At last, example calculation and field application of combination lifting system with mixture fluid as power fluid are carried out, the results show that the power fluid system not only can maintain the system pump efficiency at a high level, but also can increase the carry ability of per unit volume light oil obviously. All of these can save the light oil resources dramatically.

参考文献/References:

[1] 周明卿,李秀元,张琪,等.喷射泵有杆泵接替举升工艺探讨[J].石油学报,1999,20(4):74-77.
[2] 李崇志,祝桂波,郭俊杰,等.射流泵与有杆泵组合性能分析[J].大庆石油学院学报,1999,23(2):60-63.
[3] CHEN S, LI H, ZHANG Q, et al. Circulating usage of partially-produced fluid as power fliud for jet pump in deep-heavy-oil production[R]. SPE 97511, 2005.
[4] CHEN Shengnan, LI Heng, YANG Daoyong, et al. Reduction of light oil usage as power fluid foe jet pumping in deep heavy oil reservoirs[R]. SPE 117522, 2008.
[5] 陈秋芬,王大喜,刘然冰. 油溶性稠油降粘剂研究进展[J].石油钻采工艺,2004,26(2):45-48.

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更新日期/Last Update: 2011-05-18