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空气泡沫防气窜能力评价的实验研究 被引量:9

Experimental study on the evaluation of anti-channeling performance of air foam
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摘要 在运用空气泡沫驱替技术来开发油田的过程中,储层孔隙和喉道的不均匀程度等因素给确定空气泡沫防窜能力的大小带来了一定的困难。因此,确定气窜注入压差和注气时间的准确把握,对于空气泡沫驱技术和油藏的经济开采具有重大的意义。设计了空气泡沫防窜实验,通过岩心流动实验装置界定空气泡沫的防窜能力,根据岩心中形成泡沫的优劣程度,选择初始注入条件,研究气体突破后的注气时间对空气泡沫防窜能力的影响,并界定了形成气窜的注入压差,旨在为我国油田气驱技术提高采收率提供新的思路。 During the process of using air foam displacement technology to explore oilfields, reservoir porosity, throat sorting and other factors has brought some difficulties to the determination of the gas channeling prevention ability of air foam. Therefore, how to determine the injection pressure of gas channeling and calculate the gas injection time accurately are of great significance to air foam displacement technology and economic exploitation of reservoirs. This paper designed gas channeling prevention experi- ments of air foam, determined anti-channeling ability of air foam with the help of core flow experimental device. Besides, it select- ed the initial injection conditions according to the pros and cons of foam in the cores and studied the impact of gas injection time af- ter gas breakthrough on the anti-channeling ability of air foam. It also defined the injection differential pressure of gas channeling formation, which provided new thoughts for EOR of domestic oilfields by gas flooding.
作者 旷曦域 曹献平 钟栋 王历历
机构地区 西南石油大学油气藏地质与开发工程国家重点实验室
出处 《油气藏评价与开发》 2012年第3期34-37,共4页 Petroleum Reservoir Evaluation and Development
关键词 空气泡沫 防气窜 气窜压力 最优起泡压力 提高采收率 air foam, gas channeling prevention, gas channeling pressure, optimal foaming pressure, enhance oil recovery
分类号 TE357.42 [石油与天然气工程—油气田开发工程]
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参考文献10

  • 1朱海金,屈建省,刘爱萍,邹建龙,许加星.水泥浆防气窜性能评价新方法[J].天然气工业,2010,30(8):55-58. 被引量:19
  • 2Larry Eoff,Dwyann Dalrymple,Don Everett. Global Field Re-sults of a Polymeric Gel System in Conformance Applications SPE101822[R].2006. 被引量:1
  • 3Agus Hasan,Bjarne Foss,Svein Ivar Sagatun. Modeling, Simulation, and Optimal Control of Oil Production under Gas Coning Conditions SPE143520[R].2011. 被引量:1
  • 4E Ali,F E Bergren,P DeMestre. E&P.Effective Gas-Shut-off Treatments in a Fractured Carbonate Field in Oman SPE102244[R].2006. 被引量:1
  • 5Sarkis Kakadjian,Jose Garza,Frank Zamora. Weatherford Inter-national.Enhancing Gas Production in Coal Bed Methane Forma-tions With Zeta Potential Altering System SPE134823[R].2010. 被引量:1
  • 6王彬,朱玉凤.气顶油气田气顶气窜研究[J].天然气工业,2000,20(3):79-82. 被引量:28
  • 7Leopoldo Sierra,Loyd East,David Kulakofsky. New Completion Methodology to Improve Oil Recovery and Minimize Water Intru-sion in Reservoirs Subject to Water Injection SPE126152[R].2009. 被引量:1
  • 8H J Bertin,O G Apaydin,L M Castanier. Foam Flow in Het-erogeneous Porous Media:Effect of Crossflow SPE39678[R].1998. 被引量:1
  • 9张星..聚合物窜流规律研究[D].中国石油大学(华东),2006:
  • 10R B Zhao,W Q Ke,Y H Wu. Enhanced Heavy Oil Recov-ery from Fractured Vuggy Carbonated Reservoir of Tahe Oil-field with N2/CO2 Gas Mixture SPE132247[R].2010. 被引量:1

二级参考文献10

共引文献45

同被引文献66

引证文献9

二级引证文献27

油气藏评价与开发
2012年 第3期

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