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储层多孔介质波动渗流力学研究进展与挑战 被引量:2

Innovations and Challenges of Vibration Coupled Seepage Mechanics in Oil and Gas Reservoir Development
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摘要 随着石油工业对低渗、特低渗、稠油、超稠油、小断块、薄油层及高含水等复杂油藏开发的不断加强,波动强化采油技术作为一项高效低成本、不伤害储层、不污染环境的储层增产增注新技术,具有广阔的发展与应用前景.基于对国内外相关成果的广泛调研,揭示了弹性波作用下储层渗流动力学机制是提高波动强化采油技术矿场应用效果的关键,阐述了在弹性波作用下波动渗流力学与传统孔隙介质弹性波传播理论和经典油水渗流力学之间的本质差异,分析了定量描述储层多孔介质波动渗流动力学机理与规律的主要难点,总结了储层波动渗流力学研究的最新进展,展望了波动渗流力学理论研究需要进一步解决的重点问题. With the development of oil and gas field,the complex reservoirs including low or ultra-low permeability reservoirs,heavy or ultra-heavy oil reservoirs,small fault block reservoirs,thin reservoirs,high water-cut reservoirs have been drawing increasing attention.Low-frequency vibration oil extraction technology has great potential for the complex reservoirs to improve the injection and output,because of its advantages of low cost,high effectivity,no formation damage and environmental pollution.Based on studying the outcomes in related fields at home and aboard,It is found the key lies in the theory of reservoir seepage dynamic mechanism under elastic waves to improve the field effect stability and optimize decision-making of low-frequency vibration oil extraction technology in this study.The generalization of the development of vibration coupled seepage mechanics can effectively distinguish the difference of seepage mechanics under vibration,elastic wave propagation theory in porous media and classical oil and gas seepage mechanics in aspects of the applied disciplines,source types,fluid flow equations,and boundary conditions.The main difficulties for quantitative description of mechanisms in dynamic flow in porous media by vibration coupled seepage mechanics are analyzed.Finally,key issues to be solved for the development of vibration coupled seepage mechanics are suggested.
出处 《地球科学(中国地质大学学报)》 EI CSCD 北大核心 2017年第8期1247-1262,共16页 Earth Science-Journal of China University of Geosciences
基金 国家科技重大专项(No.20011ZX05009-004) 国家自然科学基金项目(No.51274229) 中国博士后科学基金项目(No.134268) 教育部长江学者创新团队发展计划项目(No.IRT1294)
关键词 低频波动 渗流力学 弹性波传播 孔隙介质 石油地质 low-frequency vibration seepage mechanics elastic wave propagation porous medium petroleum geology
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