【作者】 宋元新；

【导师】 蒲春生；

【作者基本信息】 中国石油大学 ， 油气田开发工程， 2010， 硕士

【摘要】 大功率低频谐振波采油技术对稠油、低渗透等特种油气藏的开采具有很强的针对性,它能有效的解除油层堵塞,改善油层的渗流状况,从而达到增产增注的目的。同时振动采油具有成本低、适应性强、操作简单和不污染环境等优点,使其成为一项具有良好应用前景的三次采油措施。本文系统的研究了低频谐振波在储层多孔介质中的固/液耦合传播理论,通过理论分析研究了振动频率、油层渗透率、孔隙度及流体粘度对低频谐振波振幅衰减的影响规律;通过室内实验研究了低频谐振波对油水渗流特性和对储层岩石造缝作用的协同影响机理;将物理模拟与数学模型相结合,研究了低频谐振波在多孔介质中传播的平面一维和平面径向渗流规律;建立了低频谐振波在多孔介质中单相渗流时的地层参数和振动作业参数之间相互耦合的数学模型,借助数学模拟方法考察了各项参数与振动作业效果之间的相互关系,根据数学模型编制了相应的计算实例,得到了振动作业前后地层压力分布曲线;分析了低频波动下套管的受力情况,通过对振动方程的求解得到了套管的纵向振动特性。研究结果表明:低频波场主要受储层渗透率和振动频率两大因素影响,随着振动频率的增大、油层渗透率的增大,低频振动振幅的衰减速度和幅度不断增大;低频波动可以较大地降低油水界面张力、改变岩心与流体的润湿性,降低产出油的含水率,对储层岩心的油水相渗流和水驱效率具有明显的促进作用。在以上理论研究及室内实验的基础上,优化了低频谐振波强化采油试验的工艺参数,进行了大功率低频谐振波采油的现场试验,动态监测了试验前后波及井组的生产数据,组建了高速数据采集系统进行了振动测试。通过分析地面监测系统测试出的数据,获得了振动范围内谐振波沿地面的衰减规律,并判断了生产井组的见效情况。上述工作的完成为现场施工提供了理论依据,为研究开发效果好、成本低、减少储层伤害与环境污染的大功率谐振波层内造缝与增渗增产新技术提供了重要的理论基础。更多还原

【Abstract】 Low-frequency high-power resonance wave enhanced oil recovery has a strong pertinence to the exploitation of heavy crude and low permeability reservoir. It can release near wellbore reservoir choke efficiently, and improve flowability of reservoir. Accordingly, the productivity of wells is increased. Also it has the advantages of low cost, well-adapted, and easy in operation and enviroplast. So it is an excellent EOR technology with a good prospect of application.In this paper, the solid/liquid coupling propagation theory of low-frequency high-power harmonic wave in porous media has been studied. The effects of vibration frequency, reservoir permeability, porosity and fluid viscosity on low-frequency vibration are researched through theoretical analysis. The synergetic effects of oil-water filtration theory and making fracture ability under low-frequency resonance wave are investigated in this thesis through laboratory experiment. Combine physical analogue with mathematical model, the one-dimensional and radial filtration patterns of the low-frequency resonance wave in porous medium are studied in this article. A coupled mathematical model of formation properties and vibration parameters are built to study the relation between various parameters and its final working effect. According to the mathematical model, the pressure profile is developed. The casing longitudinal vibration under low-frequency resonance wave is analyzed and longitudinal vibration characteristics are obtained by solving the oscillation equation. The research results show that low-frequency wave field is mainly affected by reservoir permeability and vibration frequency. The decay and scope rate of low-frequency amplitude increase along with the increasing frequency and permeability. Low-frequency vibration can decrease oil and water interfacial tension and change the core and fluid wettability, reduce the water cut of output fluid and improve the single phase flow and waterflooding effect obviously. Based on the above theoretical research and laboratory experiment, the process parameters of low-frequency high-power resonance wave EOR technology are optimized. And field experiment is carried out, production data before and after the test is monitored, the high speed data acquisition system is also established to test the vibration. The neutron attenuation is acquired and the response behavior is decided by analyzing the data acquired from surface monitoring system.This paper provides theoretical foundation for field construction. And it supplies a foundation for the study of high-power resonance wave that can make fractures and increase permeability with high efficiency, low cost and no pollution.更多还原