塔里木盆地发育碎屑岩高孔渗储层固井隔离技术研究与应用

Hongtao Liu, Ai Zhengqing, Jingcheng Zhang, Zhongtao Yuan, Jianguo Zeng, Xu Liqun, T. Bin
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引用次数: 0

摘要

塔里木油田发育碎屑岩储层的平均孔隙度和渗透率分别为22.16%和689.85×10-3 μm2。水层与油层之间的隔离层厚度小于2米。油层压力为0.99 g/cm3,底水层压力为1.22 g/cm3,二者压力差最大可达12 ~ 23 MPa。水层与油层之间难以实现层间隔离。为解决高孔高渗碎屑储层的层间隔离困难,降低渗透漏失风险,开发了基质抗侵添加剂、自主创新浆液封堵能力材料、自愈浆液、套管外裸眼封隔器、水泥浆性能设计与控制技术、优化套管扶正器定位技术和高泵速排量排量。结果表明:首先,研制出具有物理化学交联结构的抗基体侵入添加剂。该添加剂具有抗稀释、低触变性、低失水、过渡短的特点,能快速密封水层。第二,在测试评价中,浆液中的堵漏材料具有较好的堵漏性能,可使人工岩心的渗透率降低70-80%。第三,自愈水泥浆体系能够快速封堵裂缝,防止流体流动,保证储层长期有效密封。四是通过严格控制稠化时间(作业时间)和稠度(20-25 Bc),使水泥浆能够快速实现层间隔离,达到快速封住水层,降低渗水损失风险的目的。采用套管扶正器,保证了油水隔层率在67%以上。采用高排量排量(2 m3/min,保证环空回流速度大于1.2 m/s),可以通过稀释钻井液和洗泥饼的方式有效清洗井筒,提高驱替效率。该固井技术已在塔里木油田100口井中成功应用。2019年合格率和优良率分别为87.9%和69%,实现了区域隔离。试油后未出水,生产后含水率降至7%。固井技术改善了层间隔离,提高了原油产量,提高了石油效益。
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The Research and Application of Cementing Isolation Technology in High Porosity and Permeability of Developed Clastic Rock Reservoir in Tarim Basin
The average porosity and permeability in the developed clastic rock reservoir in Tarim oilfield in China is 22.16% and 689.85×10-3 μm2. The isolation layer thickness between water layer and oil layer is less than 2 meters. The pressure of oil layer is 0.99 g/cm3, and the pressure of bottom water layer is 1.22 g/cm3, the pressure difference between them is as bigger as 12 to 23 MPa. It is difficult to achieve the layer isolation between the water layer and oil layer. To solve the zonal isolation difficulty and reduce permeable loss risk in clastic reservoir with high porosity and permeability, matrix anti-invasion additive, self-innovate plugging ability material of slurry, self-healing slurry, open-hole packer outside the casing, design and control technology of cement slurry performance, optimizing casing centralizer location technology and displacement with high pump rate has been developed and successfully applied. The results show that: First, the additive with physical and chemical crosslinking structure matrix anti-invasion is developed. The additive has the characteristics of anti-dilution, low thixotropy, low water loss and short transition, and can seal the water layer quickly. Second, the plugging material in the slurry has a better plugging performance and could reduce the permeability of artificial core by 70-80% in the testing evaluation. Third, the self-healing cement slurry system can quickly seal the fracture and prevent the fluid from flowing, and can ensuring the long-term effective sealing of the reservoir. Fourth, By strict control of the thickening time (operation time) and consistency (20-25 Bc), the cement slurry can realize zonal isolation quickly, which has achieved the purpose of quickly sealing off the water layer and reduced the risk of permeable loss. And the casing centralizers are used to ensure that the standoff ratio of oil and water layer is above 67%. The displacement with high pump rate (2 m3/min, to ensure the annular return velocity more than 1.2 m/s) can efficiently clean the wellbore by diluting the drilling fluid and washing the mud cake, and can improve the displacement efficiency. The cementing technology has been successfully applied in 100 wells in Tarim Oilfield. The qualification rate and high quality rate is 87.9% and 69% in 2019, and achieve zone isolation. No water has been produced after the oil testing and the water content has decreased to 7% after production. With the cementing technology, we have improved zonal isolation, increased the crude oil production and increased the benefit of oil.
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