苏建,窦蓬,崔国杰,等. 渤海油田鱼骨刺形多分支孔增产技术现场试验[J]. 石油钻探技术,2022, 50(5):102-107. DOI: 10.11911/syztjs.2022050
引用本文: 苏建,窦蓬,崔国杰,等. 渤海油田鱼骨刺形多分支孔增产技术现场试验[J]. 石油钻探技术,2022, 50(5):102-107. DOI: 10.11911/syztjs.2022050
SU Jian, DOU Peng, CUI Guojie, et al. Field test of fishbone multi-branch hole stimulation technology in Bohai Oilfield [J]. Petroleum Drilling Techniques,2022, 50(5):102-107. DOI: 10.11911/syztjs.2022050
Citation: SU Jian, DOU Peng, CUI Guojie, et al. Field test of fishbone multi-branch hole stimulation technology in Bohai Oilfield [J]. Petroleum Drilling Techniques,2022, 50(5):102-107. DOI: 10.11911/syztjs.2022050

渤海油田鱼骨刺形多分支孔增产技术现场试验

Field Test of Fishbone Multi-Branch Hole Stimulation Technology in Bohai Oilfield

  • 摘要: 为了提高渤海油田渤中区块裂缝性储层的单井产能,降低开发成本,进行了鱼骨刺形多分支孔增产技术试验。鱼骨刺形多分支孔增产技术具有增产工具结构简单、施工便捷、平台负担小的特点,适合于海上平台作业,实施后可从主井筒向储层一次性钻成多组长12 m的分支孔,能够穿透近井污染带,沟通近井地带的油气流动通道,提高单井产量,在裂缝性储层增产方面具有巨大的应用潜力。首先,通过地面试验分析了裂缝性硬地层岩石的可钻性和分支孔眼轨迹的可控性;在此基础上,优化了水力参数和施工方案,并在渤中区块某探井进行了井下试验。该探井实施鱼骨刺形多分支孔增产措施后,比采气指数提高29%以上,日产气量提高20%以上。试验结果表明,鱼骨刺形多分支孔增产技术可以提高渤海油田渤中区块裂缝性储层的单井产能,且该技术成本低,为渤海油田渤中区块效益开发提供了技术支持。

     

    Abstract: In order to increase the single well production and reduce development costs of fractured reservoirs in the Bozhong Block of Bohai Oilfield, a field test of fishbone multi-branch hole stimulation technology was carried out. The technology is characterized by simple tool structure, convenient construction, and low platform burden which make it suitable for offshore platform operation. As the technology is implemented, multi-branch holes with a length of 12 m can be drilled from the main wellbore to the reservoir at one time, and they can penetrate near-well pollution zones, connect the oil and gas flow channels in near-well zones, and improve the single well production, which has great application potential in increasing the production of fractured reservoirs. To ensure the field test could be carried out smoothly, the first step involved a ground test to analyze the drillability of the rock in fractured reservoirs and the trajectory controllability of multi-branch holes. The hydraulic parameters and construction scheme for the fishbone multi-branch hole stimulation technology were optimized accordingly. Furthermore, the field test was carried out in an exploratory well in the Bozhong block. After the application of fishbone multi-branch hole stimulation technology, the well’s gas productivity index and daily gas production were increased by more than 29% and 20%, respectively. The test results showed that the fishbone multi-branch hole technology can improve the single well production of fractured reservoirs in the Bozhong Block of Bohai Oilfield, and provide technical support for the efficient development in the block with low implementation cost.

     

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