Distribution rules of remaining oil by bottom water flooding and potential exploitation strategy in fault- controlled fractured-vuggy reservoirs

IF 7 Q1 ENERGY & FUELS
Jing WANG , Zhiyuan XU , Junyuan LIU , Jianyu FENG , Qi WANG , Yuwei JIAO , Qi ZHANG , Huiqing LIU
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Abstract

Based on the tectonic genesis and seismic data of fault-controlled fractured-vuggy reservoirs, the typical fractured-vuggy structure features were analyzed. A 3D large-scale visual physical model of “tree-like” fractured-vuggy structure was designed and made. The experiments of bottom-water flooding and multi-media synergistic oil displacement after bottom-water flooding were conducted with different production rates and different well-reservoir configuration relationships. The formation mechanisms and distribution rules of residual oil during bottom-water flooding under such fractured-vuggy structure were revealed. The producing characteristics of residual oil under different production methods after bottom-water flooding were discovered. The results show that the remaining oil in “tree-like” fractured-vuggy structure after bottom-water flooding mainly include the remaining oil of non-well controlled fault zones and the attic remaining oil at the top of well controlled fault zones. There exists obvious water channeling of bottom-water along the fault at high production rate, but intermittent drainage can effectively weaken the interference effect between fault zones to inhibit water channeling. Compared with the vertical well, horizontal well can reduce the difference in flow conductivity between fault zones and show better resistance to water channeling. The closer the horizontal well locates to the upper part of the “canopy”, the higher the oil recovery is at the bottom-water flooding stage. However, comprehensive consideration of the bottom-water flooding and subsequent gas injection development, the total recovery is higher when the horizontal well locates in the middle part of the “canopy” and drills through a large number of fault zones. After bottom water flooding, the effect of gas huff and puff is better than that of gas flooding, and the effect of gas huff and puff with large slug is better than that of small slug. Because such development method can effectively develop the remaining oil of non-well controlled fault zones and the attic remaining oil at the top of well controlled fault zones transversely connected with oil wells, thus greatly improving the oil recovery.
断层控制断裂-岩浆储层中底层水淹没剩余石油的分布规律和潜在开采战略
根据断层控制断裂-岩浆储层的构造成因和地震资料,分析了典型的断裂-岩浆构造特征。设计制作了 "树状 "断裂-岩浆构造三维大尺度可视物理模型。在不同生产率和不同油藏构造关系下,进行了底水淹井和底水淹井后多介质协同驱油实验。揭示了这种断裂-岩浆结构下底水涌入过程中剩余油的形成机理和分布规律。发现了底水淹井后不同生产方式下剩余油的生产特征。结果表明,底水淹后 "树状 "断裂凹陷构造中的剩余油主要包括非井控断裂带的剩余油和井控断裂带顶部的阁楼剩余油。高产时底层水沿断层存在明显的窜水现象,但间歇排水可有效削弱断层带间的干扰作用,抑制窜水。与垂直井相比,水平井可以减小断层带之间的导流差,具有更好的抗窜水能力。水平井越靠近 "天幕 "上部,在底水淹没阶段的采油率越高。但综合考虑底水淹井和后续注气开发,水平井位于 "冠层 "中段并钻穿大量断层带时,总采收率较高。底水淹井后,气体喷吹的效果优于气体淹井,气体喷吹加大液滴的效果优于小液滴。因为这种开发方式可以有效地开发非井控断层带的剩余油和与油井横向连接的井控断层带顶部的阁楼剩余油,从而大大提高采油率。
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CiteScore
11.50
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473
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