突破连续油管的极限,解决多分支大位移动力注水井中基质增产的挑战

H. Jassem, Naji K. Salman, R. Said, D. Ahmed, Kaisar Al Hamwi
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引用次数: 0

摘要

在中东碳酸盐岩油藏中,动力注水井(PWI)通常采用长裸眼水平井完井。在低渗透油藏中,储层接触面提供了压力支撑,提高了波及效率。由于井的斜度和井长,需要连续油管(CT)干预才能成功进入并识别每个分支,并通过在整个分支上泵入基质增产处理来消除地层损害。在此类CT干预过程中,通过水力操作的分支识别工具(LIT)可以进入分支井,同时通过投球激活的高压喷射喷嘴(HPJN)进行增产处理。得益于CT光纤遥测技术,LIT和HPJN通过实时监测井底钻具组合内外的井下压力值,实现了高效作业。这些井下压力读数进一步有助于优化作业期间的泵送速率,同时保持泵送速率低于压裂压力。最后,遥测技术为伽马(GR)测井提供支持,便于深度控制和横向识别。该研究的特点是,在此过程中,在两个分支井的两个单独的CT下入中进行了基质增产处理。在第一次下入时,连续油管最初沿着井的自然路径进入L-0,而通过激活LIT进入L-1。通过将所获得的GR读数与参考日志相匹配,确认了正确的横向进入。在成功进入L-1井眼并达到最大深度后,一个3 / 4英寸的井眼。抛球分离LIT并激活HPJN进行刺激。在第二次下入时,当CT进入L-0时,使用GR监测来确认侧向可达性。在达到最大深度并隔离HPJN后进行增产处理。在每个分支的增产过程中,使用20%的粘弹性转向酸对高吸油层进行增产,使用20%的HCl对受损/致密层进行增产。该操作说明了如何使用井下压力表读数来有效地依次操作LIT并激活HPJN,以及将基质增产处理泵入到压裂压力以下。同时,实时GR读数用于深度控制和正确识别分支。
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Pushing the Limits of Coiled Tubing to Address the Challenges of Matrix Stimulation in Multi-Lateral Extended Reach Power Water Injector
In Middle East carbonate reservoirs, power water injector (PWI) wells are typically completed with long openhole laterals. The reservoir contact provides pressure support and enhances sweep efficiency in the low-transmissibility reservoirs. Due to the wells deviation and length, coiled tubing (CT) interventions are required to successfully enter and identify each lateral, as well as to remove formation damage by pumping the matrix stimulation treatment across entire laterals. During such CT interventions, laterals are accessed thanks to a hydraulically operated lateral identification tool (LIT), while the stimulation treatment is pumped through a ball-drop-activated high-pressure jetting nozzle (HPJN). LIT and HPJN are efficiently operated by monitoring downhole pressure values both inside and outside of the bottomhole assembly, in real time thanks to CT fiber-optic telemetry. Those downhole pressure readings further assist in optimizing the pumping rate during the job, while keeping it below the fracturing pressure. Finally, the telemetry provides support for gamma ray (GR) logging, which facilitates depth control and lateral identification. This study features a case history during which the matrix stimulation treatment was conducted in two separate CT runs for both laterals of the well. For the first run, the CT initially entered L-0 following the natural path of the well, whereas L-1 was accessed by activating the LIT. Correct lateral entry was confirmed by matching the acquired GR readings with reference logs. After successfully accessing L-1 and reaching its maximum depth, a ¾-in. ball was dropped to isolate the LIT and activate the HPJN for stimulation. During the second run, as the CT entered L-0, GR monitoring was used to confirm lateral accessibility. The stimulation treatment was pumped after reaching maximum depth and isolating the HPJN. During the stimulation of each lateral, 20% viscoelastic diverting acid was utilized for diverting from high-intake zones and 20% HCl to stimulate damaged/tight zones. This operation illustrates how downhole pressure gauge readings are used to sequentially operate the LIT efficiently and activate the HPJN, as well as to pump the matrix stimulation treatment below the fracturing pressure. Real-time GR readings, meanwhile, are used for depth control and to correctly identify laterals.
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