注氮速率和注氮压力对气井卸载过程的影响

M. Cedeno
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引用次数: 0

摘要

随着水平井钻井技术和水力压裂技术的发展,非常规油气资源开发得到了极大的发展。然而,随着越来越多的钻井和压裂井彼此靠近,裂缝冲击已成为这些井的主要挑战。研究了瞬态多相流条件下注氮流量和注氮压力对卸载压裂冲击气井的影响。利用瞬态多相流模拟器建立了数值模拟模型,模拟了从地面通过环空段注入氮气的压裂段卸载过程。通过建立和分析多个模拟实例,了解注氮速率和注氮压力对压裂段卸载的影响。该模型模拟了Eagle Ford页岩当前活跃井的实际现场数据。结果表明:随着注氮压力的增大,氮气体积和卸压时间均减小;另一方面,增加氮气注入速率将增加卸载压裂段所需的氮气体积。此外,随着注氮速率的增加,卸载压裂井的时间也会减少。这些结果表明,如果使用更高的氮气流量,卸载压裂井所需的时间将会最小化。尽管如此,卸载压裂井段所需的氮气量将会最大化。需要强调的一个重要观察结果是,运营商可以通过减少注入氮气的时间来节省资金。在Eagle Ford页岩中,当增加压裂井的注入压力时,这一观察结果得到了验证,注入时间缩短了20%。研究了注氮流量和注氮压力对气井压裂段卸载的影响。由于缺乏关于该主题的公开研究,该工作可以作为气井卸载压裂冲击的实用指南。
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Unloading Frac Hits in Gas Wells: How Does the Nitrogen Injection Rate and Pressure Affect the Unloading Process?
The unconventional resources development has grown tremendously as a result of the advancement in horizontal drilling technology coupled with hydraulic fracturing. However, as more wells are drilled and fractured close to each other, frac hits have become a major challenge in these wells. The aim of this work is to investigate the effect of nitrogen injection flow rate and pressure on unloading frac hits gas wells in transient multiphase flow. A numerical simulation model was created using a transient multiphase flow simulator to mimic the unloading process of frac hits by injecting nitrogen from the surface through the annulus section of the well. Many simulation cases were created and analyzed to comprehend the effect of the nitrogen injection rate and pressure on the unloading of frac hits. The model mimicked real field data from currently active well in the Eagle Ford Shale. The results showed that as the nitrogen injection pressure increases, the nitrogen volume and the time to unload the frac hits decrease. On the other hand, increasing the injection rate of nitrogen will increase the nitrogen volume required to unload the frac hits. In addition, the time to unload frac hits will be decreased as the nitrogen injection rate increases. These results indicate that the time required to unload frac hits will be minimized if higher flow rates of nitrogen were utilized. Nonetheless, the volume of nitrogen required to unload the frac hits will be maximized. An important observation to highlight is that the operators can save money by reducing the time for injecting nitrogen. This observation was verified when increasing the injection pressure in the frac hit well in the Eagle Ford Shale, the time of injection was reduced 20%. This study presents the effects of nitrogen injection flow rate and injection pressure for unloading frac hits in gas wells. Due to the lack of published studies about this topic, this work can serve as a practical guideline for unloading frac hits in gas wells.
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