科威特首次实施水力压裂排土场洪水:一个案例研究

A. Alam, S. Pooniwala, Malvika Nagarkoti, Waqas Zafar Cheema, Mohammad Al-Othman, E. Anthony
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引用次数: 0

摘要

与通常用于支撑油藏压力的地表水注入相比,倾倒注水是一种非常规且成本更低的替代方法。与地面注入相关的主要成本包括水处理和水源。排洪技术有助于消除这些成本,从而提高项目和油田的经济效益。倾倒驱油技术消除了再钻一口产水井的需要。为了使倾驱技术取得成功,关键是要从源头获得足够的产量,并向目标层段注入良好的速度。如果其中任何一个不满足,很可能对洪水的目标产生不利影响。本文详细介绍了该井面临的风险和挑战,以及为确保项目成功而实施的方法和技术。作为课题油田注水策略的一部分,采用了倾倒注水。这些井在人工举升的帮助下,从丰富的含水层中取水,然后将水注入上部储层,以提高波及效率和维持压力。倾倒驱技术采用两个射孔段:一个为源段,另一个为注入段。对于该井,从源层确定了产水能力。在最初的测试中,目标注入层在基质增产前后的注入能力都很差。因此,科威特首次在该井中尝试了一种新的水力压裂策略,以结合倾倒驱油技术来提高注入能力。在优化水力压裂设计时,必须特别考虑泵排出压力和地层关闭压力。介绍了压裂排土井人工举升设备选型和设计时应注意的特殊设计问题。为了在目标地层中获得所需的注入能力,成功实施水力压裂至关重要。在水力压裂施工过程中,我们观察到,一旦绕过近井眼损害,由于地层渗透率高,流体泄漏量显著增加。本文将详细介绍在操作执行过程中采取的各种决策,以确保治疗的成功。本文将讨论该国第一口水力压裂排土井成功的压裂后结果。这一成功确保了该井可以按照设计的完井和人工举升策略完成,从而将修井需求降至最低。从第一口水力压裂排土井中吸取的经验教训将在整个油田得到应用。该技术将通过高效注入,帮助优化采收率和项目经济效益。这项技术开启了一种新的方法,将在科威特最大限度地提高石油采收率方面发挥重要作用。
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First Hydraulically Fractured Dump Flood Implementation in Kuwait: A Case Study
Water dump flood is a non-conventional and cheaper alternative as compared to surface water injection commonly used to support reservoir pressure. The major costs associated with surface injection includes water treatment as well as sourcing of the water. The dump flood technique helps eliminate these costs thereby improving project and field economics. A dump flood technique eliminates the requirement of drilling an additional water producer well. In order for the dump flood technique to be successful, adequate production from the source and good injection rates into the target interval are key requirements. If either one of them are not met there is likely to be detrimental effects on the objective of the dumpflood. This paper details the risks and challenges identified for the subject well and the methods & technologies implemented to ensure the success of the project. As part of the water injection strategy in the subject field, water dump flood was deployed. These wells source water from a prolific aquifer and with the aid of artificial lift, and the water was then injected into the upper reservoir to improve sweep efficiency and pressure maintenance. Dump flood technology uses two perforation intervals : one source interval and another as an injection interval. For the subject well, water productivity was established from the source formation. Upon initial tests, the target injection zone showed poor injectivity both pre- and post- matrix stimulation. Hence a new strategy of implementing hydraulic fracturing to improve the injectivity in conjunction with the dump flooding technique in the subject well was attempted for the first time in Kuwait. Special consideration had to be taken while optimizing hydraulic fracturing design taking into account pump discharge pressure and formation closure pressure. This paper also covers the special design considerations taken into account when selecting and designing the artificial lift equipment for a fractured and dump flooded well. Successful execution of hydraulic fracturing was critical in order to achieve the required injectivity in the target formation. During the execution of hydraulic fracturing, it was observed that once the near well bore damage was by-passed, the fluid leak-off increased significantly due to high formation permeability. This paper will detail the various decisions taken during operational execution to ensure success of the treatment. Post fracturing results that contributed to the success of the first hydraulically fractured dump flood well in the country will be discussed. This success ensured that the well could be completed with the designed completion and artificial lift strategy resulting in minimal workover requirement. The lessons learnt from this first hydraulic fractured dump flood well will be applied across the field. The technique will help to optimize recovery and project economics through efficient injection. This technique unlocks a new method which will play a significant role in maximizing oil recovery in Kuwait.
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