通过在合成基泥浆钻井液(SBMDIF)系统中使用滤饼破碎机,最大限度地提高油井产能

IF 2.6 Q3 ENERGY & FUELS
Sonny Irawan , Siti Khaleeda , Mariam Shakeel , M. Taufiq Fathaddin
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引用次数: 3

摘要

地层损害对油井的整体产能影响很大。对于采用预开槽尾管或独立筛管(SAS)作为防砂手段的裸眼完井来说,滤饼的清除是地层损害修复的主要策略。如果没有适当的计划,低效的滤饼清除会导致巨大的后果,因为滤饼会堵塞防砂组件。使情况更糟的是,防砂部件容易堵塞。这突出了选择一种有效的滤饼破碎机的重要性,这种破碎机可以通过溶解构成滤饼主要部分的主要固体来成功地去除滤饼,这些固体可以是称重材料,重晶石或碳酸钙。此外,正确认识破碎滤饼的化学机理对理解破碎滤饼的效率是非常有益的。实验室研究试图模拟储层条件。利用高压高温压滤机(HPHT)进行渗透率恢复测试,旨在测试几种商用滤饼破碎机去除合成基钻井液(SBMDIF)的能力。以螯合型滤饼破碎剂、介表面活性剂型滤饼破碎剂和纳米表面活性剂型滤饼破碎剂为试验对象。对滤饼静浸后的状态进行了直观解释,并记录了滤饼的恢复渗透率。考察了各滤饼破碎机去除SBMDIF滤饼的机理。通过实验研究发现,中表面活性剂基滤饼破碎剂比螯合基滤饼破碎剂和纳米表面活性剂基滤饼破碎剂对SBMDIF滤饼的去除效果更好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Maximizing well productivity by using filter cake breaker for synthetic-based mud drill-in fluid (SBMDIF) system

Formation damage has a significant impact on the overall performance of the well productivity. Removal of filter cake which is deemed to be the main strategy of formation damage remediation is crucial in open hole completion with pre-slotted liner or stand-alone screen (SAS) as a mean of sand control. Without proper planning, inefficient filter cake removal can lead to tremendous consequences since filter cake can plug the sand control component. Making the condition worse, sand control component is susceptible to plugging. This highlights the importance of selecting an effective filter cake breaker that can successfully remove the filter cake through dissolution of the main solids that constitute the major portions of the filter cake which could be the weighting material, barite, or calcium carbonate. Besides that, a proper understanding of the mechanism of the filter cake breaker chemical would be very beneficial to comprehend the filter cake breaker efficiency. The laboratory study attempted to emulate the reservoir condition. Regained permeability testing using High Pressure High Temperature (HPHT) Filter Press aimed to test the ability of several commercial filter cake breakers in removing synthetic-based-mud drill-in-fluids (SBMDIF). Chelating-based filter cake breaker, meso‑surfactant-based filter cake breaker and nano-surfactant-based filter cake breaker were the samples to be tested in the laboratory work. The condition of the filter cake after being soaked statically was visually interpreted and the regain permeability was recorded. The mechanism of each filter cake breaker to remove the SBMDIF filter cake was also examined. Based on the experimental study, meso‑surfactant-based filter cake breaker was found to be more effective to remove SBMDIF filter cake compared to chelating-based filter cake breaker and nano-surfactant-based filter cake breaker.

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