Collaborative Approach Overcomes Cementing Challenges in Narrow Pressure Window Environment

Day 1 Tue, October 12, 2021 Pub Date : 2021-10-12 DOI:10.2118/206443-ms

D.К. Lobastov, Svetlana Nafikova, I. Akhmetzianov, Sh. G. Zaripov, D. Krivolapov

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Abstract

The collaborative approach used for cementing the production liner in an onshore development well in Russia is presented. The reservoir has a narrow window between pore and fracture pressures, which has previously caused formation instability and severe lost circulation issues during well construction, compromising zonal isolation objectives. Total loss of fluids experienced while cementing the 114.3 mm production liner in the first appraisal well in the field led to revising the cementing strategy. Collaboration among various parts of the drilling department and the opportunity to define a new approach resulted in a decision to introduce managed pressure drilling (MPD) to address the challenges associated with a narrow pressure window and uncertainty in pore pressure while drilling and cementing. This enabled implementing the optimal mud weight and adjusting equivalent circulating density (ECD) during cementing with minimum overbalance. Reducing the mud weight from 1.20 SG to 1.05 SG eliminated losses after running the liner and while cementing it. As a result, pre-job circulation rates and pumping rates during cementing could be increased, improving mud removal efficiency and achieving top of cement at the required depth. The constant-bottomhole-pressure mode of MPD was used to maintain the same ECD during displacement of the well to a lighter fluid and during cementing, avoiding well influx during pumpoff events by compensating for the annular friction pressure loss with surface backpressure. This first onshore managed pressure cementing operation executed within the same field in Russia (later named as field A) was completed flawlessly, with no safety or quality issues, zero nonproductive time, and achievement of the required zonal isolation across the challenging production section. The collaborative approach used was a novel strategy, with the mud weight program strategically adjusted before and during the cementing operation to achieve zonal isolation objectives.

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协作方法克服窄压力窗环境下固井挑战

介绍了俄罗斯陆上开发井生产尾管固井的协同方法。储层孔隙压力和破裂压力之间的窗口很窄，这在之前的建井过程中会导致地层不稳定和严重的漏失问题，影响层间隔离的目标。在现场的第一口评价井中，在对114.3 mm生产尾管进行固井作业时，由于漏液严重，导致了固井策略的修改。由于钻井部门各部门之间的合作以及确定新方法的机会，最终决定引入控压钻井(MPD)，以解决钻井和固井过程中压力窗口狭窄和孔隙压力不确定性带来的挑战。这使得在固井过程中能够实现最佳泥浆比重，并在最小过平衡的情况下调整当量循环密度(ECD)。将泥浆比重从1.20 SG降至1.05 SG，消除了尾管下入和固井后的损失。因此，可以提高作业前循环速率和固井期间的泵送速率，提高泥浆清除效率，并在所需深度达到水泥顶。MPD的恒定井底压力模式用于在井置换到较轻的流体和固井期间保持相同的ECD，通过用地面回压补偿环空摩擦压力损失，避免泵送事件期间的井涌。在俄罗斯同一油田(后来被命名为A油田)进行的首次陆上控压固井作业完美完成，没有出现任何安全或质量问题，没有非生产时间，并且在具有挑战性的生产段实现了所需的层间隔离。采用的协作方法是一种新颖的策略，在固井作业之前和作业期间策略性地调整泥浆比重，以实现层间隔离目标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Day 1 Tue, October 12, 2021

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