Cementing Production Liners Terminating in Depleted Reservoirs: A Case Study on Deepwater Wells off the East Coast of India

Anandita Yadav, Animesh Kumar, V. Iyer, Tushar Ganjoo, Devesh Bhaisora
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Abstract

A lightweight cement solution was successfully applied in deepwater wells at depths greater than 1000 m and in production liners terminating in depleted reservoirs. These wells were drilled off the east coast of India. The fracture gradient prognosis for the depleted zones ranged from 11.0 to 11.28 lbm/gal. The measured depth (MD) of these wells was more than 4500 m (MDRT). Mud weights ranged from 10.9 to 11 lbm/gal in the well while drilling the zone. The length of the liner normally ranged from 1400 to 2300 m. The cement slurry was finalized after conducting numerous tests in the laboratory. A lead and tail combination was used for the job to maintain the required equivalent circulating density (ECD). In openhole completions, the casing or liner before the gravel pack should be landed in sand to establish having reached the reservoir top and to help ensure that no shale is present. Challenges for a successful liner job in these wells include landing in a depleted reservoir, which would enable a very low margin between the mud weight and fracture gradient. This margin is further reduced by the minimum horizontal stress mud weight requirement to help ensure that no hole collapse occurs while drilling and before cementing begins. In addition to the depleted zone, to maximize reservoir tapping, the well profiles are highly deviated, often reaching a well deviation of 80+ degrees, resulting in a high ECD during cementing. A long section of the cement column can create problems of cement channeling past the mud and mixing in the annulus. The correct prediction of pore pressure and fracture pressure for different sections is very important. Accurate knowledge of these values is recommended for a correct job design. Some of the lessons learned during the process to help ensure good zonal isolation include the following: An 11-lbm/gal lightweight lead slurry was formulated, keeping ECD and fluid rheology vs. strength development in mind. Solids loading was controlled to help ensure low friction factors (considering rheology) and to achieve a final compressive strength of 2,000 psi because it was a production casing.The length of the tail slurry column was maintained to a minimum to create minimal effect on the ECD, even though the hydrostatic pressure developed was marginal in a highly deviated section.A low-rheology/low-density synthetic oil-based mud (SOBM) (10 lbm/gal) was pumped ahead to reduce the ECD and to maintain the equivalent static density (ESD) above the pore pressure. In addition, the displacement rate was staggered to help maintain the ECDs.A high-viscosity pill was spotted at the 12 1/4-in. section total depth (TD) before the final pullout to act as a base for the cement slurry. This paper highlights the concerns and best practices developed when cementing production liners across depleted formations in deepwater wells.
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在枯竭油藏中终止固井生产尾管:以印度东海岸深水井为例
一种轻质水泥溶液成功应用于深度大于1000米的深水井和枯竭油藏的生产尾管。这些井是在印度东海岸开凿的。衰竭带的裂缝梯度预测范围为11.0 ~ 11.28 lbm/gal。这些井的实测深度(MD)均超过4500 m (MDRT)。在该区域钻井时,泥浆比重为10.9 ~ 11磅/加仑。班轮的长度通常在1400米到2300米之间。在实验室进行了多次试验后,最终确定了水泥浆。为了保持所需的等效循环密度(ECD),作业中使用了铅尾组合。在裸眼完井中,在砾石充填之前的套管或尾管应该下入砂粒,以确保已经到达储层顶部,并帮助确保没有页岩存在。在这些井中,尾管作业的成功面临的挑战包括进入枯竭的油藏,这将使泥浆重量和裂缝梯度之间的裕度非常低。为了确保在钻井期间和固井开始前不发生井眼坍塌,最低水平应力泥浆比重要求进一步减小了这一余量。除了枯竭区之外,为了最大限度地开发油藏,井的斜度很大,井斜通常达到80度以上,导致固井期间的ECD很高。水泥柱的长段可能会造成水泥穿过泥浆并在环空混合的问题。正确预测不同断面的孔隙压力和破裂压力是非常重要的。对于正确的作业设计,建议准确了解这些值。在此过程中吸取的一些经验教训有助于确保良好的层间隔离,包括:配制了11 lbm/gal的轻质铅泥浆,同时考虑了ECD和流体流变性与强度发展的关系。控制固相载荷有助于确保低摩擦系数(考虑流变性),并且由于是生产套管,最终抗压强度达到2000 psi。尾泥浆柱的长度保持在最小,对ECD的影响最小,即使在大斜度段产生的静水压力很小。提前泵入低流变/低密度合成油基泥浆(SOBM) (10 lbm/gal),以降低ECD并保持孔隙压力以上的等效静态密度(ESD)。此外,驱替速率是错开的,以帮助维持ecd。在12 1/4英寸处发现了一颗高粘度药丸。在最终拔出之前,分段总深度(TD)作为水泥浆的基础。本文重点介绍了在深水井枯竭地层中固井生产尾管时需要注意的问题和最佳实践。
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