用于枯竭地层的ERD井的非常规单一泥浆解决方案

Anibal Flores, Jorge Vasquez, Rama Anggarawinata, Lakmun Chan
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摘要

在文莱开发油田的大位移井固井(ERD)中,使用无定形液体二氧化硅基定制泥浆设计取得了成功。使用这种非常规的泥浆密度和设计,有助于实现这些井的生产管柱所需的水泥顶和层间隔离。对于石油行业的钻井部门来说,在枯竭地层中进行固井一直是一个挑战。在油田中,使用合格的水泥浆隔离生产区域已经成为一种必要,特别是在固井作业期间需要低当量循环密度(ECD)以达到低裂缝梯度地层所需的水泥顶的情况下。对于文莱海上作业,提出了一种新的方法,使用非晶液态硅基泥浆系统来设计一种新的14ppg轻质水泥浆。浆液性能经过调整,不再需要双重浆液系统。为这种新设计开发了计划、执行和术后评估方法。针对14 ppg的扩展浆进行了大量的实验室测试,包括基本的浆体测试以及更高级的评估,如全面的机械性能研究和与常规浆体设计相比的有限元分析。针对泥浆设计进行了各种优化,以克服混合性挑战,并使用传统的海上液体注入系统或在混合罐或钻机上将水与液体添加剂预混。为了验证该技术,在钻井现场进行了现场试验,对一口大位移井的生产尾管进行了固井,随后使用固井评价测井工具进行了评估。文莱第一次海上试运行于2020年第二季度,尺寸为4.5英寸。在生产尾管中,16.5 m3的14ppg新型泥浆被混合、泵送并成功放置在环空中。自最初的试验以来,在文莱共成功执行了8个作业,还有几口井被确定为该解决方案的候选井。本文提供了实验室测试细节、水力模拟验证以及作业执行和作业后水泥评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unconventional Single Slurry Solution for ERD Wells with Depleted Formations
Tailoring slurry designs using amorphous liquid silica base has been a success for Cementing Extended Reach Drilling (ERD) wells in Brunei in development fields. The use of this unconventional slurry density and design has helped to achieve the necessary top of cement and required zonal isolation for the production string of these wells. Cementing across depleted formations has been a challenge for the drilling sector within the oil industry. Isolation of production zones with competent cement slurries has become a necessity in fields, especially where a low Equivalent Circulating Density(ECD) during the cementing operation is required to achieve the desired top of cement in low fracture gradient formations. For Brunei offshore operations a novel approach has been proposed that uses an amorphous liquid silica-based slurry system to design a new 14 ppg lightweight cement slurry. The slurry properties were tailored to eliminate the need for a dual slurry system. Planning, execution, and post-operation evaluation methods have been developed for this new design. Extensive laboratory testing has been performed for the 14 ppg extended slurry which includes basic slurry testing as well as more advanced evaluations such as a full mechanical properties study and finite element analysis that was used compared to conventional slurry designs. Various optimizations were done for the slurry design to overcome mixability challenges and deployment using a conventional offshore liquid injection system or by premixing the water with liquid additives on a mixing tank or rig pits. To validate this technology, a field trial was performed at the rig site where a production liner for an extended reach well was cemented and subsequently evaluated using cement evaluation logging tools. The first Brunei offshore trial operation, executed in Q2 2020, was a 4.5-in. production liner where 16.5 m3 of a 14ppg novel slurry design was mixed, pumped and successfully placed within the annulus. Since the initial trial, a total of 8 jobs have been executed successfully in Brunei, with a few more wells identified as candidates for this solution. The paper provides laboratory testing details, hydraulic simulation validations along with job execution and post-operation cement evaluation.
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