利用跨管气举技术在海上边缘油田进行油井改造—案例研究

R. Vijay, M. Khanna, PJ Sarma
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引用次数: 0

摘要

LG是位于印度西海岸的一个边缘海上油田。LG油田的A井和B井分别采用了4 1 / 2英寸和3 1 / 2英寸的单管柱多层完井,并与含气层和含油层相交。在生产的初始阶段,这些井只产气,直到含油砂岩射孔,这些井才开始产油气混合。这些井一直处于自驱状态,最近在产量逐渐下降后停止了生产。诊断结果表明,垂直举升性能(VLP)出现故障,表明需要改变生产技术,可能需要在井中进行人工举升以使其上线。本文讨论了一种创新且具有成本效益的方法,该方法涉及在气举辅助下实施过油管机械跨式封隔,以使油井恢复生产并提高油田的整体采收率。考虑到每种方法的相关成本和时间,详细分析了使油井上线的各种技术。考虑到这些因素,我们计划在这些井中引入气举作为人工举升方法。A井和B井没有安装人工气举的气举心轴。对这些井进行修井将导致更高的成本、时间和风险因素。考虑到预期的增产,这种修井的经济可行性是不合理的。在进行了详细的技术和经济分析后,作业者决定采用跨立封隔器,通过钢丝绳通过循环滑套门(SSD)进行气举。跨式封隔器将被引入现有的4½in和3½in生产油管中,这些油管内部安装有气举心轴/孔板阀。进行了详细的建模,以确定不同升力参数下正确的孔口尺寸。候选井A和B的作业成功进行,并安装了气举地面装置。机械封隔器安装在所需的深度,没有任何问题,气体通过环空注入,从而实现了井的瞬时生产。与修井作业相比,总作业周期最短,更安全,更具成本效益,实现了增产。本文介绍了作业设计、实施的技术以及在成功激活一口理论上无活井至1000桶/天的生产过程中所克服的挑战,从而确立了通过油管气举的可行性。从论文中获得的知识将有助于专业人员制定涉及气举作业中使用机械跨式封隔器的井干预计划。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Well Revival in an Offshore Marginal Field Using Through Tubing Straddle Gas Lift Technology - A Case Study
LG is a marginal offshore field lying in the west coast of India. Well A and B in field LG were completed using 4 ½ - in and 3 ½ - in single-string multizone completion intersecting gas and oil-bearing zones. During the initial phase of its production, the wells only produced gas, until the oil-bearing sands were perforated, and the wells produced commingled gas and oil. These wells had been flowing naturally on self-drive and recently ceased to flow after showing gradual decline in their production. The diagnosis suggested a failure of Vertical Lift Performance (VLP) indicating a need to change the production technique and possibly a need for artificial lift in the wells to bring them online. The paper discusses an innovative and cost-effective approach involving the implementation of through-tubing mechanical straddle pack-off with gas lift assistance to bring the wells back to production and increasing the overall recovery from the field. A detailed analysis of the various techniques for bringing the well online was evaluated keeping in mind the associated cost and time for each method. The considerations lead to the plan of introducing gas lift as an artificial lift method for these wells. Wells A and B were not equipped with any gas lift mandrel for introducing artificial gas lift. Workover for these wells would result in higher cost, time & risk factors for the wells. The economic viability of such a workover was not justifiable given the incremental production anticipated. After performing a detailed technical and economic analysis, the decision was made to implement a through-tubing gas lift technique using a straddle packer conveyed on slickline across the circulation Sliding Sleeve Door (SSD). The straddle pack-off was to be introduced in the existing 4 ½ - in and 3 ½ - in production tubing with internally mounted gas lift mandrels/orifice valves. Detailed modelling was performed to determine the correct orifice size for different lift parameters. The operations in candidate wells A and B were successfully conducted and the surface setup for the gas lift was installed. The mechanical pack-off was set at the desired depths without any issue, and the gas was injected through the annulus leading to instantaneous production from the well. The total operations period was minimal as compared to the workover operations, far safer and more cost-effective for the production enhancement achieved. This paper describes the job design, technique implemented, and challenges overcome during the successful activation of a theoretically dead well to 1000 BOPD production, establishing the viability of through-tubing gas lifting. Learnings from the paper will help professionals plan for such well interventions involving the use of mechanical straddle pack off for gas lift operations.
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