Unlocking Idle Production in an Offshore Sandstone Oil Field With Gas Hydrate Issues

B. Daramola
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Abstract

This publication presents how an oil asset unlocked idle production after numerous production upsets and a gas hydrate blockage. It also uses economics to justify facilities enhancement projects for flow assurance. Field F is an offshore oil field with eight subsea wells tied back to a third party FPSO vessel. Field F was shut down for turnaround maintenance in 2015. After the field was brought back online, one of the production wells (F5) failed to flow. An evaluation of the reservoir, well, and facilities data suggested that there was a gas hydrate blockage in the subsea pipeline between the well head and the FPSO vessel. A subsea intervention vessel was then hired to execute a pipeline clean-out operation, which removed the gas hydrate, and restored F5 well oil production. To minimise oil production losses due to flow assurance issues, the asset team evaluated the viability of installing a test pipeline and a second methanol umbilical as facilities enhancement projects. The pipeline clean-out operation delivered 5400 barrels of oil per day production to the asset. The feasibility study suggested that installing a second methanol umbilical and a test pipeline are economically attractive. It is recommended that the new methanol umbilical is installed to guarantee oil flow from F5 and future infill production wells. The test pipeline can be used to clean up new wells, to induce low pressure wells, and for well testing, well sampling, water salinity evaluation, tracer evaluation, and production optimisation. This paper presents production upset diagnosis and remediation steps actioned in a producing oil field, and aids the justification of methanol umbilical capacity upgrade and test pipeline installations as facilities enhancement projects. It also indicates that gas hydrate blockage can be prevented by providing adequate methanol umbilical capacity for timely dosing of oil production wells.
解决海上砂岩油田天然气水合物问题的闲置生产
本出版物介绍了石油资产如何在多次生产中断和天然气水合物堵塞后解锁闲置生产。它还利用经济学来证明设施增强项目的合理性,以保证流量。油田F是一个海上油田,有8口海底油井与第三方FPSO船相连。F油田于2015年关闭进行周转维护。在油田恢复生产后,其中一口生产井(F5)无法流动。对储层、油井和设施数据的评估表明,井口和FPSO船之间的海底管道存在天然气水合物堵塞。随后,聘请了一艘海底干预船进行管道清理作业,清除了天然气水合物,恢复了F5井的石油产量。为了最大限度地减少由于流动保证问题造成的石油生产损失,资产团队评估了安装测试管道和第二条甲醇脐带管作为设施增强项目的可行性。管道清理作业每天为该资产提供5400桶石油。可行性研究表明,安装第二条甲醇脐带管和一条测试管道在经济上是有吸引力的。建议安装新的甲醇脐带管,以保证F5和未来的填充生产井的油流。该测试管道可用于清理新井、诱导低压井、测试井、井取样、水盐度评估、示踪剂评估和生产优化。本文介绍了在生产油田中采取的生产故障诊断和补救措施,并为甲醇脐带能力升级和测试管道安装作为设施改进项目提供了依据。它还表明,通过提供足够的甲醇脐带容量,及时给产油井加药,可以防止天然气水合物堵塞。
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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