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首页> 外文会议>SPE2001: an Eamp;P odyssey: your portal to the future >Aconcagua, Camden Hills, and King's Peak Fields, Gulf of Mexico Employ Intelligent Completion Technology in Unique Field Development Scenario
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Aconcagua, Camden Hills, and King's Peak Fields, Gulf of Mexico Employ Intelligent Completion Technology in Unique Field Development Scenario

机译:墨西哥湾的阿空加瓜(Aconcagua),坎顿山(Camden Hills)和金峰山田(King's Peak Fields)在独特的油田开发方案中采用智能完井技术

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摘要

Economic success of deepwater and ultra-deepwaterrndevelopments often depends on the use of innovativerntechnologies that can increase production and minimizernworkover needs to achieve the sought-after field efficiencyrnduring the productive life of the field. Intelligent completionrntechnology, a new concept for the oilfield, is one of therntechnologies that can support these needs. This wellrncompletion concept allows the operator to obtain real-time orrnnear-real-time reservoir data, and then, to reconfigure thernwellbore production/injection architecture to adapt to therninformation obtained.rnAlong with pipeline, platform, and subsea systemrnsynergies, three fields in the Gulf of Mexico — Aconcagua,rnCamden Hills, and King’s Peak — are using intelligentrncompletion technology to optimize a marginal reserve base.rnLocated in Mississippi Canyon Blocks 173, 217, 305, 348 andrnDesoto Canyon Blocks 133 and 177 in 6200- to 7200-ft ofrnwater, the production from the three fields will be tied to thernCanyon Station host platform, 55 miles from the most distantrnwell location.rnThough slight variations exist between the intelligentrncompletion systems being installed in the three fields, thernbasic design in each consists of:rn? A production packer with a hydraulic and electricrnbypassrn?rnA gauge package for measuring shut-in and flowingrnpressure from two sand-controlled zonesrn? 2 control valves with metal-to-metal seals to controlrnflow from both production intervalsrn? A shroud to isolate flow between upper and lowerrnproduction intervals.rnThe piston-actuated control valves will be functionedrnthrough a direct hydraulic link from the subsea controlrnmodule. Pressure applied at the subsea control module willrnallow hydraulic fluid to be directed to the open side of onernpiston, the open side of the other piston, or the close line,rnwhich is common to both valves.
机译:深水和超深水开发的经济成功通常取决于使用创新技术,这些技术可以提高产量并最大限度地减少修井作业的需要,以在油田的生产寿命中实现抢手的油田效率。智能完井技术是油田的一个新概念,是可以满足这些需求的技术之一。这种完井概念使操作员可以获取实时或近乎实时的储层数据,然后重新配置井眼的生产/注入架构,以适应所获得的信息。沿管道,平台和海底系统协同作用,海湾的三个领域墨西哥的阿空加瓜(Aconcagua),坎登山(Camden Hills)和金山峰(King's Peak)–正在使用智能完井技术来优化边际储备库。这三个领域的生产将与距最远井位55英里的Canyon Station主机平台相关联。尽管三个领域中安装的智能完成系统之间存在细微差异,但每个领域的基本设计包括:带有液压和电动旁路的生产封隔器?一种用于测量来自两个防砂区的关闭压力和流动压力的仪表套件。 2个带有金属对金属密封的控制阀,以控制两个生产间隔的流量护罩可隔离上下开采间隔之间的流动。活塞驱动的控制阀将通过海底控制模块的直接液压连接来工作。在海底控制模块上施加的压力将使液压油被导引至活塞的开口侧,另一个活塞的开口侧或两个阀共有的闭合管路。

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