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    • 2. 发明申请
    • REAL-TIME DYNAMIC DATA VALIDATION APPARATUS, SYSTEM, PROGRAM CODE, COMPUTER READABLE MEDIUM, AND METHODS FOR INTELLIGENT FIELDS
    • 实时动态数据验证装置,系统,程序代码,计算机可读介质和智能场的方法
    • WO2013102192A8
    • 2014-07-17
    • PCT/US2012072274
    • 2012-12-31
    • SAUDI ARABIAN OIL COARAMCO SERVICES CO
    • ABITRABI ABDEL NASSERAL-AJMI FAHADLAMONTAGNE MARCAWAJY MAJED
    • E21B43/00
    • G01V9/00E21B7/068E21B43/32E21B49/00G01V1/40G01V1/46G01V1/48G01V1/50G01V9/007G01V9/02G01V11/002G01V2210/72G06F17/00
    • Apparatus (30), computer readable media, and methods for managing an intelligent field, are provided. An exemplary method can include receiving real-time dynamic field data, analyzing validity of the dynamic field data, validating values of the field data, validating a state/condition of a well, and flagging well components, well conditions, and/or well state validation issues. An exemplary apparatus (30) can include hydrocarbon well instruments (40), a SCADA system, a process integration server and/or dynamic fieid data analyzing computer (31), and memory/computer readable media (35) storing a dynamic field data analyzing computer program (51). The computer program (51) can include instructions that when executed cause the dynamic field data analyzing computer (31) to perform yarious operations to include receiving real-time dynamic field, data, analyzing validity of the dynamic field data, validating values of the field data, validating a state/condition of a well, and flagging well components, well conditions, and/or well state validation issues.
    • 提供了装置(30),计算机可读介质和用于管理智能场的方法。 一种示例性方法可以包括接收实时动态场数据,分析动态场数据的有效性,验证场数据的值,验证井的状态/状况,以及标记井分量,井条件和/或井状态 验证问题。 示例性装置(30)可以包括烃井仪器(40),SCADA系统,过程集成服务器和/或动态数据分析计算机(31)以及存储/计算机可读介质(35),其存储动态场数据分析 计算机程序(51)。 计算机程序(51)可以包括当执行时使得动态场数据分析计算机(31)执行各种操作以包括接收实时动态场,数据,分析动态场数据的有效性,验证场的值的指令 数据,验证井的状态/状态,以及标记井组件,井条件和/或井状态验证问题。
    • 4. 发明申请
    • METHOD AND APPARATUS FOR AUTONOMOUS DOWNHOLE FLUID SELECTION WITH PATHWAY DEPENDENT RESISTANCE SYSTEM
    • 自适应流体选择路基依赖电阻系统的方法与装置
    • WO2011097101A1
    • 2011-08-11
    • PCT/US2011/022617
    • 2011-01-26
    • HALLIBURTON ENERGY SERVICES, INC.DYKSTRA, Jason, D.FRIPP, Michael, LinleyDEJESUS, OrlandoGANO, John, C.HOLDERMAN, Luke
    • DYKSTRA, Jason, D.FRIPP, Michael, LinleyDEJESUS, OrlandoGANO, John, C.HOLDERMAN, Luke
    • E21B43/12E21B21/08
    • E21B34/08E21B34/06E21B43/08E21B43/12E21B43/14E21B43/32F15C1/16Y10T137/2065Y10T137/2076Y10T137/2087Y10T137/212
    • An apparatus is described for controlling flow of fluid in a tubular positioned in a wellbore extending through a subterranean formation. A flow control system is placed in fluid communication with a main tubular. The flow control system has a flow ratio control system and a pathway dependent resistance system. The flow ratio control system has a first and second passageway, the production fluid flowing into the passageways with the ratio of fluid flow through the passageways related to the characteristic of the fluid flow. The pathway dependent resistance system includes a vortex chamber with a first and second inlet and an outlet, the first inlet of the pathway dependent resistance system in fluid communication with the first passageway of the fluid ratio control system and the second inlet m fluid communication with the second passageway of the fluid ratio control system. The first inlet is positioned to direct fluid into the vortex chamber such that it flows primarily tangentially into the vortex chamber, and the second inlet is positioned to direct fluid such that it flows primarily radially into the vortex chamber, Undesired fluids, such as natural gas or water, in an oil well, are directed, based on their relative characteristic, into the vortex primarily tangentially, thereby restricting fluid flow when the undesired fluid is present as a component of the production fluid.
    • 描述了一种用于控制位于穿过地下地层的井筒中的管中的流体流动的装置。 流量控制系统被放置成与主管道流体连通。 流量控制系统具有流量比控制系统和通路依赖电阻系统。 流量比控制系统具有第一和第二通道,生产流体流入通道,​​流体通过通道的流体与流体流动的特性相关。 所述通路依赖电阻系统包括具有第一和第二入口和出口的涡流室,所述通路依赖电阻系统的第一入口与流体比例控制系统的第一通道流体连通,并且第二入口与 流量比控制系统的第二通道。 第一入口被定位成将流体引导到涡流室中,使得其主要相切地流动到涡流室中,并且第二入口被定位成引导流体,使得其主要径向流入涡流室,不期望的流体,例如天然气 或水在油井中基于它们的相对特征被引导到主要切向的涡流中,从而当不期望的流体作为生产流体的组分存在时限制流体流动。
    • 5. 发明申请
    • METHOD TO CONTROL DRIVING FLUID BREAKTHROUGH DURING PRODUCTION OF HYDROCARBONS FROM A SUBTERRANEAN RESERVOIR
    • 控制烃源岩生产过程中液体破裂的方法
    • WO2011014666A1
    • 2011-02-03
    • PCT/US2010/043730
    • 2010-07-29
    • BP CORPORATION NORTH AMERICA INC.BRICE, W., BradleyBOCCARDO, GiovannaTREMBLAY, Bernard
    • BRICE, W., BradleyBOCCARDO, GiovannaTREMBLAY, Bernard
    • C09K8/46C09K8/504C09K8/508C09K8/512C04B28/10
    • C09K8/5045C04B28/04C04B28/30C04B28/32C09K8/44C09K8/46C09K8/508C09K8/512E21B43/32C04B38/10
    • The invention is directed to a method for controlling driving fluid breakthrough caused by zones of pressure communication, i.e., a matrix bypass event ("MBE") or a wormhole, having a void space and possibly areas of enhanced permeability (a halo region) associated with the void space, within a subterranean formation arising from use of a driving fluid in reservoirs where heavy/viscous oil is being produced. In particular, the method is directed to remediation of pressure communication between injection and production wells used to produce heavy/viscous oil by way of a waterflood operation combined with a cold production method. Direct or rapid communication of water between the injector and producer wells makes the waterflood recovery process virtually ineffective and limits the production of oil from the reservoir. The invention comprises in embodiments a method wherein a slurry of a cementitious material is injected into the zone, which upon setting, provides a cement plug in the void space that reduces the pressure communication and flow of driving fluid within the zone. Another step is used to inject a gel precursor within the zone, which upon setting, produces a gel plug that also reduces pressure communication and driving fluid flow through the halo region of the zone.
    • 本发明涉及一种用于控制由压力​​通信区域引起的驱动流体突破的方法,即,具有空隙空间的矩阵旁路事件(“MBE”)或虫洞,并且可能具有增强的渗透性区域(晕圈)相关联 具有空隙空间,在由产生重/粘性油的储存器中使用驱动流体而产生的地层内。 特别地,该方法旨在通过与冷生产方法结合的水驱操作来修复用于生产重/粘性油的注射井和生产井之间的压力连通。 在注射器和生产井之间直接或快速地通信水使得注水恢复过程实际上无效,并限制了储层中油的产生。 本发明在实施方案中包括其中将水泥质材料的浆料注入到该区域中的方法,其在设置时在空隙空间中提供水泥塞,其减少该区域内的驱动流体的压力连通和流动。 另一个步骤用于在该区域内注入凝胶前体,其在凝固时产生凝胶塞,其还减少压力连通并驱动流过该区域的晕圈的流体。