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    • 1. 发明授权
    • Method and apparatus for treating a well
    • 治疗井的方法和装置
    • US07128157B2
    • 2006-10-31
    • US10616455
    • 2003-07-09
    • Corey E. HoffmanRobert Murphy
    • Corey E. HoffmanRobert Murphy
    • E21B43/12
    • E21B33/134E21B43/26
    • The present invention generally relates to a method and an apparatus for stimulating the production of an existing well. In one aspect, a method of treating a well is provided. The method includes inserting a selective treatment assembly and a plug assembly into a partially lined wellbore until the selective treatment assembly is positioned proximate an area of interest. Thereafter, the selective treatment assembly is activated to isolate and treat the area of interest. Next, the selective treatment assembly is deactivated and urged toward the surface of the well until the plug assembly is seated in a polished bore receptacle disposed in a string of casing. At this point, the treated portion of the wellbore is separated from the untreated portion. Thereafter, the pressure in the untreated portion of the wellbore is equalized with the surface of the well and then the selective treatment assembly is removed from the wellbore while the plug assembly remains in the polished bore receptacle. Next, a string of production tubing is disposed in the wellbore and attached to the polished bore receptacle. The plug assembly is then removed from the polished bore receptacle and the well is produced. In another aspect an apparatus for treating a portion of a wellbore is provided.
    • 本发明一般涉及一种用于刺激现有井的生产的方法和装置。 在一个方面,提供了一种处理井的方法。 该方法包括将选择性处理组件和插头组件插入部分衬里的井眼中,直到选择性处理组件位于感兴趣区域附近。 此后,激活选择性处理组件以分离和处理感兴趣的区域。 接下来,选择性处理组件被停用并被推向井的表面,直到插头组件被安置在设置在套管串中的抛光孔插座中。 此时,井筒的处理部分与未处理部分分离。 此后,井筒的未处理部分中的压力与井的表面相等,然后当塞组件保持在抛光孔容器中时,将选择性处理组件从井筒移除。 接下来,将一串生产管道设置在井筒中并且附接到抛光孔容器。 然后将塞子组件从抛光的孔容器中移除,并且产生井。 在另一方面,提供了一种用于处理井眼的一部分的装置。
    • 4. 发明授权
    • Sand removal method
    • 除砂方法
    • US06719056B2
    • 2004-04-13
    • US10388869
    • 2003-03-14
    • Corey E. HoffmanRichard Lee GirouxMike A. LukeStephen J. Norris
    • Corey E. HoffmanRichard Lee GirouxMike A. LukeStephen J. Norris
    • E21B3700
    • E21B23/04E21B27/00E21B37/08E21B43/124
    • The present invention provides a simple debris removal apparatus for use in a wellbore. In one aspect of the invention a modular, interchangeable venturi is provided which can be retrofit into an existing debris bailer having a filter and a debris collection container. In another aspect of the invention, a venturi is utilized to create a negative pressure in a wellbore sufficient to actuate a retrieval tool for a downhole device. In yet another aspect of the invention, a combination tool is provided which can evacuate debris in a wellbore, thereby uncovering a downhole device which can then be removed in a single trip. In yet another aspect of the invention, a debris removal apparatus is provided with a method for the apparatus in a wellbore on coiled tubing.
    • 本发明提供一种用于井眼的简单的碎屑去除装置。 在本发明的一个方面,提供了一种可更换的文丘里管,其可以改造成具有过滤器和碎片收集容器的现有碎片吊架。 在本发明的另一方面,文丘里管用于在井筒中产生足够的负压以致动井下装置的取回工具。 在本发明的另一方面,提供了一种组合工具,其可以将井眼中的碎屑排出,从而露出井下装置,然后可以在单次行程中移除。 在本发明的另一方面,一种碎屑去除装置设置有用于在连续油管上的井眼中的装置的方法。
    • 5. 发明授权
    • Method for installing an expandable coiled tubing patch
    • 安装可膨胀盘管油管补片的方法
    • US06668930B2
    • 2003-12-30
    • US10106178
    • 2002-03-26
    • Corey E. Hoffman
    • Corey E. Hoffman
    • E21B2900
    • E21B43/103E21B19/22E21B29/10
    • The present invention provides methods for expanding coiled tubing within a wellbore in order to form a patch. In one aspect, an expansion assembly is run into the wellbore at the lower end of a string of coiled tubing. The expansion assembly includes a cutting tool and an expander tool. The coiled tubing is run into the wellbore such that the expander tool is adjacent a portion of surrounding casing or other tubular body to be patched. The expander tool is actuated so as to expand a selected portion of the coiled tubing into frictional engagement with the surrounding casing, thereby forming a patch within the wellbore. The cutting tool is actuated so as to sever the coiled tubing downhole above the patch. The severed coiled tubing is then pulled, thereby removing the expansion assembly from the wellbore as well.
    • 本发明提供了用于在井筒内扩张连续油管以形成补片的方法。 在一个方面,膨胀组件在一排连续油管的下端进入井眼。 膨胀组件包括切割工具和膨胀器工具。 连续油管进入井眼,使得膨胀器工具邻近待修补的周围壳体或其他管状体的一部分。 膨胀器工具被致动,以便将所选择的连续油管部分膨胀成与周围的壳体摩擦接合,由此在井筒内形成一个补片。 切割工具被致动以便切断贴片上方的盘管。 然后拉出切断的连续油管,从而从井筒除去膨胀组件。
    • 6. 发明授权
    • Sand removal and device retrieval tool
    • 除砂和设备检索工具
    • US06640904B2
    • 2003-11-04
    • US10163814
    • 2002-06-06
    • Corey E. HoffmanRichard Lee GirouxMike A. LukeStephen J. Norris
    • Corey E. HoffmanRichard Lee GirouxMike A. LukeStephen J. Norris
    • E21B3120
    • E21B23/04E21B27/00E21B37/08E21B43/124
    • A simple debris removal apparatus for use in a wellbore. In one aspect of the invention a modular, interchangeable venturi is provided which can be retrofit into an existing debris bailer having a filter and a debris collection container. In another aspect of the invention, a venturi is utilized to create a negative pressure in a wellbore sufficient to actuate a retrieval tool for a downhole device. In yet another aspect of the invention, a combination tool is provided which can evacuate debris in a wellbore, thereby uncovering a downhole device which can then be removed in a single trip. In yet another aspect of the invention, a debris removal apparatus is provided with a method for utilizing the apparatus in a wellbore on coiled tubing.
    • 用于井眼的简单碎片去除装置。 在本发明的一个方面,提供了一种可更换的文丘里管,其可以改造成具有过滤器和碎片收集容器的现有碎片吊架。 在本发明的另一方面,文丘里管用于在井筒中产生足够的负压以致动井下装置的取回工具。 在本发明的另一方面,提供了一种组合工具,其可以将井眼中的碎屑排出,从而露出井下装置,然后可以在单次行程中移除。 在本发明的另一方面,一种碎屑去除装置提供了一种在连续油管上的井眼中利用该装置的方法。
    • 9. 发明授权
    • Isolation container for a downhole electric pump
    • US06568475B1
    • 2003-05-27
    • US09608077
    • 2000-06-30
    • William A. GrubbDavid M. HaugenCorey E. Hoffman
    • William A. GrubbDavid M. HaugenCorey E. Hoffman
    • E21B4316
    • F04D29/426E21B27/02E21B43/128F04B47/06F04D13/10H02K5/132
    • An isolation container designed for use with a downhole electric pump assembly commonly used in oil and gas drilling and production operations is disclosed. The isolation container has an annular housing with an axial inlet and outlet bore. A downhole electric pump assembly is centrally located within the pressure isolation container. The downhole electric pump assembly includes an electric pump positioned above and coupled to a motor seal section which is positioned above and coupled to a centrifugal pump, thereby providing a means to power the centrifugal pump. A blind coupling is positioned above the electric motor with a tubular member connected thereto and extending through the inlet of the isolation container. The tubular member connects to a tubing string supplying fluid from the surface. The blind coupling has a plurality of radially disposed ports to allow pressurized fluid from the surface to flow into the annulus between the downhole electric pump and the isolation container. This fluid then flows to inlet ports on the downhole electric pump. The pressure of the pressurized fluid is then boosted or increased by the operation of the downhole electric pump. The fluid is then discharged through a tubular member, which is sealed in the outlet bore of the pressure isolation container. The tubular member extends through a packer positioned below the pressure isolation container and the boosted pressure fluid is injected into the subsurface formation. An electrical cable from the surface supplies power to the electric motor and a check valve is provided on the upper end of the pressure isolation container for releasing entrained air in the pressure isolation container.