公开(公告)号：US20140262260A1

公开(公告)日：2014-09-18

申请号：US14188565

申请日：2014-02-24

申请人： Christian S. Mayer ,  Charles S. Yeh ,  David A. Howell ,  Pavlin B. Entchev ,  Eric R. Grueschow ,  Ted A. Long ,  Tracy J. Moffett ,  Michael D. Barry ,  Michael T. Hecker ,  John S. Sladic ,  Christopher A. Hall ,  Stephen McNamee

发明人： Christian S. Mayer ,  Charles S. Yeh ,  David A. Howell ,  Pavlin B. Entchev ,  Eric R. Grueschow ,  Ted A. Long ,  Tracy J. Moffett ,  Michael D. Barry ,  Michael T. Hecker ,  John S. Sladic ,  Christopher A. Hall ,  Stephen McNamee

IPC分类号： E21B43/08 ,  E21B43/10 ,  E21B43/04 ,  E21B43/12 ,  E21B41/02

CPC分类号： E21B43/08 ,  E21B43/04 ,  E21B43/082 ,  E21B43/088 ,  E21B43/12

摘要： A sand control device is used for restricting the flow of particles from a subsurface formation into a tubular body within a wellbore during production operations. The sand control device is divided into compartments along its length that provide redundancy for particle filtration. Each compartment first comprises a base pipe. The base pipe defines an elongated tubular body having a permeable section and an impermeable section within each compartment. Each compartment also comprises a first filtering conduit and a second filtering conduit. The filtering conduits comprise filtering media and generally circumscribe the base pipe. The filtering conduits are arranged so that the first filtering conduit is adjacent to the non-permeable section of the base pipe, while the second filtering conduit is adjacent to the permeable section of the base pipe.

摘要翻译： 砂制控制装置用于在生产操作期间限制颗粒从地下地层流入井筒内的管状体。 砂控装置沿其长度分成隔间，为颗粒过滤提供冗余。 每个隔室首先包括基管。 基管限定了细长的管状体，其具有可渗透部分和每个隔室内的不可渗透部分。 每个隔室还包括第一过滤管道和第二过滤管道。 过滤管道包括过滤介质并且通常围绕基管。 过滤管道被布置成使得第一过滤管道与基管的不可渗透部分相邻，而第二过滤管道邻近基管的可渗透部分。

公开(公告)号：US09725989B2

公开(公告)日：2017-08-08

申请号：US14188565

申请日：2014-02-24

申请人： Christian S. Mayer ,  Charles S. Yeh ,  David A. Howell ,  Pavlin B. Entchev ,  Eric R. Grueschow ,  Ted A. Long ,  Tracy J. Moffett ,  Michael D. Barry ,  Michael T. Hecker ,  John S. Sladic ,  Christopher A. Hall ,  Stephen McNamee

发明人： Christian S. Mayer ,  Charles S. Yeh ,  David A. Howell ,  Pavlin B. Entchev ,  Eric R. Grueschow ,  Ted A. Long ,  Tracy J. Moffett ,  Michael D. Barry ,  Michael T. Hecker ,  John S. Sladic ,  Christopher A. Hall ,  Stephen McNamee

IPC分类号： E21B43/08 ,  E21B43/12 ,  E21B43/04

CPC分类号： E21B43/08 ,  E21B43/04 ,  E21B43/082 ,  E21B43/088 ,  E21B43/12

摘要： A sand control device is used for restricting the flow of particles from a subsurface formation into a tubular body within a wellbore during production operations. The sand control device is divided into compartments along its length that provide redundancy for particle filtration. Each compartment first comprises a base pipe. The base pipe defines an elongated tubular body having a permeable section and an impermeable section within each compartment. Each compartment also comprises a first filtering conduit and a second filtering conduit. The filtering conduits comprise filtering media and generally circumscribe the base pipe. The filtering conduits are arranged so that the first filtering conduit is adjacent to the non-permeable section of the base pipe, while the second filtering conduit is adjacent to the permeable section of the base pipe.

公开(公告)号：US09765592B2

公开(公告)日：2017-09-19

申请号：US14391157

申请日：2013-04-15

申请人： Randy C. Tolman ,  Renzo M. Angeles Boza ,  Kris J. Nygaard ,  Christian S. Mayer ,  Pavlin B. Entchev

发明人： Randy C. Tolman ,  Renzo M. Angeles Boza ,  Kris J. Nygaard ,  Christian S. Mayer ,  Pavlin B. Entchev

IPC分类号： E21B33/124 ,  E21B33/13 ,  E21B33/138 ,  E21B43/11 ,  E21B43/14 ,  E21B27/02

CPC分类号： E21B33/13 ,  E21B27/02 ,  E21B33/124 ,  E21B33/138 ,  E21B43/11 ,  E21B43/14

摘要： Systems and methods for secondary sealing of a perforation present within a wellbore casing associated with a primary sealing agent. The wellbore casing defines a casing conduit present within a wellbore that extends between a surface region and a subterranean formation. The systems and methods include a sealing apparatus that retains a charge of sealing material with a secondary sealing agent and is conveyed within the casing conduit to within a threshold distance of the perforation. The systems and methods further include selectively releasing the charge of sealing material from the sealing apparatus, such as by a release mechanism, to deliver the charge of sealing material to the perforation, to supplement the primary sealing agent (and/or a seal formed thereby), and/or to decrease a flow rate of a fluid from the casing conduit through the perforation.

公开(公告)号：US09322239B2

公开(公告)日：2016-04-26

申请号：US14428225

申请日：2013-09-13

申请人： Renzo M. Angeles Boza ,  Randy C. Tolman ,  Abdel Wadood M. El-Rabaa ,  Christian S. Mayer ,  Pavlin B. Entchev ,  Jonathan L. Hollett

发明人： Renzo M. Angeles Boza ,  Randy C. Tolman ,  Abdel Wadood M. El-Rabaa ,  Christian S. Mayer ,  Pavlin B. Entchev ,  Jonathan L. Hollett

IPC分类号： E21B23/08 ,  E21B29/02 ,  E21B33/12 ,  E21B23/10 ,  E21B23/14 ,  E21B43/116 ,  E21B43/14 ,  E21B43/25

CPC分类号： E21B33/12 ,  E21B23/10 ,  E21B23/14 ,  E21B43/116 ,  E21B43/14 ,  E21B43/25

摘要： Drag-enhancing structures for downhole operations are included in a downhole assembly that further includes a tool string, extends past a maximum transverse perimeter of the tool string, and increases resistance to fluid flow past the downhole assembly when the downhole assembly is pumped in a downhole direction within a wellbore conduit. The systems and methods include conveying the downhole assembly in the downhole direction within the wellbore conduit. The systems and methods further may include decreasing the resistance to fluid flow past the downhole assembly after the downhole assembly is located within a target region of the wellbore conduit and/or flowing a sealing material past the downhole assembly while the downhole assembly is located within the wellbore conduit.

摘要翻译： 用于井下作业的增强挖掘结构包括在井下组件中，其还包括工具串，延伸超过工具串的最大横向周长，并且当井下组件在井下泵送时增加对通过井下组件的流体流的阻力 井筒内的方向。 这些系统和方法包括在井筒管道内沿井下方向输送井下组件。 系统和方法还可以包括在井下组件位于井筒管道的目标区域内和/或使密封材料流过井下组件之前降低对通过井下组件的流体流的阻力，同时井下组件位于井下组件内 井筒导管。

公开(公告)号：US20150090453A1

公开(公告)日：2015-04-02

申请号：US14391157

申请日：2013-04-15

申请人： Randy C. Tolman ,  Renzo M. Angeles Boza ,  Kris J. Nygaard ,  Christian S. Mayer ,  Pavlin B. Entchev

发明人： Randy C. Tolman ,  Renzo M. Angeles Boza ,  Kris J. Nygaard ,  Christian S. Mayer ,  Pavlin B. Entchev

IPC分类号： E21B33/124 ,  E21B43/14 ,  E21B43/11

CPC分类号： E21B33/13 ,  E21B27/02 ,  E21B33/124 ,  E21B33/138 ,  E21B43/11 ,  E21B43/14

摘要： Systems and methods for secondary sealing of a perforation present within a wellbore casing associated with a primary sealing agent. The wellbore casing defines a casing conduit present within a wellbore that extends between a surface region and a subterranean formation. The systems and methods include a sealing apparatus that retains a charge of sealing material with a secondary sealing agent and is conveyed within the casing conduit to within a threshold distance of the perforation. The systems and methods further include selectively releasing the charge of sealing material from the sealing apparatus, such as by a release mechanism, to deliver the charge of sealing material to the perforation, to supplement the primary sealing agent (and/or a seal formed thereby), and/or to decrease a flow rate of a fluid from the casing conduit through the perforation.

摘要翻译： 存在于与主密封剂相关联的井眼套管内的穿孔的二次密封的系统和方法。 井眼套管限定了在井眼内存在的壳体管道，其在表面区域和地下地层之间延伸。 该系统和方法包括密封装置，该密封装置保持具有二次密封剂的密封材料的电荷并且在壳体导管内传送到穿孔的阈值距离内。 所述系统和方法还包括例如通过释放机构从密封装置中选择性地释放密封材料的装料，以将密封材料的装料输送到穿孔，以补充主密封剂（和/或由此形成的密封件 ）和/或降低来自壳体导管的流体通过穿孔的流速。

公开(公告)号：US11028668B2

公开(公告)日：2021-06-08

申请号：US16432171

申请日：2019-06-05

申请人： Federico G. Gallo ,  Jason Y. Wang ,  Christian S. Mayer

发明人： Federico G. Gallo ,  Jason Y. Wang ,  Christian S. Mayer

IPC分类号： E21B34/06 ,  E21B43/08

摘要： A method of reducing erosional peak velocity includes arranging a sand control screen assembly in an open hole section of a wellbore, the sand control screen assembly including a base pipe defining a plurality of flow ports, a sand screen arranged about the base pipe, and a wellbore isolation device deployed within an annulus defined between the sand control screen assembly and an inner wall of the wellbore. A fluid from a surrounding subterranean formation is circulated within the annulus, and the fluid within the annulus is diverted through the sand screen and into the base pipe upon approaching the wellbore isolation device. A peak velocity of the fluid flowing through the sand screen is reduced with a peak flux reducing assembly arranged axially adjacent the wellbore isolation device.

公开(公告)号：US20170122081A1

公开(公告)日：2017-05-04

申请号：US15208706

申请日：2016-07-13

申请人： Federico G. GALLO ,  Christian S. Mayer ,  Jason Y. Wang

发明人： Federico G. GALLO ,  Christian S. Mayer ,  Jason Y. Wang

IPC分类号： E21B43/08 ,  E21B33/12

CPC分类号： E21B43/088 ,  E21B33/12

摘要： A well screen system having enhanced resistance to erosion, including a tubular defined by a circumferential wall having an outer surface and a first plurality of apertures circumferentially disposed longitudinally along at least a portion thereof, the first plurality of apertures extending radially through the circumferential wall; a series of circumferential channels positioned about the outer surface of the circumferential wall; a plurality of longitudinal ribs positioned adjacent the series of circumferential channels and extending radially therefrom, the plurality of longitudinal ribs forming a series of longitudinal channels; and a wire helically disposed around the tubular, substantially enclosing the series of circumferential channels and the series of longitudinal channels, wherein the series of circumferential channels is structured and arranged to permit fluid communication with the series of longitudinal channels. A method for producing a well screen having enhanced resistance to erosion is also provided.

公开(公告)号：US20150247372A1

公开(公告)日：2015-09-03

申请号：US14428225

申请日：2013-09-13

申请人： Renzo M. ANGELES BOZA ,  Randy C. TOLMAN ,  Abdel Wadood M. EL-RABAA ,  Christian S. MAYER ,  Pavlin ENTCHEV ,  Jonathan L. HOLLETT

发明人： Renzo M. Angeles Boza ,  Randy C. Tolman ,  Abdel Wadood M. El-Rabaa ,  Christian S. Mayer ,  Pavlin B. Entchev ,  Jonathan L. Hollett

IPC分类号： E21B33/12 ,  E21B43/25 ,  E21B43/14 ,  E21B23/14 ,  E21B43/116

CPC分类号： E21B33/12 ,  E21B23/10 ,  E21B23/14 ,  E21B43/116 ,  E21B43/14 ,  E21B43/25

摘要： Drag-enhancing structures for downhole operations are included in a downhole assembly that further includes a tool string, extends past a maximum transverse perimeter of the tool string, and increases resistance to fluid flow past the downhole assembly when the downhole assembly is pumped in a downhole direction within a wellbore conduit. The systems and methods include conveying the downhole assembly in the downhole direction within the wellbore conduit. The systems and methods further may include decreasing the resistance to fluid flow past the downhole assembly after the downhole assembly is located within a target region of the wellbore conduit and/or flowing a sealing material past the downhole assembly while the downhole assembly is located within the wellbore conduit.

摘要翻译： 用于井下作业的增强挖掘结构包括在井下组件中，其还包括工具串，延伸超过工具串的最大横向周长，并且当井下组件在井下泵送时增加对通过井下组件的流体流的阻力 井筒内的方向。 这些系统和方法包括在井筒管道内沿井下方向输送井下组件。 系统和方法还可以包括在井下组件位于井筒管道的目标区域内和/或使密封材料流过井下组件之前降低对通过井下组件的流体流的阻力，同时井下组件位于井下组件内 井筒导管。

公开(公告)号：US20200024928A1

公开(公告)日：2020-01-23

申请号：US16432171

申请日：2019-06-05

申请人： Federico G. Gallo ,  Jason Y. Wang ,  Christian S. Mayer

发明人： Federico G. Gallo ,  Jason Y. Wang ,  Christian S. Mayer

IPC分类号： E21B34/06 ,  E21B43/08

摘要： A method of reducing erosional peak velocity includes arranging a sand control screen assembly in an open hole section of a wellbore, the sand control screen assembly including a base pipe defining a plurality of flow ports, a sand screen arranged about the base pipe, and a wellbore isolation device deployed within an annulus defined between the sand control screen assembly and an inner wall of the wellbore. A fluid from a surrounding subterranean formation is circulated within the annulus, and the fluid within the annulus is diverted through the sand screen and into the base pipe upon approaching the wellbore isolation device. A peak velocity of the fluid flowing through the sand screen is reduced with a peak flux reducing assembly arranged axially adjacent the wellbore isolation device.