公开(公告)号：US20160047931A1

公开(公告)日：2016-02-18

申请号：US14817718

申请日：2015-08-04

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Stephen K. CHIU ,  Joel D. BREWER ,  Peter M. EICK

IPC: G01V1/36

CPC classification number: G01V1/364 ,  G01V1/362 ,  G01V2210/1423 ,  G01V2210/322 ,  G01V2210/324 ,  G01V2210/56

Abstract: A method of performing notch compensation and a system to perform notch compensation for a first seismic streamer are described. The method includes disposing the first seismic streamer at a first depth, where the seismic streamer includes a first set of sensors to receive reflections resulting from a seismic source, the reflections indicating a notch at a frequency. The method also includes disposing a second seismic streamer at a second depth, the second depth being less than the first depth and the second seismic streamer including a second set of sensors to receive reflections resulting from the seismic source. The method further includes processing the reflections received by the first set of sensors and the second set of sensors together to derive the match filter, and applying the match filter to the reflections received by the first set of sensors of the first seismic streamer to compensate for the notch.

Abstract translation: 描述了执行缺口补偿的方法和对第一地震拖缆执行陷波补偿的系统。 该方法包括将第一地震拖缆放置在第一深度处，其中地震拖缆包括第一组传感器以接收由地震源产生的反射，反射指示频率处的陷波。 该方法还包括在第二深度处布置第二地震拖缆，第二深度小于第一深度，第二地震拖缆包括第二组传感器以接收由地震源产生的反射。 该方法还包括将由第一组传感器和第二组传感器接收的反射处理在一起以导出匹配滤波器，以及将匹配滤波器应用于由第一地震拖缆的第一组传感器接收的反射，以补偿 缺口

公开(公告)号：US09255446B2

公开(公告)日：2016-02-09

申请号：US14311881

申请日：2014-06-23

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Randall S. Shafer

IPC: E21B33/064 ,  E21B43/01 ,  E21B7/12

CPC classification number: E21B7/12 ,  E21B33/064 ,  E21B43/0122

Abstract: Systems and methods contain fluids discharged from a subsea well or at the surface by capping the well blowout with a pre-positioned capping device. The capping device includes at least one blind shear ram and is separate from a blowout preventer. Different personnel offsite of a rig drilling the well may have access and control to operate the device.

Abstract translation: 系统和方法包含从海底井或表面排出的流体，通过用预定位的封盖装置封盖井口。 封盖装置包括至少一个盲剪杆，并与防喷器分开。 钻井的钻井人员的不同人员可能会进入和控制操作设备。

公开(公告)号：US09254894B2

公开(公告)日：2016-02-09

申请号：US14178055

申请日：2014-02-11

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Zhihao George Gu ,  Chad A. Petrash ,  Ivica T. Grgas ,  Amal C. Phadke ,  Dominique P. Berta

IPC: B63B35/44 ,  E21B43/01 ,  E21B19/00 ,  B63B21/50

CPC classification number: B63B35/44 ,  B63B21/50 ,  B63B2035/448 ,  E21B19/002 ,  E21B43/01

Abstract: A subsea facility for hydrocarbon recovery in deep waters and methods of installation are provided. More specifically, the subsea facility equipment is on multiple modules equipped with a buoyancy system to allow the modules to sink to the sea floor. The modules can be attached and unattached to each other, thus allowing for a module to be raised to the surface for repairs without affecting the rest of the subsea facility.

Abstract translation: 提供了深海水体回收海底设施和安装方法。 更具体地说，海底设备设备在配备有浮力系统的多个模块上，以允许模块下沉到海底。 模块可以彼此附接和不连接，从而允许将模块升高到表面以进行修理而不影响海底设施的其余部分。

公开(公告)号：US09254893B2

公开(公告)日：2016-02-09

申请号：US14538141

申请日：2014-11-11

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Amal C. Phadke ,  George Z. Gu ,  Scott E. Coblitz ,  Daniel R. Givan ,  Derrick Laskowski ,  Chad A. Petrash

IPC: B63B35/00 ,  B63B21/56 ,  B63B9/06 ,  E21B43/013 ,  B63G8/22 ,  B63C7/12

CPC classification number: B63B35/003 ,  B63B9/065 ,  B63B21/56 ,  B63B2009/067 ,  B63C7/12 ,  B63G8/22 ,  E21B43/013

Abstract: A subsea platform transporter includes a plurality of pontoon members, a plurality of column members interconnecting select adjacent ones of the plurality of pontoon members forming a support frame having an inner platform receiving area, a plurality of buoyancy members mechanically linked to at least one of the plurality of pontoon members and the plurality of column members, and a plurality of platform retaining members mounted to one or more of the plurality of pontoon members and the plurality of column members about the inner platform receiving area. The plurality of platform retaining members is configured and disposed to selectively retain and release a platform supported by the subsea platform transporter.

Abstract translation: 海底平台运输机包括多个浮筒构件，多个柱构件互连多个浮筒构件中选择的相邻的浮筒构件，形成具有内平台接收区域的支撑框架，多个浮力构件机械连接至至少一个 多个浮筒构件和多个柱构件，以及多个平台保持构件，其围绕内平台接收区域安装到多个浮筒构件中的一个或多个以及多个柱构件。 多个平台保持构件被构造和布置成选择性地保持和释放由海底平台运送器支撑的平台。

公开(公告)号：US20160023732A1

公开(公告)日：2016-01-28

申请号：US14800861

申请日：2015-07-16

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Scott E. COBLITZ ,  Amal C. PHADKE ,  Derrick LASKOWSKI ,  Dan MUELLER ,  Daniel R. GIVAN ,  George Z. GU

IPC: B63G8/00 ,  B63G8/04 ,  E02B17/02

CPC classification number: B63G8/001 ,  B63B35/003 ,  B63G8/04 ,  B63G8/22 ,  B63G2008/002 ,  E02B17/02 ,  E02B17/021 ,  E02B2017/0043 ,  E02B2017/0047 ,  E02B2017/0052 ,  E21B43/01

Abstract: A subsea vessel includes filler material, which may be enclosed by an outer shell and may provide the vessel with a density for floatation. Exemplary applications for the vessels include buoyancy and tanks to hold fluids for operations subsea. The filler may include thermoplastic materials and/or concrete, which may be formed to create internal void spaces.

Abstract translation: 海底容器包括填充材料，其可以由外壳包围并且可以为容器提供用于浮选的密度。 船舶的示例性应用包括浮力和用于保持海底作业的流体的坦克。 填料可以包括热塑性材料和/或混凝土，其可形成以产生内部空隙。

公开(公告)号：US20150355362A1

公开(公告)日：2015-12-10

申请号：US14709838

申请日：2015-05-12

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Peter M. EICK ,  Joel D. BREWER

IPC: G01V3/15 ,  G01V3/08 ,  G01V3/38 ,  G01S19/13

CPC classification number: G01V3/15 ,  G01S19/13 ,  G01S19/14 ,  G01V1/3835 ,  G01V3/081 ,  G01V3/38

Abstract: A method of generating a magnetic anomaly map and a system to develop a magnetic anomaly map are described. The method includes obtaining magnetic compass data recorded by two or more magnetic compasses disposed along a seismic streamer that traverses a first area and obtaining measurements from one or more navigation systems over the first area. The method also includes determining a correct position of each of the two or more magnetic compasses based on the measurements from the one or more navigation systems, and comparing the magnetic compass data with theoretical magnetic field data at the correct positions to generate a magnetic anomaly map.

Abstract translation: 描述了产生磁异常图的方法和开发磁异常图的系统。 该方法包括获得由沿着穿过第一区域的地震拖缆设置的两个或更多个磁罗盘记录的磁罗盘数据，并从第一区域上的一个或多个导航系统获得测量值。 该方法还包括基于来自一个或多个导航系统的测量值确定两个或多个磁罗盘中的每一个的正确位置，以及将磁罗盘数据与正确位置处的理论磁场数据进行比较以产生磁异常图 。

公开(公告)号：US20150328712A1

公开(公告)日：2015-11-19

申请号：US14715889

申请日：2015-05-19

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Scott A. GRUBB

IPC: B23K13/02 ,  B23K35/00 ,  B23K20/06

CPC classification number: B23K20/06 ,  B23K13/025 ,  B23K35/00 ,  B23K2101/10

Abstract: A method for joining coiled tubing is described. Coiled tubing joints using a magnetic pulse welder are described that retain the strength of the original tubing. This type of joint is useful for joining multiple coiled tubing sections or for removing and repairing damaged coiled tubing. Because the joint is as strong as the original tubing, these types of joints may be used when placing tubing in the well.

Abstract translation: 描述了连接盘管的方法。 描述了使用磁脉冲焊机的螺旋管接头，其保持了原始管道的强度。 这种类型的接头可用于连接多个连续油管部分或用于拆卸和修理受损的连续油管。 由于接头与原始管道一样坚固，当将管道放入井中时，可以使用这些类型的接头。

公开(公告)号：US20150316333A1

公开(公告)日：2015-11-05

申请号：US14701623

申请日：2015-05-01

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Paul R. DAVIES ,  Amal C. PHADKE

IPC: F28F27/00 ,  B23P15/26

CPC classification number: F28F27/00 ,  B23P15/26 ,  F25J1/0022 ,  F25J1/004 ,  F25J1/0052 ,  F25J1/0085 ,  F25J1/0087 ,  F25J1/021 ,  F25J1/0278 ,  F25J5/005 ,  F25J2250/02 ,  F25J2250/20 ,  F28D1/0213 ,  F28D9/0006 ,  F28D9/0093 ,  F28D2021/0033 ,  F28F9/22 ,  F28F2265/06 ,  F28F2265/28 ,  Y10T29/49352

Abstract: A core-in-shell heat exchanger, a method of fabricating the core-in-shell heat exchanger, and a method of exchanging heat in a core-in-shell heat exchanger disposed on a slosh-inducing moving platform are described. The method of exchanging heat includes introducing a shell-side fluid into a shell of the core-in-shell heat exchanger and introducing a fluid to be cooled into each of one or more cores of the core-in-shell heat exchanger, the one or more cores being arranged along an axial length of the shell with a plurality of baffles disposed on either side of the one or more cores along the axial length of the shell to reduce slosh of the shell-side fluid. The method also includes draining excess shell-side fluid using a plurality of drains, at least two of the plurality of drains being disposed on opposite sides of one of the plurality of baffles.

Abstract translation: 一种核心壳式换热器，一种制造壳内换热器的方法，以及一种在设置在引起晃动的移动平台上的壳内换热器中交换热量的方法。 交换热量的方法包括将壳侧流体引入壳内换热器的壳体中并将待冷却的流体引入壳内换热器的一个或多个芯体中的一个， 或多个芯沿着壳体的轴向长度布置，多个隔板沿着壳体的轴向长度设置在一个或多个芯的任一侧上，以减少壳侧流体的晃动。 该方法还包括使用多个排水口排出多余的壳侧流体，多个排水口中的至少两个排放在多个挡板之一的相对侧上。

公开(公告)号：US09164186B2

公开(公告)日：2015-10-20

申请号：US13873358

申请日：2013-04-30

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Peter M. Eick ,  Joel D. Brewer

IPC: G01V1/155 ,  G01V1/09 ,  G01V1/147 ,  G01V1/145 ,  G01V1/143

CPC classification number: G01V1/155 ,  G01V1/09 ,  G01V1/143 ,  G01V1/145 ,  G01V1/147

Abstract: The invention is an electric sweep type seismic vibrator source of the type used in seismic prospecting for hydrocarbons. The source uses an engine and generator combination to create electric power to drive a frame of linear electric motors that direct a rod or piston to contact the ground in a recurring fashion. Preferably, a foot is arranged on the bottom end of the rod or piston for contact with the ground and by engaging the grid of motors to push down against the ground in a rapid progression, acoustic energy is created and delivered into the ground for geophones to sense and record.

Abstract translation: 本发明是用于碳氢化合物地震勘探的电扫型地震振动源。 该源使用发动机和发电机组合来产生电力以驱动线性电动机的框架，其引导杆或活塞以反复的方式接触地面。 优选地，脚放置在杆或活塞的底端上以与地面接触并且通过接合马达的格栅以快速进展向下推压地面，产生声能并将其输送到地面检测器的地面 感觉和记录。

公开(公告)号：US20150253071A1

公开(公告)日：2015-09-10

申请号：US14633307

申请日：2015-02-27

Applicant: CONOCOPHILLIPS COMPANY

Inventor： Wesley R. QUALLS ,  Matthew C. GENTRY ,  Paula A. LEGER ,  Robert L. BOULANGER

IPC: F25J1/00 ,  B23K20/02 ,  B23P15/26 ,  B23K20/00

CPC classification number: F25J1/0022 ,  B23K20/002 ,  B23K20/023 ,  B23K20/233 ,  B23K2101/14 ,  B23K2103/02 ,  B23K2103/26 ,  F25J1/0035 ,  F25J1/004 ,  F25J1/0052 ,  F25J1/0085 ,  F25J1/0087 ,  F25J1/021 ,  F25J1/0263 ,  F25J1/0264 ,  F25J3/0209 ,  F25J3/0233 ,  F25J3/0238 ,  F25J5/002 ,  F25J5/005 ,  F25J2200/04 ,  F25J2200/40 ,  F25J2200/70 ,  F25J2200/74 ,  F25J2200/78 ,  F25J2205/02 ,  F25J2205/04 ,  F25J2210/06 ,  F25J2220/60 ,  F25J2240/02 ,  F25J2250/02 ,  F25J2290/44 ,  F28D7/0083 ,  F28D7/06 ,  F28D9/0006 ,  F28D9/0062 ,  F28D21/0017 ,  F28D2021/0033 ,  F28F21/082 ,  F28F21/087 ,  Y02P80/156

Abstract: A method of constructing a plate fin heat exchanger includes joining a first side bar formed from a nickel-iron alloy to a first end of a fin element formed from a nickel-iron alloy through a first nickel-iron alloy bond, and joining a second side bar formed from a nickel-iron alloy to a second end of the fin element through a second nickel-iron alloy bond to create a first layer of the plate fin heat exchanger. The fin element defines a fluid passage.

Abstract translation: 一种构造板翅式热交换器的方法，包括：将由镍 - 铁合金形成的第一侧杆通过第一镍 - 铁合金接合到由镍 - 铁合金形成的翅片元件的第一端上，并且接合第二 通过第二镍 - 铁合金接合从镍 - 铁合金形成的翅片元件的第二端，以形成板翅式热交换器的第一层。 翅片元件限定了流体通道。