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    • 1. 发明授权
    • Pipeline connection apparatus and method
    • 管道连接装置及方法
    • US08628272B2
    • 2014-01-14
    • US12665603
    • 2008-06-19
    • Vincent Alliot
    • Vincent Alliot
    • F16L1/16
    • F16L1/16F16L1/26
    • A pipeline alignment termination device comprises a connecting piece (22, 24, 28) connected at its first end to a pipeline (29). The connecting piece is supported on a skid base (12) by an articulated support (24). Adjustable constraints (25, 26, 30, L) operable by ROV, permit the second end (20) to be accurately aligned by transverse and rotational adjustments with the end of a spoolpiece (232, 234). After alignment and connection, constraints on the rotation and transverse movement are removed, leaving the connecting piece supported but free to move with up to five degrees of freedom.
    • 管道对准终端装置包括在其第一端连接到管道(29)的连接件(22,24,28)。 连接件通过铰接支撑件(24)支撑在滑动基座(12)上。 可由ROV操作的可调节约束(25,26,30,L)允许通过横轴和旋转调节与第二端(20)的精确对准,其中卷轴(232,234)的端部。 在对准和连接之后,消除了旋转和横向运动的约束,使得连接件被支撑,但是可以自由地移动达五个自由度。
    • 3. 发明授权
    • Hybrid riser and method for sub-sea transportation of petroleum products with the device
    • 石油产品海底运输混合提升管和方法
    • US06321844B1
    • 2001-11-27
    • US09578382
    • 2000-05-25
    • François ThiebaudVincent Alliot
    • François ThiebaudVincent Alliot
    • E21B1701
    • B63B35/4406B63B21/27B63B22/04E21B17/012E21B17/015Y10T137/402
    • A method for transporting petroleum products in deep water from the seabed up to a floating or semi-submersible surface structure wherein at least one rigid and straight hybrid riser extends vertically. The hybrid riser has a rigid central hollow tubular structure surrounded by a cylindrical block of syntactic material which provides buoyancy and thermal insulation for the riser. A plurality of rigid pipelines are embedded in the syntactic material and surround the central tubular structure for receiving petroleum products from wells on the sea bed. The bottom of the riser is connected to a suction or gravity anchor at the sea bed. A submerged float is attached to the top of the riser and exerts an upward vertical force thereon. Flexible pipelines connect the rigid pipelines in the riser to the floating or semi-submersible structure.
    • 将深水中的石油产品从海底运输到浮动或半潜式表面结构的方法,其中至少一个刚性和直线混合提升管垂直延伸。 混合提升管具有由圆柱形块状材料围绕的刚性中心中空管状结构,其为提升管提供浮力和隔热。 多个刚性管道嵌入在句法材料中并且围绕中央管状结构以从海床上的井接收石油产品。 提升管的底部连接到海床上的吸力或重力锚。 淹没的浮子附着在提升管的顶部并在其上施加向上的垂直力。 柔性管道将提升管中的刚性管道连接到浮动或半潜式结构。
    • 5. 发明申请
    • PIPELAY VESSEL
    • US20110274498A1
    • 2011-11-10
    • US12998568
    • 2009-11-06
    • Vincent Alliot
    • Vincent Alliot
    • B63B35/03
    • B63B35/03F16L1/18F16L1/19F16L1/203
    • A pipelay vessel has a stinger extending along and outboard of one side of the vessel. A diverter is arranged to lead pipe onto the stinger input end through a predominantly horizontal diversion angle from a pipeline source having a substantially horizontal orientation. The vessel is selectively operable in any one of three modes, namely: (1) shallow S-lay, in which the pipe is launched over a stern-mounted stinger with a launch angle which has a predominantly horizontal component; (2) steep S-lay, in which the pipe is launched over the side-mounted stinger with a launch angle which has a predominantly vertical component; and (3) J-lay, in which the pipe is welded at and launched from a tower. The axis of the J-lay apparatus is aligned with the departure axis of the side-mounted stinger.
    • 管道运输船具有沿着船的一侧和外侧延伸的托管架。 分流器布置成通过主要具有基本上水平取向的管道源的水平引导角将管引导到托管输入端。 容器可选择性地以三种模式中的任何一种方式操作,即:(1)浅的S形,其中管子在船尾安装的托管架上发射,发射角度主要是水平分量; (2)陡峭的S-lay,其中管子在侧面安装的托管架上发射,具有主要垂直分量的发射角; 和(3)J-lay,其中管子被焊接并从塔架发射。 J-lay装置的轴线与侧面安装的托管架的离开轴线对齐。
    • 6. 发明申请
    • Method of obtaining acoustic metrology data and associated apparatus
    • 获取声学测量数据及相关设备的方法
    • US20060250894A1
    • 2006-11-09
    • US11330795
    • 2006-01-11
    • Vincent Alliot
    • Vincent Alliot
    • G01S15/00
    • G01S15/872G01S5/186G01S15/88
    • The relative position and orientation between two subsea structures (210, 212) are measured by ultra-short baseline acoustic metrology. Dual mode master/slave (220, 222) stations comprising a multi-transducer array are fitted in known position and orientation relative to each structure. The first station (220) is operated in master mode to determine the position and direction of the second structure (222) relative to the first (220). The second station (222) is operated in master mode to determine the position and direction data from both operations the apparatus calculates relative position and orientation between the structures. The dual mode stations can be replaced by a master station and a slave station, swapping places. The application further provides for method and apparatus for docking an underwater vehicle to a subsea structure whereby a mobile metrology transducer is fitted to said underwater vehicle such that when docked together, said transducer is in a known positional relationship to said structure. The vehicle may dock with a succession of structures in turn.
    • 通过超短基线声学计量来测量两个海底结构(210,212)之间的相对位置和取向。 包括多换能器阵列的双模式主/从(220,222)站相对于每个结构装配在已知位置和方位上。 第一站(220)在主模式下操作以确定第二结构(222)相对于第一(220)的位置和方向。 第二站(222)以主模式操作以确定来自两个操作的位置和方向数据,该装置计算结构之间的相对位置和取向。 双模式站可以由主站和从站替换,交换位置。 该应用还提供了将水下航行器对接到海底结构的方法和装置,由此将移动式测量传感器安装到所述水下航行器,使得当对接在一起时,所述换能器与所述结构处于已知的位置关系。 车辆依次可以搭配一连串的结构。
    • 8. 发明申请
    • Method of and apparatus for interconnecting lined pipes
    • 连接内衬管道的方法和装置
    • US20050246883A1
    • 2005-11-10
    • US10523747
    • 2003-08-01
    • Vincent AlliotJean Hoss
    • Vincent AlliotJean Hoss
    • F16L13/02B23P11/00B21D39/00
    • F16L13/0263F16L58/181Y10T29/49909Y10T29/49911Y10T29/4994Y10T29/53065
    • There are disclosed methods of and apparatus for interconnecting lined metal pipes (110, 120), applying in particular to the offshore oil and gas industry. Corrosion is a common problem in the industry. Lining pipes overcomes the problem, but welding sections of pipe together can be a complicated and time-consuming task, requiring dedicated and sophisticated tooling. More desirable is the ability to use conventional pipe-laying equipment (20, 40, 50, 60, 70, 80, 90) with little additional tooling. As such, there are disclosed methods and apparatus compatible with known offshore connection methods, particularly where the spacing of joints on the pipe is less than 100 m. The chosen technique will not significantly impact the laying rate of the lined pipe, compared with unlined pipe. The method includes connecting lined pipes (110, 120) using a corrosion-resistant bridging member (102) internally overlapping both linings, leaving a void space (146) behind the weld region (109) while at least the initial stages of welding (180) are performed, and expanding (170) the bridging member to provide a seal against the liners, in a controlled sequence. There is also disclosed a bridging member (102), tooling (170) and pipelay apparatus suitable for use with this method.
    • 公开了用于互连衬里金属管(110,120)的方法和装置,特别是应用于海上石油和天然气工业。 腐蚀是行业中的常见问题。 衬管克服了这个问题,但将管道焊接在一起可能是一个复杂而耗时的任务,需要专门的和复杂的工具。 更可取的是能够使用传统的铺管设备(20,40,50,60,70,80,90),只需少量额外的工具。 因此,公开了与已知的海上连接方法兼容的方法和装置,特别是在管道上的接头的间距小于100μm的情况下。 与无衬管相比,所选择的技术不会显着影响衬管的铺设率。 该方法包括使用内部重叠两个衬里的耐腐蚀桥接构件(102,110)连接内衬管道(110,120),在焊接区域(109)的后面留下空隙空间(146),而至少初始焊接阶段(180 ),并且以受控的顺序扩展(170)桥接构件以提供对衬垫的密封。 还公开了适用于该方法的桥接构件(102),工具(170)和管道铺设装置。
    • 10. 发明申请
    • Pipeline with Integrated Fiber Optic Cable
    • 集成光纤电缆管道
    • US20130170519A1
    • 2013-07-04
    • US13816476
    • 2011-08-22
    • Vincent Alliot
    • Vincent Alliot
    • F16L1/26G01K11/32
    • F16L1/26F16L13/0272F16L58/181F16L59/143F16L59/20G01K11/32G01M3/047G02B6/4427G02B6/46G02B6/506Y10T29/49885Y10T29/49888
    • Apparatus and methods for integrating a fiber optic cable (116) with a pipeline (104) are described. An example pipeline having an integrated fiber optic cable includes a plurality of pipe sections (119a, 119b), where each of the pipe sections has a thermally insulating outer layer (200, 202) and ends not covered by the outer layer. The ends of each of the pipe sections are welded to respective ends of other pipe sections to form field joints (111a) at the welded ends. The pipeline also includes a fiber optic cable, where first portions (120) of the fiber optic cable are in contact with some of the pipe sections at some of the field joints and where second portions of the fiber optic cable between the first portions are fixed to the outer layer. A coating is applied to cover each of the first portions of the fiber optic cable to integrate the fiber optic cable with the pipeline.
    • 描述了将光纤电缆(116)与管道(104)集成的装置和方法。 具有集成光纤电缆的示例管线包括多个管段(119a,119b),其中每个管段具有隔热外层(200,202),并且端部未被外层覆盖。 每个管段的端部焊接到其它管段的相应端部,以在焊接端部形成场接头(111a)。 管道还包括光纤电缆,其中光纤电缆的第一部分(120)在一些场接头处与一些管段接触,并且第一部分之间的光纤电缆的第二部分是固定的 到外层。 施加涂层以覆盖光纤电缆的每个第一部分以将光纤电缆与管道集成。