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    • 3. 发明授权
    • Riser system
    • 立管系统
    • US06685397B1
    • 2004-02-03
    • US10030654
    • 2002-01-09
    • Keith Dixon-Roche
    • Keith Dixon-Roche
    • E21B1701
    • E21B17/015
    • Where a submarine wellhead is coupled to a floating vessel by a riser in the form of a flexible hose, vessel movements subject the riser to excessive strains where the riser is tethered ask to the vessel. In accordance with the invention, these strains are reduced by pivoting the riser tether about a horizontal axis, and optionally also about a vertical axis. Giving the riser tether at least one degree of rotational freedom is surprisingly beneficial in reducing riser strains, and consequently in reducing the probability of premature failure of the riser.
    • 当潜艇井口通过柔性软管形式的提升管联接到浮动船舶时,船只运动将提升管运送到过高的应变,其中提升管系在船上。 根据本发明,通过使提升管系绳围绕水平轴线枢转,并且还可选地还围绕垂直轴线来使这些菌株减少。 给提升管系绳至少一度的旋转自由度令人惊奇地有益于减少提升管应变,并因此降低提升管过早失效的可能性。
    • 5. 发明授权
    • Method and device for adjusting the buoyance of an offshore drilling pipe riser
    • 用于调节海上钻井立管的浮力的方法和装置
    • US06402430B1
    • 2002-06-11
    • US09416960
    • 1999-10-13
    • Jean Guesnon
    • Jean Guesnon
    • E21B1701
    • E21B17/012
    • A riser for drilling with a subsea wellhead and a method for adjusting the boyancy of a pipe. The riser includes tubular elements (1) linked together by connecting devices (2). The elements include a floating device consisting of a box (6) in which a determined volume of gas can be pumped so as to modify the apparent weight of the element in the water. At least one tubular element comprises detectors (12) for measuring the differential pressure between the inside and the outside of the box, a value device (14) for filling the box with gas, a bleed valve device (15) for discharging the gas from the box, a control transmission and reception unit (13) for controlling the filling valve device and the discharge bleed valve device considering the differential pressure measurement.
    • 用于海底井口钻井的提升管和调节管道浮力的方法。 提升管包括通过连接装置(2)连接在一起的管状元件(1)。 这些元件包括由箱体(6)组成的浮动装置,其中可以泵送确定体积的气体,以便改变元件在水中的表观重量。 至少一个管状元件包括用于测量箱体内部和外部之间的压差的检测器(12),用于将气体填充到箱体中的值装置(14),用于将气体从气体排出的排放阀装置(15) 该箱体,考虑到压差测量,用于控制灌装阀装置和排放放泄阀装置的控制传送和接收单元(13)。
    • 6. 发明授权
    • Emergency dump apparatus for buoyancy air tanks on buoyant riser systems
    • 用于浮力提升管系统的浮力空气罐的紧急倾卸装置
    • US06394702B2
    • 2002-05-28
    • US09915011
    • 2001-07-25
    • Edmund A. Fisher
    • Edmund A. Fisher
    • E21B1701
    • E21B17/012
    • An apparatus for rapid venting of the compressed air and deballasting of a buoyant air tank in a positively buoyant riser system in the event of a premature drive off or a riser section parting is shown. The buoyancy tank or housing includes an annularly shaped flange positioned on its upper end and retained by explosive bolts. The inner circumference of the flange is sealed to the riser section supported by the buoyancy housing. A sensing means, activated by a parting of the riser, actuates the explosive bolts to release the annularly shaped flange and flood the buoyancy housing while restraining lines limit movement of the buoyancy housing with respect to the riser section.
    • 示出了在过早驱动关闭或提升器部分分离的情况下,在积极浮力提升管系统中快速排空压缩空气和浮力空气罐的卸荷的装置。 浮力箱或壳体包括一个位于其上端并由爆炸螺栓保持的环形凸缘。 凸缘的内圆周被密封到由浮力壳体支撑的提升部分。 由提升管分离启动的感测装置致动爆炸螺栓以释放环形凸缘并淹没浮力壳体,同时限制线限制浮力壳体相对于提升部分的运动。
    • 8. 发明授权
    • Marine buoyancy modules and units
    • 海洋浮力模块和单元
    • US06821055B2
    • 2004-11-23
    • US10244395
    • 2002-09-17
    • Robert Kenneth Oram
    • Robert Kenneth Oram
    • E21B1701
    • B63B43/14B63B59/02B63B2231/40B63B2231/50B63B2231/72E21B17/012F16L1/20
    • A cylindrical buoyancy unit is composed of separate sections which are held together to surround a marine object such as a riser or pipe with additional conduits. The sections combine to define an internal cavity which is shaped to conform with the marine object. Each unit section is a thermosetting resin composite with a bulk interior of syntactic foam and an outer layer of different characteristics and an intermediate reinforcement layer. The intermediate layer is disposed close to the outer layer and is mechanically embedded but not tightly bonded into the structure. The intermediate layer is made as a mesh of high strength polymer fibers.
    • 圆柱形浮力单元由独立的部分组成,它们被保持在一起以包围海洋物体,例如具有附加导管的立管或管道。 这些部分组合以限定形成为符合海洋物体的内部空腔。 每个单元部分是具有大量内部的复合泡沫和不同特性的外层和中间加强层的热固性树脂复合材料。 中间层靠近外层设置并机械地嵌入,但不紧密结合到结构中。 中间层制成高强度聚合物纤维网。
    • 9. 发明授权
    • Multiple seal design for composite risers and tubing for offshore applications
    • 用于海上应用的复合提升管和管道的多重密封设计
    • US06719058B2
    • 2004-04-13
    • US10010191
    • 2001-12-05
    • Mamdouh M. SalamaBrian E. Spencer
    • Mamdouh M. SalamaBrian E. Spencer
    • E21B1701
    • E21B17/01E21B17/085F16L33/01F16L39/005
    • The present invention discloses multiple sealing systems for composite risers and methods of preventing interior fluid leakage to the outside of composite risers. Single or multiple elastomeric seals are formed between an elastomer applied in single or multiple grooves provided circumferentially along the outer surface of a metal to composite interface (MCI) of a liner assembly of the composite riser and an elastomeric shear ply provided on the outside of the liner assembly. The elastomeric seals and a seal between the MCI and the liner of the liner assembly provide a multiple sealing system for the composite riser to prevent leakage of interior fluids. In the event that the integrity of the seal between the MCI and liner fails or the integrity of the liner is compromised, the elastomeric seals would prevent leakage of the fluid to the outside of the composite riser.
    • 本发明公开了用于复合提升管的多个密封系统和防止内部流体泄漏到复合提升管外部的方法。 单个或多个弹性体密封件形成在施加在单个或多个凹槽中的弹性体之间,该凹槽沿复合提升管的衬套组件的金属与复合界面(MCI)的外表面周向设置,弹性体剪切层设置在 内胆组装。 弹性体密封件和MCI和衬套组件的衬套之间的密封为复合提升管提供了多个密封系统,以防止内部流体泄漏。 在MCI和衬管之间的密封的完整性损坏或衬套的完整性受损的情况下,弹性体密封将防止流体泄漏到复合提升管的外部。