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    • 24. 发明授权
    • Cryogenic transfer hose
    • 低温输送软管
    • US08074687B2
    • 2011-12-13
    • US11921855
    • 2006-05-31
    • Jean-Pierre QueauJack PollackHein WilleLiselotte Van Dijk
    • Jean-Pierre QueauJack PollackHein WilleLiselotte Van Dijk
    • F16L11/00
    • F16L59/143F16L39/005F16L39/02Y10S285/904
    • A flexible cryogenic transfer hose for connecting two cryogenic facilities, has a length of at least 20 m, and: an inner flexible hose with at least two segments, interconnected via at least two transverse inner connecting members, an outer hose surrounding the inner hose and including a watertight elastomeric or composite material, the outer hose having at least two segments mutually connected via two outer connecting members, the outer hose having a wall thickness of at least 2 cm, a bend radius of at least 2 m, and an internal diameter of at least 20 cm, the inner hose being kept at a distance from the outer hose via spacer elements bridging a distance between the outer wall of the inner hose and an inner wall of the outer hose, which distance is between 0.1 and 0.8 times the internal diameter dio of the inner hose.
    • 用于连接两个低温设备的柔性低温输送软管具有至少20μm的长度,以及:具有至少两个段的内部柔性软管,通过至少两个横向内部连接构件相互连接,围绕内部软管的外部软管和 包括防水弹性体或复合材料,所述外软管具有经由两个外连接构件相互连接的至少两个段,所述外软管具有至少2cm的壁厚,至少2m的弯曲半径和至少2m的内径 至少20厘米,内软管通过间隔元件与外软管保持一段距离,间隔件跨过内软管的外壁和外软管的内壁之间的距离,该距离在该外软管的0.1至0.8倍之间 内软管的内径dio。
    • 25. 发明申请
    • HIGH VOLTAGE SWIVEL WITH STACKED RING-SHAPED CONDUCTOR ASSEMBLIES
    • 具有堆叠式环形导体组件的高压开关
    • US20110237089A1
    • 2011-09-29
    • US13132174
    • 2009-12-01
    • Maxime Baptiste BerardEric BarrabinoPhilippe Albert Christian MenardoJean-Pierre QueauBenjamin Passieux
    • Maxime Baptiste BerardEric BarrabinoPhilippe Albert Christian MenardoJean-Pierre QueauBenjamin Passieux
    • H01R39/00
    • H01R13/523H01R4/4881H01R13/53H01R35/04H01R39/64
    • A high voltage swivel including an inner and an outer body, each body having at least a first and a second ring-shaped conductor element, the conductor elements including two spaced-apart end faces and a curved contact surface, the elements being mutually interconnected at opposing end faces via insulating members at axially spaced-apart positions, the inner and outer bodies being coaxial around a longitudinal axis, the contact surface of each inner conductor element being adjacent to and in electrical contact with an opposed contact surface of a corresponding outer conductor element, the inner and outer bodies being rotatable relative to one another around the longitudinal axis, each conductor element of the inner and outer body connected to a voltage line extending to an input terminal or an output terminal, the insulator members interconnecting the conductor elements situated at a mutual distance in the circumferential direction of the conductor element, the interconnected conductor elements of the inner and the outer body each being supported by a respective support member to form integral units such that the inner and outer bodies are adapted to be mutually decoupled or attached by relative displacement of the integral units in the direction of the longitudinal axis.
    • 包括内部和外部主体的高压旋转体,每个主体具有至少第一和第二环形导体元件,所述导体元件包括两个间隔开的端面和弯曲的接触表面,所述元件互相互连在 相对的端面经由绝缘构件在轴向间隔开的位置处,所述内部和外部主体围绕纵向轴线同轴,每个内部导体元件的接触表面与相应的外部导体的相对的接触表面相邻并与之电接触 内部和外部主体围绕纵向轴线相对于彼此可旋转,内部和外部主体的每个导体元件连接到延伸到输入端子或输出端子的电压线,绝缘体构件将位于 在导体元件的圆周方向上的相互距离处,互连的导体 内部和外部本体的元件各自由相应的支撑构件支撑以形成一体的单元,使得内部和外部主体适于通过整体单元在纵向轴线的方向上的相对移位相互去耦或附接。
    • 26. 发明申请
    • Fluid-Tight end fitting for a Composite Hose and Method of Assembling a Composite Hose on Such end Fitting
    • 用于复合软管的流体密封端接头和在这种端部接头上组装复合软管的方法
    • US20110048567A1
    • 2011-03-03
    • US12988115
    • 2009-04-15
    • Jack PollackJean-Pierre QueauPhilippe Albert Christian Menardo
    • Jack PollackJean-Pierre QueauPhilippe Albert Christian Menardo
    • F16L11/24
    • F16L33/228F16L33/01F16L59/141
    • A composite hose includes a tubular body of flexible material for transferring cryogenic fluid through the hose and for preventing fluid leakage through the body. The tubular body includes an inner wire helix spirally wound along the length of the hose, an outer wire helix spirally wound along the length of the hose, at least two reinforcing layers placed in between the inner and outer wire, at least one sealing layer placed between two reinforcing layers, an end fitting at both ends of the tubular body, each end fitting provided with a part for connection to another hose flange and an elongated cylindrical part, which is divided in an anchoring area for anchoring the tubular body and a static sealing area for fluid tight sealing of the hose. A gas tight sealing is created by bonding the at least one sealing layer to the cylindrical part over a ring shaped bonding area.
    • 复合软管包括用于通过软管传送低温流体并用于防止流体通过身体泄漏的柔性材料的管状体。 管状体包括沿软管的长度螺旋地缠绕的内螺旋螺旋线,沿着软管的长度螺旋地卷绕的外螺纹螺旋,放置在内部和外部线之间的至少两个加强层,至少一个密封层 在两个加强层之间,在管状体的两端处具有端部配件,每个端部配件设置有用于连接到另一个软管凸缘的部分和细长的圆柱形部分,其被分成用于锚固管状体的锚定区域和静态 软管密封密封的密封区域。 通过将至少一个密封层与环形结合区域上的圆柱形部分结合来产生气密密封。
    • 27. 发明授权
    • Enhanced side-by-side mooring construction
    • 增强的并排系泊结构
    • US07673577B2
    • 2010-03-09
    • US11887008
    • 2006-03-20
    • Leendert PoldervaartHein OomenHein Wille
    • Leendert PoldervaartHein OomenHein Wille
    • B63B21/00
    • B63B21/50B63B27/24
    • The invention relates to a floating offshore structure anchored to the sea bed. The floating offshore structure comprises a hull having longitudinal sides and transverse sides, bow and stern anchoring points for mooring a tanker vessel alongside the offshore structure, a deck at a predetermined height above sea level, hydrocarbon storage and/or processing devices being placed on the deck, a spacer member attached to the structure and projecting transversely from the sides for contacting a tanker vessel moored alongside the structure. The anchoring points of the structure comprise of quick release members, wherein the bow and/or stern anchoring points of the structure are situated on a deck which projects transversely from the hull of the structure substantially at the heights of anchoring points of the tanker vessel.
    • 本发明涉及一种锚定在海床上的浮式海上结构。 浮式海上结构包括具有纵向侧面和横向侧面的船体,用于系泊在海上结构旁边的油罐船的弓形和船尾锚固点,在海平面以上预定高度的甲板,放置在船上的碳氢化合物储存和/或处理装置 甲板,连接到结构上的间隔件,并从侧面横向突出,用于接合在结构上停泊的油船。 结构的锚定点包括快速释放构件,其中,结构的弓形和/或船尾锚定点位于从结构体的船体横向突出的甲板上,该甲板基​​本上在油罐船的锚固点的高度处。
    • 28. 发明授权
    • Wave power generator systems
    • 波浪发电机系统
    • US07632041B2
    • 2009-12-15
    • US12036026
    • 2008-02-22
    • Philippe F. JeanGuillaume A. ArdoiseJack Pollack
    • Philippe F. JeanGuillaume A. ArdoiseJack Pollack
    • E02B9/08
    • E02B9/08F03B13/148F03B13/188F05B2240/97Y02E10/38
    • Systems are provided for obtaining electrical energy from sea waves using deflectable material, especially EAP (electro-active polymers) type SSM (stretchable synthetic material) that generates electricity when an electrostatic charge is applied to the polymer and it is stretched. In one system (10), a buoyant element (12) has upper and lower parts (14, 22) connected by a quantity (36) of SSM, with the lower part anchored at a fixed height above the sea floor (24) and with the upper part movable vertically to stretch and relax the SSM as waves pass over. In another system (50) the buoy is rigid, but is anchored to the sea floor by at least one line (60) that includes, or is connected to at least a length (64) of SSM material. In still another system (160) a plurality of rigid buoys (162) that float on the sea surface, are connected in tandem by SMM (166, 172) that is stretched and relaxed as the buoys pivot relative to each other in following the waves. The buoys preferably lie with at least 80% of their volume below the average sea surface.
    • 尤其是当向聚合物施加静电荷并拉伸时产生电力的EAP(电活性聚合物)型SSM(可拉伸合成材料),可用于使用可偏转材料从海浪获得电能的系统。 在一个系统(10)中,浮力元件(12)具有通过SSM的数量(36)连接的上部和下部(14,22),下部锚固在海底(24)上方的固定高度,并且 随着波浪通过,上部可垂直移动以拉伸和松弛SSM。 在另一系统(50)中,浮标是刚性的,但是通过至少一条线(60)锚固到海底,该线包括或连接至少长度为(64)的SSM材料。 在又一系统(160)中,漂浮在海面上的多个刚性浮标(162)通过SMM(166,172)串联地连接,随着波浪相对于彼此的枢转,拉伸和松弛 。 浮标优选地具有低于平均海面的至少80%的体积。
    • 29. 发明申请
    • DEEP WATER HYDROCARBON TRANSFER SYSTEM
    • 深水转移系统
    • US20090264033A1
    • 2009-10-22
    • US12375233
    • 2007-07-27
    • Jack PollackDavid Lewis Hankin
    • Jack PollackDavid Lewis Hankin
    • B63B22/02F16K17/02
    • B63B22/026Y10T137/7728
    • System of a hydrocarbon transfer buoy and a vessel, the buoy having a length of at least 50 m and a length-to-width ratio of at least 10:1, and including a submerged buoyancy member having a length of at least 30 m and being situated at a depth of at least 10 m below water level, another support frame protecting above water level being connected to the top of the buoyancy member and carrying a support deck and a mooring buoy connector for attaching to a mooring arm connector of the vessel, which mooring arm connector is situated on an arm projecting outboard from the vessel's hull, the buoy being anchored to the sea bed via anchor lines which extend at an angle to a vertical direction, at least one hydrocarbon riser being attached to the buoy. The buoyancy member being connected to the sea bed via at least one substantially vertical taut tendon. The riser has a length of at least 500 m, and includes a steel riser part attached to the buoy, the riser extending up to the mooring buoy connector and being closable by a valve, the riser at its end including a connecting member for releasably attaching to a duct on the mooring arm connector.
    • 烃转运浮标和容器的系统,该浮标具有至少50μm的长度和至少10:1的长宽比,并且包括长度至少为30m的浸没浮力部件和 位于水位以下至少10米的深度处,保护在水位以上的另一支撑框架连接到浮力构件的顶部并且承载支撑甲板和系泊浮标连接器,用于附接到船舶的系泊臂连接器 该系泊臂连接器位于从船体的外侧突出的臂上,浮标通过与垂直方向成一定角度的锚定线锚固到海床,至少一个碳氢化合物提升器附接到浮标。 浮力构件通过至少一个基本垂直的拉紧腱连接到海床。 提升管具有至少500米的长度,并且包括附接到浮标的钢提升部分,提升管延伸到系泊浮标连接器并且可被阀关闭,提升管在其端部包括用于可释放地附接的连接构件 到系泊臂连接器上的管道。