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    • 4. 发明申请
    • NEAR SHORE WEC SYSTEM
    • 近岸WEC系统
    • US20110298215A1
    • 2011-12-08
    • US13109743
    • 2011-05-17
    • Hein WilleSophie Boureau
    • Hein WilleSophie Boureau
    • F03B13/18H02N2/18
    • F03B13/18F03B13/182F03B13/1885F03B13/20F05B2240/40F05B2260/407H02N2/185Y02E10/38
    • Systems are described for obtaining energy from water movements in shallow waters, using panels (4) that are pivotally mounted (13) near the sea floor in shallow water and that extend up to the sea surface, or that are pivotally mounted above the sea surface and extend down into the sea. As water near the sea surface moves in ellipses (48), or largely back and forth, the panel pivots back and forth. A cylinder (8, 18) with one end (7′) mounted on a stationary base and an opposite end (7) connected to the panel, carries at least one sheet (70) of elastomeric material that has electrodes (72, 74) at its opposite faces, with an electrical charge between the electrodes. As the panel pivots back and forth, the sheet is repeatedly stretched and relaxed to vary the voltage between the electrodes in order to generate electricity. A cylinder (8) can be used whose ends move toward and away from each other, or a cylinder (18) can be used whose ends pivot about a cylinder axis relative to each other.
    • 描述了用于从浅水中的水运动中获得能量的系统,使用在浅水中靠近海底并且延伸到海面的枢轴安装(13)的面板(4),或者枢转地安装在海面上方 并延伸到海里。 当靠近海面的水以椭圆(48)或大量来回移动时,面板来回移动。 具有安装在固定基座上的一端(7')和连接到面板的相对端(7)的圆柱体(8,18)承载至少一个具有电极(72,74)的弹性体材料片(70) 在其相对面处,在电极之间具有电荷。 当面板来回转动时,片材被反复拉伸和松弛以改变电极之间的电压,以便发电。 可以使用其端部彼此移动和远离的圆筒(8),或者可以使用其端部相对于彼此围绕圆柱体轴线枢转的圆柱体(18)。
    • 5. 发明授权
    • Steel pipeline fluid transfer system
    • 钢管流体输送系统
    • US08414342B2
    • 2013-04-09
    • US12016929
    • 2008-01-18
    • Hein WilleJack Pollack
    • Hein WilleJack Pollack
    • B63B22/02
    • B63B27/24
    • A steel pipeline (22) extends in a shallow catenary curve between two floating structures (12, 14). The pipeline is connected to each floating structure in a joint (60, 60B) that has a center lying on or very close to the pitch and roll axes (54, 56, 54B, 56B) of the corresponding structure hull. A first structure has a recess (52) extending upward from the bottom of the first structure hull to at least the pitch and roll axes of the hull. The shallow catenary curve pipeline extends at an incline (C) of many degrees to the vertical into the recess, and the pipeline end (30) connects to a pipe connector (70) lying on the pitch and roll axes. The pipe connector preferably allows free relative pivoting of a plurality of degrees about horizontal axes between itself and the first pipe end.
    • 钢管道(22)在两个浮动结构(12,14)之间的浅悬链曲线上延伸。 管道连接到每个浮动结构中的接头(60,60B)中,该接头具有位于或非常靠近对应结构船体的俯仰和滚动轴线(54,56,54B,56B)的中心。 第一结构具有从第一结构船体的底部向上延伸到船体的俯仰和滚动轴线的凹部(52)。 浅连接曲线管道以垂直方式以多个倾斜角度(C)延伸到凹部中,并且管道端部(30)连接到位于俯仰和滚动轴线上的管道连接器(70)。 管连接器优选地允许围绕其本身与第一管端之间的水平轴线的多个度的自由相对枢转。
    • 6. 发明申请
    • METHOD FOR INSTALLING AN OFF-SHORE STRUCTURE
    • 安装离岸结构的方法
    • US20100186965A1
    • 2010-07-29
    • US12668477
    • 2008-07-07
    • Hein WilleJack Pollack
    • Hein WilleJack Pollack
    • E21B7/128E02B17/08
    • B63B9/065B63B21/50B63B21/502B63B2001/044
    • An off-shore structure is installed in a body of water. The body of water extends above a floor, such as a seabed, and has a water surface. A buoyant pontoon and a top structure are provided separately from each other. The top structure has a deck, a plurality of legs that are connected to the deck, and a jacking system for displacing the legs relative to the deck. The pontoon is submerged below the water surface. The submerged pontoon is connected to the floor with tendons. The top structure is aligned above the submerged pontoon connected to the floor. Then, the legs are jacked-down relative to the deck until the legs abut against the submerged pontoon connected to the floor. Subsequently, the jacked-down legs are attached to the submerged pontoon and the deck is jacked-up relative to the pontoon until the deck is standing above the water surface. A number of risers are installed for providing a fluid communication between the floor and the deck after jacking up the deck above the water surface.
    • 离岸结构安装在水体中。 水体在地板上方延伸,如海床,并有水面。 漂浮的浮筒和顶部结构彼此分开设置。 顶部结构具有甲板,连接到甲板的多个腿部,以及用于使腿部相对于甲板移位的起重系统。 浮船被淹没在水面以下。 淹没的浮桥用腱连接到地板上。 顶部结构在连接到地板的淹没浮桥上方对齐。 然后,腿部相对于甲板被压下,直到腿部抵靠连接到地板的浸没式浮筒。 随后,起落腿连接到淹没的浮筒,并且甲板相对于浮筒被抬起,直到甲板站在水面之上。 安装多个立管,用于​​在水面上方的甲板上升之后,在地板和甲板之间提供流体连通。
    • 7. 发明申请
    • Enhanced side-by-side mooring construction
    • 增强的并排系泊结构
    • US20090078185A1
    • 2009-03-26
    • US11887008
    • 2006-03-20
    • Leendert PoldervaartHein OomenHein Wille
    • Leendert PoldervaartHein OomenHein Wille
    • B65D88/78B63B21/00
    • 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 hight 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,用于在岸边结构旁边系泊油船的弓形和船尾锚固点,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。
    • 9. 发明申请
    • Submerged loading system
    • 淹没装载系统
    • US20070163481A1
    • 2007-07-19
    • US11651794
    • 2007-01-10
    • Stein VedeldPierre BalleraudHein Wille
    • Stein VedeldPierre BalleraudHein Wille
    • E21B17/01
    • B63B27/24E21B17/015Y10T137/402Y10T137/6906
    • An offshore system allows a vessel (12) to sail to a predetermined sea location (14), quickly set up a loading system and start the transfer of hydrocarbons to or from a pipeline (22), and then quickly disconnect and sail away. The vessel is a DP (dynamic positioning) vessel that does not require mooring or anchor lines, so the only apparatus to install is a conduit (30) that can be picked up by the vessel to extend between a stationary pipe end (24) that lies at the sea floor and the vessel. The conduit includes primarily a flexible hose (70) that extends in a sine wave with two loops (80, 82). The conduit includes a rigid reinforced hose section (34) that is pivotally connected to the sea floor. A chain (114) can be provided with a portion of the chain lying on the sea floor, to help the disconnected hose coupling (42D) remain at a stable position above the sea floor.
    • 离岸系统允许船舶(12)航行到预定的海上位置(14),快速建立装载系统并开始向管道(22)或从管道(22)传送碳氢化合物,然后快速断开并远离。 该容器是不需要系泊或锚定线的DP(动态定位)容器,因此唯一的安装装置是可由容器拾起的导管(30),该导管(30)可在固定管端(24), 位于海底和船只。 导管主要包括以两个环(80,82)以正弦波延伸的柔性软管(70)。 导管包括枢转地连接到海底的刚性增强软管部分(34)。 链条(114)可以设置有位于海底的链条的一部分,以帮助断开的软管接头(42D)保持在海底上方的稳定位置。
    • 10. 发明授权
    • Floating power generation system
    • 浮式发电系统
    • US07119460B2
    • 2006-10-10
    • US11059171
    • 2005-02-16
    • Leendert PoldervaartBram Van CannHein WilleLeon D. Rosen
    • Leendert PoldervaartBram Van CannHein WilleLeon D. Rosen
    • H05K7/14
    • F25J1/0284F17C7/04F17C2221/033F17C2223/0161F17C2225/0123F17C2227/01F17C2227/0302F17C2260/048F17C2265/05F17C2265/07F17C2270/0105F17C2270/011F17C2270/0126F17C2270/0155F17C2270/0163F25J1/0022F25J1/0278F25J2240/80
    • A system for using natural gas to safely provide large amounts (at least 30 megawatts) of electricity to consumers. The system includes a floating generating vessel (110) that lies offshore and carries one or more turbine-generator sets (114, 116) that use natural gas as fuel and whose electricity output is delivered though a power line (138) that extends at least partially in the sea to a consumer. One consumer is a process vessel (112) that processes natural gas and that has transfer facilities (68) that transfer liquified gas to or from a tanker (106) that holds over 10,000 tons of liquified gas. Some of the gas is transferred from the process vessel through a conduit (136) in the sea to the generating vessel (110) to provide fuel. Another consumer is an onshore facility (52). The generating and process vessels (110, 112) are widely separated (e.g. at least 0.2 kilometer) to protect personnel in the event of a gas explosion or fire. The separate generating and process vessels enable rapid acquisition of the vessels, which is especially useful to quickly supply large quantities of electricity in newly developed areas.
    • 使用天然气安全提供大量​​(至少30兆瓦)电力给消费者的系统。 该系统包括位于海上的浮动发电容器(110),并承载使用天然气作为燃料的一个或多个涡轮发电机组(114,116),并且其电力输出通过至少延伸的电力线(138) 部分在海上给消费者。 一个消费者是处理天然气的处理容器(112),并且具有将液化气体转移到储存超过10,000吨液化气体的罐车(106)的转移设施(68)。 一些气体从处理容器通过海中的导管(136)传送到发电容器(110)以提供燃料。 另一个消费者是陆上设施(52)。 发生和处理容器(110,112)被广泛分离(例如至少0.2公里),以在气体爆炸或火灾的情况下保护人员。 单独的生成和处理容器可快速获取容器,这对于在新开发区域快速供应大量电力尤其有用。