초록 ▼

A ring-wing floating platform is disclosed. The ring-wing floating platform includes a floating hull, a top of the floating hull being above a sea surface and its geometry at a water plane is centrally symmetric, a ring-wing surrounding a perimeter of a bottom of the floating hull with a horizontal

A ring-wing floating platform is disclosed. The ring-wing floating platform includes a floating hull, a top of the floating hull being above a sea surface and its geometry at a water plane is centrally symmetric, a ring-wing surrounding a perimeter of a bottom of the floating hull with a horizontal projection of concentric annular geometries, a positioning system located at the bottom of the floating hull, and a topsides located above the floating hull and connected to the floating hull by deck legs or installed directly on the top of the floating hull. The axes of the ring-wing and the floating hull are collinear, and their bottoms are in a same horizontal plane. The ring-wing and the floating hull are connected together as a unitary structure by multiple connecting components with an annular gap in-between.

대표청구항 ▼

1. A ring-wing floating platform, comprising: a floating hull, wherein a top of the floating hull is above a sea surface and its geometry at a water plane is centrally symmetric;a ring-wing surrounding a perimeter of a bottom of the floating hull with a horizontal projection of concentric annular ge

1. A ring-wing floating platform, comprising: a floating hull, wherein a top of the floating hull is above a sea surface and its geometry at a water plane is centrally symmetric;a ring-wing surrounding a perimeter of a bottom of the floating hull with a horizontal projection of concentric annular geometries, wherein the ring-wing is a segmented ring-wing, wherein one or more segments of the segmented ring-wing are one or more of: a fixed ring-wing segment, a tieback ring-wing segment, or a rotatable and foldable ring-wing segment;a positioning system located at the bottom of the floating hull; anda topsides located above the floating hull and connected to the floating hull by deck legs or installed directly on the top of the floating hull,wherein axes of the ring-wing and the floating hull are collinear, and their bottoms are in a same horizontal plane, wherein the ring-wing and the floating hull are connected together as a unitary structure by multiple connecting components with an annular gap in-between, andwherein multiple tieback ring-wing segments form a tieback ring-wing, wherein one or more fixed ring-wing segments and one or more tieback ring-wing segments form a partial tieback ring-wing, wherein the one or more fixed ring-wing segments and one or more rotatable and foldable ring-wing segments form a rotatable and foldable ring-wing. 2. The ring-wing floating platform as described in claim 1, wherein the tieback ring-wing segment is site-docked and connected to the floating hull by a butt-joint mechanism in addition to the multiple connecting components, wherein the rotatable and foldable ring-wing segment is connected to the floating hull by a hinge connection and a rotatable and foldable mechanism. 3. The ring-wing floating platform as described in claim 1, wherein a horizontal projection of the ring-wing is a concentric annulus with an outer circle or regular polygon, and an inner circle or regular polygon. 4. The ring-wing floating platform as described in claim 1, wherein the ring-wing is constructed from one or more of: steel, concrete, reinforced concrete, fiberglass reinforced plastic, or fiberglass and steel composite structure, wherein a radial cross section of the ring-wing is a box-shaped cross section, an inverted U-shaped cross-section, or an H-shaped cross-section. 5. The ring-wing floating platform as described in claim 1, further comprising notches at an inner side of the ring-wing, wherein a number of the notches is equal to a number of mooring legs, wherein the mooring legs penetrate the notches. 6. The ring-wing floating platform as described in claim 1, wherein the floating hull comprises one or more of: a floating single-cylindrical-tank, a floating closely connected multi-cylindrical-tank, or a floating interval-connected multi-cylindrical-tank, wherein the floating hull is made of steel, concrete, or combination thereof, wherein inside spaces of the floating hull are arranged with at least one buoyancy compartment plus one ballast compartment, one storage compartment, or one storage compartment plus one seawater ballast compartment. 7. The ring-wing floating platform as described in claim 6, wherein the floating single-cylindrical-tank comprises an outer vertical shell, a middle and a central annular vertical bulkheads in a circular or a regular polygon shape from outside in, which forms at least one outer annular compartment, an middle annular compartment, and a center compartment with multiple vertical bulkheads along a radial direction. 8. The ring-wing floating platform as described in claim 7, wherein the center compartment is a pump room, a machine room, or a penetrative moon pool, wherein the annular middle compartment is a storage compartment, wherein the outer annular compartment is a seawater ballast compartment or a seawater ballast compartment with a solid ballast compartment. 9. The ring-wing floating platform as described in claim 7, wherein the ring-wing floating platform is a single-cylinder floating wellhead storage offloading platform, wherein its floating hull is the floating single-cylindrical-tank with a fixed ring-wing, or a partial tieback ring-wing, wherein a cross section of its ring-wing is inverted U-shaped. 10. The ring-wing floating platform as described in claim 6, wherein the floating closely connected multi-cylindrical-tank is formed by a main body and two associated connection structures at its bottom and top, wherein the main body comprises multiple tank units being closely arranged in concentric circles with one or more layers to form a honeycomb naming a multi-cylinder tank group, wherein a top and bottom of outer walls of the main body are extended outward to form a top connection structure and a bottom connection structure separately, wherein the top connection structure or the bottom connection structure is a flat cylinder with a diameter equal to a diameter of a circumscribed circle projected by an outer layer of the tank units. 11. The ring-wing floating platform as described in claim 10, wherein a top of a bottom flat cylinder protuberates up and down respectively along a vertical direction to form two conical surfaces, each conical surface reaching and linking with outer tank units of the multi-cylinder tank group to produce intersecting lines. 12. The ring-wing floating platform as described in claim 10, wherein the tank units within the multi-cylinder tank group are single wall vessels which serve as one or more of: a storage compartment, a seawater ballast compartment, an engine room, a pump room, a spare empty tank, or a work room. 13. The ring-wing floating platform as described in claim 10, wherein the tank unit is a tank unit with steel plate and concrete composite walls comprising: a cylindrical outer concrete tank, including an outer tank shell;a cylindrical inner steel tank, including an inner tank shell; anda gap between the outer tank shell and the inner tank shell, wherein the gap forms one or more of: an isolation layer filled with an isolated medium or a spare compartment. 14. The ring-wing floating platform as described in claim 13, wherein the cylindrical inner steel tank is a liquid storage compartment with a single wall or a multi-wall located at an upper position inside the cylindrical outer concrete tank or at a middle position, wherein the isolation layer is filled with a nitrogen, wherein the spare compartment between the cylindrical inner steel tank and the cylindrical outer concrete tank is a seawater ballast compartment. 15. The ring-wing floating platform as described in claim 10, wherein the ring-wing floating platform is a multi-cylinder floating wellhead storage offloading platform with a fixed ring-wing, a partial tieback ring-wing, or a rotatable and foldable ring-wing, wherein a cross section of the fixed ring-wing segment is box-shaped or inverted U-shaped, wherein the tieback ring-wing segment and the rotatable and foldable ring-wing segment are inverted U-shaped. 16. The ring-wing floating platform as described in claim 10, wherein the ring-wing floating platform is a multi-cylinder drilling platform, wherein the floating closely connected multi-cylindrical-tank is a concrete structure with a rotatable and foldable ring-wing, wherein a cross section of the fixed ring-wing segment is box-shaped or inverted U-shaped. 17. The ring-wing floating platform as described in claim 6, wherein the floating interval-connected multi-cylindrical-tank is a four-column floater, wherein the four-column floater includes four floating pillar tanks and four horizontal connection girders, wherein a cross section of each pillar tank is a circle or a rectangle, wherein bottoms of the horizontal connection girders and the floating pillar tanks are in a same plane, wherein each horizontal connection girder connects to the bottoms of two adjacent floating pillar tanks through multiple fixed connection brackets with a gap in-between as a water channel. 18. The ring-wing floating platform as described in claim 17, wherein the floating pillar tanks are made of concrete or steel, and the horizontal connection girders and the fixed connection brackets are concrete structures or steel structures, wherein the floating pillar tank includes one or more of: a storage compartment, a seawater ballast compartment, an engine room, a pump room, a spare empty compartment, or a work room. 19. The ring-wing floating platform as described in claim 17, wherein the ring-wing floating platform is a ring-wing semi-submersible platform with a rotatable and foldable ring-wing, wherein a cross section of the fixed ring-wing segment is box-shaped or inverted U-shaped, wherein a cross section of the rotatable and foldable ring-wing segment is inverted U-shaped, wherein annular gaps are surrounding each pillar tank.