Claims
- 1. In an offshore undersea hydrocarbon production terminal installation which includes a transfer structure with a portion that lies substantially at the sea surface and is anchored to the sea floor and connected to a floating storage vessel, and a fluid conduit which extends from the sea floor through the transfer structure to the vessel, to carry high pressure fluid from an oil well at the sea floor to the vessel, and wherein the vessel and a portion of the transfer structure must be allowed to rotate without limit about a vertical axis, the improvement wherein:
- said transfer structure includes a nonrotatable frame anchored to the sea floor so it cannot rotate without limit about a vertical axis, and a rotatable frame which can rotate without limit about a vertical axis and which is connected to the vessel;
- said fluid conduit includes a fluid swivel having a nonrotatable swivel portion substantially fixed to said nonrotatable frame and a rotatable swivel portion, and said fluid conduit also includes a rotating conduit portion connecting the rotatable swivel portion to the vessel; and
- said fluid conduit also includes a riser conduit portion extending from substantially the sea floor to said transfer structure, and a pressure reducing means mounted on said nonrotatable frame and connected between said riser conduit portion and said nonrotatable fluid swivel portion, for reducing the pressure of fluid that is delivered to the fluid swivel, to enable a moderate pressure fluid swivel to be used to carry initially high pressure fluid from the sea floor to the vessel;
- said nonrotatable frame being positioned close enough to said vessel so a seaman stationed on said vessel can walk from said vessel to said frame to service said pressure reducing means and can then walk directly back to said vessel.
- 2. The improvement described in claim 1 wherein:
- said terminal includes a second fluid conduit having a second riser portion extending from the sea floor to said transfer structure, to carry fluid at a high pressure that may be different from the pressure in said first mentioned riser conduit portion;
- said first riser portion includes a manifold connected between said pressure reducing means and said fluid swivel; and
- said second fluid conduit includes a second pressure reducing means having an outlet connected to said manifold, said second pressure reducing means and said manifold both mounted on said nonrotatable frame, whereby to enable passage of high pressure fluid from a plurality of high pressure wells through a single moderate pressure fluid swivel.
- 3. The improvement described in claim 2 wherein:
- said nonrotatable portion of said transfer structure includes upper and lower decks and said pressure reducing means and manifold are located on said lower deck;
- said terminal installation includes a plurality of remotely operable valves, and said transfer structure includes a plurality of fluid controls located on said upper deck;
- said rotatable frame of said transfer structure is fixed to said vessel; and
- said vessel has a vessel deck adjacent to said transfer structure, and said transfer structure upper deck has a substantially circular floor located at substantially the same level as the deck.
- 4. The improvement described in claim 1 wherein:
- said transfer structure comprises a buoyant tower, and said anchor means comprises a sea base and a riser having a lower end pivotally connected to the sea base to permit tilting and an upper end connected to said tower;
- said tower being hollow, having an access opening above water level, and having at least one deck below said opening and means for enabling personnel to reach said deck from said opening, and said pressure reducing means is located at said deck;
- said opening being positioned so it can be reached by walking from the vessel to the opening.
- 5. An offshore terminal disposed over a seabed, comprising:
- a storage vessel;
- a transfer structure having a nonrotatable portion and having a rotatable portion fixed to the vessel;
- means for anchoring said nonrotatable portion of said structure to the sea bed;
- said nonrotatable portion of said structure including a transfer structure deck with a floor having a substantially circular periphery, and said vessel forming a walkway with an end at substantially the same height as said deck floor and lying adjacent thereto, to permit a person to walk onto the transfer structure deck floor at any rotational position of the vessel relative to the nonrotatable portion of the structure.
- 6. An offshore hydrocarbon production system for storing oil produced by underwater wells, comprising:
- a dedicated storage vessel;
- a transfer structure having a nonrotatable tower and having a rotatable frame rotatable about a vertical axis on said tower and coupled to said vessel to rotate with it about a substantially vertical axis;
- means anchoring said tower to the sea bed;
- a fluid swivel having a stationary portion mounted on said tower and a rotatable portion;
- a first conduit connecting said rotatable portion of said fluid swivel to said vessel; and
- a second fluid conduit extending from an underwater well to said tower, and coupled to said stationary portion of said fluid swivel;
- said anchoring means including a sea base lying at the sea bed and a riser having a lower end coupled to said sea base and an upper end coupled to said tower;
- said tower including a water-tight enclosure having an entrance accessible by walking directly from said vessel said enclosure having at least one deck region and including production control equipment in said deck regions.
- 7. In an offshore production terminal for delivering hydrocarbons from at least one subsea well through a fluid conduit to a storage vessel, by way of a transfer structure that has a largely nonrotatable portion anchored to the sea floor so it does not rotate without limit about a vertical axis and a rotatable portion connected to the ship to rotate with the ship about a largely vertical axis, and wherein a plurality of underwater hydraulic valves are located along or near the fluid conduit and the valves are designed for individual control by high pressure hydraulic fluid delivered through hydraulic lines, the improvement comprising:
- hydraulic fluid supply means having an outlet on said nonrotatable transfer structure portion, for supplying hydraulic fluid at high pressure; and
- a plurality of hydraulic controls located on said nonrotatable transfer structure portion, each control coupled to said hydraulic fluid supply means to receive high pressure hydraulic fluid, and each control also coupled to a corresponding underwater hydraulic valve to selectively supply high pressure fluid that operates the valve;
- said hydraulic fluid supply means including a hydraulic pump device mounted on said nonrotatable portion of said transfer structure, a power source located on said vessel, and a power-carrying swivel unit having a rotatable portion coupled to said power source and a nonrotatable portion coupled to said hydraulic pump device to supply power to operate it.
- 8. The improvement described in claim 7 wherein: said power source is constructed to supply electrical current and said hydraulic pump device includes an electric motor and a hydraulic pump driven by said motor.
- 9. The improvement described in claim 7 wherein: said power source is constructed to supply pressured air at a pressure less the pressure of hydraulic fluid supplied by said hydraulic pump device and said hydraulic pump device includes an air-powered motor and a hydraulic pump driven by said motor.
CROSS-REFERENCE TO RELATED APPLICATIONS
This is a continuation-in-part of U.S. Ser. No. 049,960 filed June 18, 1979.
US Referenced Citations (6)
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
49960 |
Jun 1979 |
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