An apparatus and method for ballasting and de-ballasting a vessel having a hull with a plurality of watertight ballast compartments wherein each ballast compartment has an individual pump caisson extending vertically to the top of the hull, but the ballast/de-ballast system contains no valves within
An apparatus and method for ballasting and de-ballasting a vessel having a hull with a plurality of watertight ballast compartments wherein each ballast compartment has an individual pump caisson extending vertically to the top of the hull, but the ballast/de-ballast system contains no valves within the hull. An external caisson is used to provide a source of seawater. Several submersible pumps are available for rigging into and out of the internal and external caissons and provide the ballast and de-ballast operations via an installed manifold system at the top of the columns. Venting of the ballast tanks may be accomplished through a connection to atmosphere near the top of the pump caissons.
대표청구항▼
1. In a buoyant vessel ( 100 ) floating in a sea and comprising a hull ( 102 ) having a plurality of watertight compartments for ballasting said vessel, the improvement comprising,a plurality of caissons ( 54 ) disposed within said hull, each of said plurality of watertight compartments having a low
1. In a buoyant vessel ( 100 ) floating in a sea and comprising a hull ( 102 ) having a plurality of watertight compartments for ballasting said vessel, the improvement comprising,a plurality of caissons ( 54 ) disposed within said hull, each of said plurality of watertight compartments having a lower portion fluidly coupled to a distinct one of said plurality of caissons, wherein each of said plurality of caissons is fluidly coupled to only one of said plurality of watertight compartments, extending generally vertically from said coupled lower portion of said compartment to an upper portion of said hull and designed and arranged for receiving a submersible pump ( 111 , 121 , 123 ). 2. The vessel of claim 1 further comprising,a vent line ( 58 ) fluidly coupled between one of said plurality of watertight compartments and a said distinct caisson. 3. The vessel of claim 1 further comprising,a manifold system ( 92 ) fluidly coupled to a source of ballast water ( 90 ) via a first isolation valve ( 91 ), fluidly coupled to a first submersible pump ( 121 ) disposed in one of said plurality of caissons ( 54 ) via a second isolation valve ( 107 ) and a first coupling ( 127 ), fluidly coupled to said plurality of caissons ( 54 ) via a third isolation valve ( 105 ) and a second coupling ( 114 ), and fluidly coupled to an overboard discharge pipe ( 94 ) via a fourth isolation valve ( 95 ). 4. The vessel of claim 3 further comprising,an external caisson ( 56 ) disposed external to said hull ( 102 ) and in fluid communication with the sea, whereinsaid manifold system ( 92 ) is designed and arranged for temporary fluid coupling to a second submersible pump ( 111 ) disposed in said external caisson ( 56 ). 5. The vessel of claim 1 wherein,at least one of said plurality of caissons ( 54 ) is fluidly coupled to a void by a branch pipe ( 51 ) having an isolation valve ( 53 ). 6. The vessel of claim 1 wherein,at least two of said plurality of caissons ( 54 ) are disposed within a housing caisson ( 52 ). 7. A ballasting/de-ballasting system for a tension leg platform ( 100 ) having a hull ( 102 ) and at least one column ( 1 , 2 , 3 , 4 ) attached thereto and extending vertically upwards, the system comprising,at least two ballast arrangements, each said ballast arrangement comprising a watertight compartment (X 1 , X 2 , X 3 , 8 ) and a caisson ( 10 , 20 , 30 , 80 ) which is in non-isolatable fluid communication with said watertight compartment and extends generally vertically upward from said watertight compartment into one of said at least one column, anda submersible pump ( 121 , 123 ) designed and arranged for use within said caisson. 8. The system of claim 7 further comprising,a manifold system ( 92 ) designed and arranged for isolatable fluid coupling to a source of ballast water ( 90 ), isolatable temporary fluid coupling to said submersible pump, isolatable temporary fluid coupling to said caisson, and isolatable fluid coupling to an overboard discharge pipe ( 94 ). 9. A method for ballasting a vessel comprising the steps of,coupling a source of ballast water with a removable conduit to a first caisson which is in non-isolatable fluid communication with a first watertight compartment,filling said first watertight compartment with water from said source of water,decoupling said source of ballast water from said first caisson,coupling said source of ballast water with said removable conduit to a second caisson which is in non-isolatable fluid communication with a second watertight compartment, andfilling said second watertight compartment with water from said source of water. 10. The method of claim 9 further comprising the steps of,lowering a submersible pump into a third caisson in fluid communication with the sea, wherein discharge of water from said submersible pump provides said source of ballast water. 11. The method of claim 9 wherein,said source of ballast water is provided from a firemain. 12. A method for de-ballasting a vessel co mprising the steps of,lowering a first submersible pump into a first caisson which is in non-isolatable fluid communication with a first watertight compartment,coupling a discharge of said first submersible pump with a first removable conduit to an overboard discharge,pumping water with said submersible pump from said first watertight compartment overboard,lowering a second submersible pump into a second caisson which is in non-isolatable fluid communication with a second watertight compartment,coupling discharge of said second submersible pump with a second removable conduit to said overboard discharge, andpumping water with said second submersible pump from said second watertight compartment overboard. 13. The method of claim 12 further comprising the steps of,raising said first submersible pump from said first caisson, andlowering said first submersible pump into said second caisson, wherein said first submersible pump is said second submersible pump. 14. The method of claim 13 wherein,said first removable conduit is said second removable conduit. 15. A buoyant vessel ( 100 ) floating in a sea comprising,a hull ( 102 ),a plurality of watertight compartments for ballasting, anda plurality of caissons ( 54 ) disposed within said hull, each of said plurality of watertight compartments having a lower portion fluidly coupled ( 50 ) to one of said plurality of caissons, each of said plurality of caissons being fluidly coupled to only one of said plurality of watertight compartments and extending generally vertically from a lower portion of said hull to an upper portion of said hull, each of said plurality of caissons designed and arranged to receive a suction line with a first end disposed near said lower portion of said hull and a second end coupled to a pump disposed in said upper portion of said hull. 16. The vessel of claim 15 wherein said suction line comprises a check valve disposed near said lower portion of said hull.
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이 특허에 인용된 특허 (12)
Bloxham Roger W. (P.O. Box 304 Trabuco Canyon CA 92678), Ballast control system for submersible vessel.
Beskow Robert H. (Concord CA) Dunn Patrick J. (Pleasant Hill CA) Goodacre John H. (Glen Elly IL) Hall Larry J. (Birmingham AL) Fischer William H. (Wingdale NY) Carlson E. Ronald (New Fairfield CT), Removable bottom founded structure.
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