Seawater intake riser interface with vessel hull

What is claimed is: 1. A structural interface between a Seawater Intake Riser (SWIR) and a hull or a sump tank bottom plate of a floating vessel, the structural interface comprising: a plurality of elements comprising a sealing device located at a penetration in the vessel hull or the sump tank bottom plate, the sealing device comprising a male portion and female portion, the female portion being connected to the vessel hull or the sump tank bottom plate; a main cylindrical body having a perforated lower portion that is located above the sealing device, the male portion of the sealing device being connected to the main cylindrical body; a cylindrical strainer that is coaxial with and inserted into the main cylindrical body; a first annular seal located below a perforated section of the cylindrical strainer in an annulus between the main cylindrical body and the cylindrical strainer; a second annular seal located above the perforated section of the cylindrical strainer in the annulus between the main body and the cylindrical strainer; at least one ring seal located between the male and female portions and configured to provide a watertight seal between the male portion and the female portion; and a hang-off device located at a penetration through a first horizontal hull-supporting structure that is located above a lower draft of the vessel, the hang-off device comprising a male part connected to the main body, a female part connected to the first horizontal hull-supporting structure, and a split clamp configured to lock the male part vertically in place with respect to the female part; wherein the elements are sized and configured to permit the SWIR to be pulled into the penetration with the vessel hull or the sump tank bottom plate from below the hull or sump tank bottom plate and into engagement with the female part of the hang off device. 2. The structural interface recited in claim 1 , wherein the perforated lower portion is proximate the sealing device. 3. The structural interface recited in claim 1 , wherein the perforated lower portion of the main cylindrical body extends to an upper location proximate the hang-off device. 4. The structural interface recited in claim 3 , further comprising a perforated top plate on the cylindrical strainer. 5. The structural interface recited in claim 1 , further comprising a flow diverter that is integrated within the cylindrical strainer. 6. The structural interface recited in claim 5 , wherein the flow diverter comprises a substantially conical surface configured to direct water flowing up in the SWIR towards the perforations in the lower section. 7. The structural interface recited in claim 1 wherein the cylindrical strainer is sized and configured for sliding installation in the main cylindrical body and has an inside diameter substantially equal to the inside diameter of the male portion of the sealing device. 8. The structural interface recited in claim 1 , further comprising a plurality of compression fit tabs on the inner surface of the main cylindrical body sized and configured to hold the strainer in spaced-apart relation to the main cylindrical body. 9. The structural interface recited in claim 1 , wherein the at least one ring seal is an inflatable seal. 10. The structural interface recited in claim 1 , wherein at least one of the first annular seal and the second annular seal is an inflatable seal. 11. The structural interface recited in claim 1 , wherein the outside diameter of the male portion of the sealing device is larger than the outside diameter of the male portion of the hang-off device. 12. The structural interface recited in claim 1 , wherein the strainer is integrated in the structural interface. 13. A method of installing a Sea Water Intake Riser (SWIR) on an offshore floating vessel comprising: mating a high-density polyethylene (HDPE) pipe to a flex hose and an interface pipe quayside or at a beach; attaching one or more ballast tanks proximate a lower end of the SWIR; attaching a pull-in head to an upper end of the SWIR to form a SWIR assembly; towing the SWIR assembly to the location of the offshore floating vessel; upending the SWIR proximate the offshore vessel by progressively flooding the ballast tanks; passing an attachment line connected to the upper end of the SWIR from a support vessel to a pull-in device on the floating vessel equipped with a structural interface according to claim 1 ; and seating the SWIR in the interface. 14. A structural interface between a Seawater Intake Riser (SWIR) and a hull or a sump tank bottom plate of a floating vessel, the structural interface comprising: a radial load transferring device comprising a first substantially conical surface attached to the hull or the sump tank bottom plate of the floating vessel, and a second substantially conical surface; an interface pipe perforated in a lower portion located above the radial load transferring device, the interface pipe comprising a radially extending portion, the second substantially conical surface of the radial load transferring device being on the radially extending portion of the interface pipe; and a hang-off device located at a penetration through a first horizontal hull-supporting structure that is located above a lower draft of the vessel, the hang-off device comprising: a male part, a female part, and a split clamp configured to lock the male part vertically in place with respect to the female part, wherein the radial load transferring device, the interface pipe, and the hang-off device are sized and configured to permit the SWIR to be pulled into the vessel hull or the sump tank bottom plate from below the hull or the sump tank bottom plate and through the radial load transferring device. 15. The structural interface recited in claim 14 , wherein the first substantially conical surface and the second substantially conical surface form a metal-to-metal seal when the interface pipe is seated in the radial load transferring device. 16. The structural interface recited in claim 14 , further comprising a tubular receiver configured to receive the interface pipe; and a seal between the interface pipe and the tubular receiver. 17. The structural interface recited in claim 14 , wherein the first substantially conical surface and the second substantially conical surface have an angular clearance of about 2.5 degrees.