Substantially rectangular-shaped tanks are provided for storing liquefied gas, which tanks are especially adapted for use on land or in combination with bottom-supported offshore structure such as gravity-based structures (GBS). A tank according to this invention is capable of storing fluids at subs
Substantially rectangular-shaped tanks are provided for storing liquefied gas, which tanks are especially adapted for use on land or in combination with bottom-supported offshore structure such as gravity-based structures (GBS). A tank according to this invention is capable of storing fluids at substantially atmospheric pressure and has a plate cover adapted to contain fluids and to transfer local loads caused by contact of said plate cover with said contained fluids to an internal frame structure comprised of a plate girder ring frame structure and/or an internal truss frame structure. Optionally, a grillage of stiffeners and stringers may be disposed on the plate cover and additional sifters disposed on the plate girder ring frame structure and/or an internal truss frame structure. Methods of constructing these tanks are also provided.
대표청구항▼
The invention claimed is: 1. A substantially rectangular fluid storage tank, said fluid storage tank having a length, width, height, first and second ends, first and second sides, top and bottom, said fluid storage tank comprising: (a) an internal frame structure, said frame structure comprising: (
The invention claimed is: 1. A substantially rectangular fluid storage tank, said fluid storage tank having a length, width, height, first and second ends, first and second sides, top and bottom, said fluid storage tank comprising: (a) an internal frame structure, said frame structure comprising: (1) a plurality of first plate girder ring frames having inner sides disposed to the interior of said fluid storage tank and outer sides, said first plate girder ring frames running along the width and height of said fluid storage tank and spaced along the length of said fluid storage tank, (2) a first plurality of truss structures running along the width and height of said fluid storage tank and spaced along the length of said fluid storage tank, each one of the said first truss structures (i) corresponding to one of the said first plate girder ring frames and (ii) disposed in the plane of and inside one of the said first plate girder ring frames, said first plurality of truss structures thereby supporting the inner sides of said first plate girder ring frames, (3) a plurality of second plate girder ring frames having inner sides disposed to the interior of said fluid storage tank and outer sides, said second plate girder ring frames running along the height and length of said fluid storage tank and spaced along the width of said fluid storage tank, wherein the intersection of said plate girder ring frames forms a plurality of attachment points, thereby forming one integrated internal frame structure; and (b) a plate cover surrounding said internal frame structure, said plate cover having an inner side and an exterior side, said inner side of said plate cover disposed to the outer sides of said first and second ring frames. 2. A fluid storage tank as claimed in claim 1, wherein said internal frame structure (a) further includes: (4) a second plurality of truss structures running along the height and length of said fluid storage tank and spaced along the width of said fluid storage tank, each one of the said second truss structures (i) corresponding to one of the said second plate girder ring frames and (ii) disposed in the plane of and inside one of the said second plate girder ring frames, said second plurality of truss structures thereby supporting the inner sides of said second plate girder ring frames. 3. A fluid storage tank as claimed in claim 2, wherein said first plurality of truss structures and said second plurality of truss structures intersect and are connected together by sharing common structural members at said intersection. 4. A fluid storage tank as in claim 3, wherein said internal frame structure (a) further includes: (5) a plurality of third plate girder ring frames having inner sides disposed to the interior of said fluid storage tank and outer sides, said third plate girder ring frames running along the length and width of said fluid storage tank and spaced along the height of said fluid storage tank, wherein the intersection of said third plate girder ring frames with said first and second plate girder ring frames forms a plurality of attachment points, thereby forming one integrated internal frame structure. 5. A fluid storage tank as claimed in claim 4, wherein at least one of said first, second or third plate girder ring frames further includes flanges located on said inner sides of said plate girder ring frames. 6. A fluid storage tank as claimed in claim 5, wherein said flanges form a "T" shape on said inner side of said plate girder ring frames with a depth of said plate girder ring frames, said depth defined as the distance between said inner side and said outer side of said plate girder ring frame in a plane containing both said inner side and said outer side of said plate girder ring frame. 7. A fluid storage tank as claimed in claim 6, wherein at least one of said first, second or third plate girder ring frames are solid. 8. A fluid storage tank as claimed in claim 6, wherein at least one of said first, second or third plate girder ring frames contain perforations. 9. A fluid storage tank as claimed in claim 8, further including: (c) a plurality of stiffeners and stringers interconnected and arranged in a substantially orthogonal pattern, said plurality of stiffeners and stringers having an inner and outer side, said outer side of said stiffeners and stringers attached to said inner side of said plate cover, said plate cover and the said inner sides of said stiffeners and stringers attached to the outer side of said plate girder ring frames. 10. The fluid storage tank of claim 9, wherein said plate cover is between 6 to 13 millimeters thick. 11. The fluid storage tank of claim 10, wherein said plate cover is comprised of a plurality of joined steel plates. 12. A fluid storage tank as claimed in claim 10, wherein at least one of said first, second or third plate girder ring frames has a depth of 1.5 to 3.5 meters, said depth defined as the distance between said inner side and said outer side of said plate girder ring frame in a plane containing both said inner side and said outer side of said plate girder ring frame. 13. A fluid storage tank as claimed in claim 12, wherein at least one of said first, second or third plate girder ring frames has a depth that is 1 to 10 percent of said fluid storage tank's height. 14. A fluid storage tank as claimed in claim 10, wherein said fluid storage tank has an internal fluid storage capacity of greater than 100,000 cubic meters. 15. A fluid storage tank as claimed in claim 10, wherein an item selected from said plate girder ring frames, said truss structures and said plate cover is made of a cryogenic material. 16. A fluid storage tank as claimed in claim 15, wherein said cryogenic material is selected from stainless steels, high nickel steel alloys, aluminum, and aluminum alloys. 17. A fluid storage tank as claimed in claim 10, wherein at least one of said first or second truss structures is comprised of (i) a plurality of both vertical, elongated supports and horizontal, elongated supports, connected to form a gridwork of structural members with a closed outer periphery, and (ii) a plurality of additional support members secured within and between said connected vertical and horizontal, elongated supports to thereby form each said truss structure. 18. A fluid storage tank as claimed in claim 17, wherein said intersection and connection of said first plurality of truss structures and said second plurality of truss structures includes at least a portion of said vertical elongated supports serving as a vertical elongated support in both said first plurality of truss structures and said second plurality of truss structures.
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이 특허에 인용된 특허 (17)
Lalvani Haresh (164 Bank St. ; Apt 2B New York NY 10014), Building systems with non-regular polyhedral nodes.
Gondouin Michel (32 San Marino Dr. San Rafael CA 94901), System, tooling and method of construction of cryogenic tanks for LNG tankers and for LNG storage.
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