RU2016105234A - HEAT-INSULATING SYSTEM OF FLOATING STRUCTURE - Google Patents

Claims (21)

1. A heat-insulating system of a floating structure, in which heat-insulating material is provided in at least one of the ballast tanks, the space of the trondeck and the side passage in contact with the trondeck, to reduce the boiling speed (BOR) generated due to heat transfer from the outer region of the hull to the tank for storage of LNG. 2. The heat-insulating system of a floating structure according to claim 1, in which the temperature of the inner hull in contact with at least one of the ballast tanks, the space of the throne deck and the side passage in contact with the throne deck is controlled so that it is from -55 to 30 ° C. 3. The heat-insulating system of a floating structure according to claim 2, in which the temperature of the inner shell in contact with the ballast tank is controlled so that it is from 0 to 20 ° C, and the inner shell is made of steel grade A as defined by IGC. 4. The heat-insulating system of a floating structure according to claim 2, in which the temperature of the inner hull in contact with at least any one of the space of the trona deck and the side passage in contact with the trona deck is controlled so that it is from 0 to 30 ° C and the inner casing is made of grade A steel as defined by IGC. 5. The heat-insulating system of a floating structure according to claim 2, in which the temperature of the inner hull in contact with at least any one of the space of the trona deck and the side passage in contact with the trona deck is controlled so that it is -30 ° C or less and the inner casing is made of LT low temperature steel. 6. The heat-insulating system of a floating structure according to claim 1, in which heat-insulating material is provided on the inner wall of the outer casing, forming a ballast tank. 7. The heat-insulating system of a floating structure according to claim 1, in which the heat-insulating material is provided in an area in which a side passage adjacent to the space of the deck of the deck contacts the ballast tank. 8. The heat insulating system of a floating structure according to claim 1, in which the heat insulating material is at least one of the heat insulating wall, heat insulating LNG stored in the tank for storing LNG, heat insulating material of a panel type, heat insulating material of a foam type, heat insulating material of a vacuum type, granular type heat insulating material; and non-woven material type heat insulating material. 9. The heat-insulating system of a floating structure according to claim 2, further comprising: a heater heating the inner case. 10. The heat-insulating system of a floating structure according to claim 7, wherein at least one of a glycol-heating coil, an electric heating coil, and a fluid pipe are used in the heater to heat the inner shell. 11. The heat insulating system of a floating structure according to claim 1, wherein the floating structure is any one selected from LNG FPSO, LNG FSRU, LNG tanker and LNG RV. 12. A heat insulating system of a floating structure, comprising: a rubber dam located between a plurality of LNG storage tanks installed in at least one row in a direction along the length of the housing; and heat-insulating material provided in the ballast tank, the space of the throne deck and the side passage in contact with the throne deck, the temperature of the cofferdam is controlled so that it is 0 ° C or less to reduce heat transfer from the cofferdam to many LNG storage tanks, and it controls the temperature of at least one of the ballast tank, the space of the throne deck and the side passage in contact with the throne deck, so that it is lower than the temperature of the outer hull to reduce the boiling speed (BOR) generated due to heat transfer from at least one of the ballast tanks, space kovoy deck and the side passage, in contact with the trunk piston deck into a plurality of LNG storage tanks. 13. The heat-insulating system of a floating structure according to item 12, in which the rubber dam contains: a pair of bulkheads separated from each other by the gap between the plurality of LNG storage tanks; and a piece of space formed by a pair of bulkheads and an inner wall of the housing, Cofferdam adjusts the temperature of a pair of bulkheads so that it is below zero. 14. The heat-insulating system of a floating structure in which the temperature of the inner hull in contact with at least one of the ballast tanks, the space of the throne deck and the side passage in contact with the throne deck is controlled so that it is from -55 to 30 ° C.