RU2022103000A - SYSTEM FOR TREATMENT OF GAS CONTAINED INSIDE THE TANK FOR STORAGE AND/OR TRANSPORTATION OF GAS IN LIQUID STATE AND GAS STATE, WHICH IS INSTALLED ON THE SHIP - Google Patents

Claims (31)

1. A system (100) for processing gas contained in a tank (200) for storing and/or transporting gas in a liquid state and in a gaseous state installed on a ship, which includes at least a heat exchanger (110) configured to exchange heat between the gas extracted from the tank (200) in a gaseous state and the compressed gas coming from the tank (200), a compression element (120) configured to compress the gas in the gaseous state coming from the heat exchanger (110), a gas consumption device (130, 131) that consumes gas in a gaseous state and is configured to supply compressed gas, the first pipe (101) connecting the compression element (120) with the gas consumption device (130, 131), which consumes gas in the gaseous state, the second pipe (102) connecting the first pipe (101) with the inlet (115) of the heat exchanger (110), a third pipe (103) connecting the outlet (116) of the heat exchanger (110) with the bottom of the tank (200), a bubbling element (140) connected to the third pipe (103) and configured to distribute the gas coming from the heat exchanger (110) in a gaseous state to the bottom of the tank (200). 2. The gas treatment system (100) according to the previous paragraph, comprising an expansion means (182) and a heat exchanger (170) equipped with at least a first pass (171) supplied with gas extracted in a liquid state from the tank (200), and at least at least by a second pass (172) supplied with gas extracted in a liquid state from the tank (200), while the expansion means (182) is located between the tank (200) and the first pass (171) of the heat exchanger (170). 3. Gas treatment system (100) according to any one of the preceding claims, wherein the bubbling element (140) comprises at least one shelf (141) provided with holes (142) which form gas bubbles (143). 4. Gas treatment system (100) according to the previous paragraph, in which each hole (142) of the shelf (141) has a cross section ranging from 0.0078 mm ² to 315 mm ² . 5. The gas treatment system (100) according to any one of the preceding claims, wherein at least one expansion element (181) is located on the first pipe (101). 6. The gas treatment system (100) according to any of the preceding claims, comprising a compression device (121) located parallel to the compression element (120) configured to compress the first part of the gas in gaseous state coming from the heat exchanger (110), while the device (121) compression is configured to compress the second part of the gas in the gaseous state coming from the heat exchanger (110), while the first part of the gas coming from the heat exchanger (110) differs from the second part of the gas coming from the heat exchanger (110). 7. The gas treatment system (100) according to any one of the preceding claims, wherein the gas stored and/or transported in the reservoir (200) is natural gas. 8. The gas treatment system (100) according to any of the preceding claims, comprising at least one first gas consumption device (130) and at least one second gas consumption device (131), wherein the first gas consumption device (130) is made with the possibility of supplying compressed gas under the first pressure, the second gas consumption device (131) is configured to supply compressed gas under the second pressure and the first pressure is lower than the second pressure. 9. Vessel (70) for transporting liquefied gas, including at least one tank (200) for cargo of liquefied gas, at least one gas consumption device (130, 131) that consumes boil-off gas, and at least one system ( 100) gas treatment according to any one of the preceding paragraphs. 10. A liquid gas loading or unloading system (100) that integrates at least one shore facility and at least one liquid gas transport vessel according to the previous claim. 11. A method for treating gas contained in a tank (200) installed on a ship, carried out in a gas treatment system (100) according to any one of claims 1 to 8, and including at least steps in which removing the gas in the gaseous state from the reservoir (200), heating the gas extracted in the gaseous state from the reservoir (200) by heat exchange carried out in the heat exchanger (110) with the gas compressed by the compression element (120), compressing the heated gas by means of the compression element (120), supplying the first portion of the heated and compressed gas to at least one gas consuming device (130, 131) that consumes boil-off gas; the second part of the heated and compressed gas is cooled by heat exchange carried out in the heat exchanger (110) with the gas extracted in the gaseous state from the tank (200), distribute in the lower part of the tank (200) the second part of the gas, cooled by passing it through the heat exchanger (110). 12. The gas treatment method according to the preceding claim, wherein in the step of distributing the second part of the cooled gas, bubbles are formed from this second part of the cooled gas. 13. A gas treatment method according to any one of claims 11 to 12, wherein the pressure at the inlet to the third pipe (103) is greater than the pressure measured at the bottom of the tank (200). 14. A gas treatment method according to any one of claims 11-13, comprising at least the step of supercooling the natural gas extracted in liquid state from the reservoir (200), and at least the step of storing the supercooled natural gas in the lower tank parts (200). 15. The gas treatment method according to the previous claim, wherein the subcooling step is performed by exchanging heat between natural gas withdrawn from the reservoir (200) in a liquid state and held at atmospheric pressure and natural gas withdrawn from the reservoir (200) in a liquid state and expanded. to a pressure below atmospheric. 16. A gas treatment method according to any one of claims 14 to 15, wherein the step of subcooling the natural gas extracted in the liquid state from the reservoir (200), the step of storing the supercooled natural gas at the bottom of the tank (200), and the step of distributing at the bottom of the tank (200) the second part of the gas, cooled by passing it through the heat exchanger (110), is performed in this order at least twice in a row. 17. The method of loading liquid gas into a ship (70) according to claim 9 by means of a station (75), in which liquid gas is transported through insulated pipelines (73, 79, 76, 81) from the onshore installation (77). 18. The method for unloading liquid gas from a ship (70) according to claim 9 by means of a station (75), in which liquid gas is transported through insulated pipelines (73, 79, 76, 81) to an onshore installation (77).