RU2021119130A

RU2021119130A - CRYOGENIC FLUID STORAGE TANK

Info

Publication number: RU2021119130A
Application number: RU2021119130A
Authority: RU
Inventors: Оливье БЮНЕКЕН; Дидье ЖЕНЕСТ; Режис ПУАНТО
Original assignee: Л'Эр Ликид, Сосьете Аноним Пур Л'Этюд Э Л'Эксплуатасьон Де Проседе Жорж Клод
Priority date: 2018-12-06
Filing date: 2019-11-25
Publication date: 2022-12-30

Claims

1. A tank for storing cryogenic fluid and, in particular, a two-phase mixture of liquid and gas, containing the first casing (1), designed to contain cryogenic fluid, a pipe (10, 222, 7) for removing gas vapor, containing the first located above downstream end (221) connected to the upper part of the first casing (1) for removing fluid in the gaseous state, while the specified pipe (10, 222, 7) for removing gas vapor contains an evaporator (6) and at least one adjusting valve (15) towards the downstream distribution end (72), the tank additionally contains a circuit (9, 10) for filling the tank, containing the first filling pipe (9), having an end located upstream, intended for connection to the source fluid, and a downstream end connected to the lower part of the first casing (1), while the filling circuit contains a second filling pipe (10) having an upstream end, before designated for connection to a source of fluid, and located downstream the end connected to the upper part of the first casing (1), while the filling circuit contains a set (19) of one or more distribution valves, configured to ensure the distribution of the outgoing fluid from the source (17) of the fluid medium, in the pipes (9, 10) of the filling, the tank contains a pipe (9, 21, 10) for pressurizing the first casing (1) containing the first end (121) connected to the lower end of the first casing (1), and a second end (221) connected to the upper part of the first casing (1), while the discharge pipe (21) contains at least one control valve (14) and a heater (13), in particular an evaporative heat exchanger, with In this case, the tank additionally contains an air release regulator (16) connected to the upper end of the first casing (1), characterized in that a set (19) of one or more distribution valves of the filling circuit, regulating The outlet valve (14) of the discharge pipe (21), the control valve (15) of the exhaust circuit and the air outlet regulator (16) are combined into one module (20) of one or more valves that share at least one valve element.

2. The tank according to claim. 1, characterized in that the module (20) of one or more valves contains the first hole (8) intended for connection with the source (17) of the fluid in order to fill the tank, the second hole (201) connected with the downstream end of the first filling pipe (9), the third hole (202) connected to the pipe (222, 7) for removing gas vapors, the fourth hole (216) connected to the gas emission zone, such as the environment, the fifth hole (321) connected to the second end (221) of the injection pipe (21, 10), and the sixth hole (421) connected to the second end (221) of the injection pipe (10) of the first casing (1), and the module of one or more valves contains at least one movable element that allows you to control the circulation of the fluid through the holes, and, in particular, the connection or absence of a fluid connection between at least two of these holes.

3. Tank according to claim 1 or 2, characterized in that the tank contains a set (12) of one or more sensors that measure pressure in the first casing (1) and optionally in the filling circuit, and the module (20) of one or more valves sensitive to pressure measured by a set (12) of one or more sensors and is configured to automatically control, depending on the pressure measured by a set (12) of one or more sensors, fluid flows through a set (19) of one or more control valves filling circuit, and / or through the control valve (14) of the discharge pipe (21), and / or through the control valve (15) of the outlet circuit, and / or through the air outlet regulator (16).

4. Tank according to paragraphs. 2 and 3, characterized in that at least one movable element of the module of one or more valves is sensitive to the pressure measured by a set of one or more sensors, and is configured to automatically control the connection or absence of a fluid connection between at least two holes depending on the pressure measured by a set (12) of one or more sensors.

5. The tank according to claim. 4, characterized in that the set (12) of one or more sensors contains a sensor (4) for detecting pressure or a mechanical connection on the first hole (8), and at the same time, if the specified sensor (4) for detection of pressure or mechanical connection on the first hole (8) detects a pressure or mechanical connection that is above a certain upper threshold, at least one movable element of the module from one or more valves is configured to switch to the “filling mode”, in which the third hole ( 202) and the fourth hole (216) are closed and the first hole (8) is in fluid communication with the second hole (201) and/or the sixth hole (421).

6. The tank according to claim 5, characterized in that in the filling mode at least one movable element of the module of one or more valves is configured to automatically regulate the pressure in the first casing (1) to a predetermined pressure setting (Pc) during filling by providing automatic distribution of the fluid flow coming from the source (17) in the first and second filling pipes (9, 10), depending on the pressure setting Pc and the pressure measured by the set (12) of one or more sensors, while the distribution flow in said first and second pipes is realized by connecting the first hole (8) with the second hole (201) and/or with the sixth hole (421).

7. Tank according to any one of paragraphs. 4-6, characterized in that when said sensor for detecting pressure or mechanical connection in the first hole (8) detects pressure or mechanical connection below a certain lower threshold, at least one movable element of the module of one or more valves is configured to switch to non-filling mode, in which the first opening (8) is closed.

8. Tank according to claim. 7, characterized in that in the mode without filling at least one movable element of the module of one or more valves is configured to automatically maintain the pressure in the first casing (1) at a minimum predetermined pressure value by ensuring that when the pressure in the first casing (1) is below the specified minimum value, the liquid withdrawn from the first casing (1) circulates in the heater (13), and that this heated fluid is reintroduced into the first casing (1) through the fluid flow between second hole (201) and fifth hole (321).

9. The tank according to claim 7 or 8, characterized in that in the mode without filling at least one movable element of the module from one or more valves is configured to automatically reduce the pressure in the first casing (1) below the first maximum value during the withdrawal through said pipe (7) for withdrawal by ensuring that when the pressure in the first casing (1) is higher than the specified first maximum value, the gas withdrawn from the first casing (1) circulates to the downstream distribution end (72) of the pipe ( 7) for venting gas through the fluid flow between the fifth hole (321) and the third hole (202).

10. Tank according to any one of paragraphs. 2 or 4-9, characterized in that at least one movable element of the module (20) of one or more valves contains a translationally and/or rotationally movable sector or distributor.

11. Tank under item 10 in combination with any of paragraphs. 7-9, characterized in that at least one movable element of the module (20) of one or more valves can translate or rotate between a separate first position and a separate second position corresponding to the "filling" and "without filling" modes, respectively, and in each of the first and second positions, at least one movable element of the module (20) of one or more valves can be translated and/or rotated to control the connection or absence of a fluid connection between at least two holes.

12. Tank according to any one of paragraphs. 7-11, characterized in that in the mode without filling at least one movable element of the module (20) of one or more valves is configured to automatically reduce the pressure in the first casing (1) below the second maximum value by ensuring that when the pressure in the first casing (1) is higher than the specified second maximum value, the gas taken from the first casing (1) at the end (221) circulates to the fourth hole (216) through the fifth hole (321), to ensure the emission of said gas, for example by means of release (116).