RU198473U1 - DEVICE FOR STORING, TRANSPORTING AND UNLOADING LIQUEFIED GASES - Google Patents

Abstract

The utility model relates to the chemical and petrochemical industry, can be used for storage, transportation and delivery to the consumer of liquefied gas both in liquid (liquid phase) and in gaseous (gas phase) state, in particular for supplying propylene to benzene alkylation units with propylene for obtaining cumene, which in turn is used for the joint production of phenol and acetone. The device for storing, transporting and unloading liquefied gases includes a "dead-end" type cylinder equipped with branch pipes for loading or unloading the gas and liquid phases separately; a siphon tube connected to a branch pipe for loading or unloading the liquid phase; control valves; pressure gauge for measuring the working pressure in the cylinder; adapters for connecting to external devices. In this case, the balloon is equipped with a metal clamp and placed in a metal strapping placed on supports and made in the form of a rectangular parallelepiped formed by a base, four metal posts and a cover, with the possibility of tightly placing the balloon on the base between the posts. The branch pipes are made long, while the branch pipe for loading or unloading the gas phase consists of three parts connected by means of a tee, one end of which is connected to the cylinder, and the other two are fixed in the cover through control valves. The branch pipe for loading or unloading the liquid phase is also fixed in the cover through the control valve. Adapters for connection to the consumer are made in the form of fittings. The lid is provided with handles installed along its opposite sides, and a vertically oriented plate for attaching two adapters for loading or unloading liquid and gas phases, respectively, which are connected to the corresponding valves by means of additional branch pipes. The pressure gauge is fixed in the cover with the ability to visualize its readings, and is connected to one of the valves of the branch pipe for loading or unloading the gas phase. Branch pipes, pressure gauges, valves, adapters and tee are made with the possibility of replacement without dismantling the entire device. The declared device for storage, transportation and unloading of liquefied gases is easy to manufacture, maintain and operate, safe to use. 3 C.p. f-ly, 3 dwg

Description

The utility model relates to the chemical and petrochemical industry, can be used for storage, transportation and delivery of liquefied gas to the consumer, both in liquid (liquid phase) and in gaseous (gas phase) state, in particular for supplying propylene to benzene alkylation units with propylene to obtain cumene, which in turn is used for the joint production of phenol and acetone.

The reaction of alkylation of aromatic hydrocarbons with propylene is of great practical interest, since it allows one to obtain alkyl aromatic hydrocarbons, in particular isopropylbenzene (cumene), which is used for the joint production of phenol and acetone.

Phenol is used in the production of plastics and synthetic fibers, non-ionic detergents, additives for oils and fuels, etc. Acetone and phenol are used as raw materials in the production of diphenylolpropane (bisphenol A), which is used to obtain polycarbonates and epoxy polymers. Acetone is a commonly used solvent. It is also used in the production of chemical fibers, in extraction processes.

The process of benzene alkylation with propylene can be carried out using both liquid and gaseous propylene supplied from a cylinder or other container in a metered dose to the benzene alkylation unit.

Known cylinders for liquefied hydrocarbon gases under pressure up to 1.6 MPa (see, GOST 15860-84 "Welded steel cylinders for liquefied hydrocarbon gases for pressure up to 1.6 MPa. Specifications") with a volume of 5, 12, 27 and 50 liters designed for transportation and storage of liquefied hydrocarbon gases (propane, butane and their mixture). The cylinder includes a body consisting of a welded shell, an upper and a lower bottom, a support shoe - a steel annular support - to maintain stability in an upright position, a neck ring - a metal part with a thread, onto which a cap is screwed - and a valve.

Known cylinders for liquefied hydrocarbon gases (see, GOST R 55559-2013 "Composite cylinders for liquefied hydrocarbon gases for a working pressure of 2.0 MPa"), designed for a working pressure of 2.0 MPa. The cylinder includes a body consisting of a welded shell, upper and lower bottoms, and a valve.

Known cylinders made of carbon and alloy steel of small volume up to 12 liters and an average volume of 20 to 50 liters with a working pressure of 19.6 MPa (see, GOST 949-73 "Steel cylinders of small and medium volume for gases at Pp ≤ 19.6 MPa (200 kgf / cm ² ) "), made of seamless pipes and transportation of compressed, liquefied and dissolved gases at temperatures from 50 minutes to plus 60 ° C. The cylinder includes a body consisting of a welded shell, an upper and a lower bottom, a support shoe - a steel annular support - to maintain stability in an upright position, a neck ring - a threaded metal part onto which the cap is screwed - and a valve.

However, the cylinders listed above are inconvenient in maintenance, in particular, not adapted for the possibility of unloading the liquid phase of the liquefied gas.

A known cylinder for liquefied gases (see, RF patent 2102651 C1, class IPC F17C 9/02, publ. 20.01.1998), containing a body with a valve sleeve, shutoff valves, a shoe and a safety valve, and the body is divided into two parts: a liquid cavity in which the heat exchanger is installed and a gas cavity. The specified cylinder can be used to increase the filling of the cylinder when filling it with liquefied gas, since it is equipped with structural elements that provide separate supply or selection of gas and liquid phases.

However, this cylinder is designed to use only one and the same liquefied gas, since changing the contents entails a number of works on flushing the cylinder, which complicates the widespread operation of the cylinder of the described design. In addition, the described structure is difficult to manufacture.

A known system of a balloon unit for liquefied gases (see, RF patent 152766 U1, class IPC B65D 85/00, F17C 1/00, A62C 35/02, publ. 06/20/2015), which provides separate supply of liquid and gas phase, which is ensured through the use of inverted cylinders connected in series, on which a tee fitting with two branch pipes, external and nested, is installed, the latter reaching the bottom of the cylinder.

However, this system is not mobile - the structure is heavy, bulky, its parts are rigidly fixed to each other, which complicates the possibility of using it for transportation.

Known cylinder for liquefied petroleum gas, kerosene, gasoline (see, patent CN 1065715 A, class IPC F17C 13/04, publ. 28.10.1992,). The cylinder has an air outlet for air outlet and pressure relief when filling the cylinder, and a lower outlet with a pipe that is lowered to the bottom of the cylinder. All openings are fitted with shut-off valves.

The known cylinder is designed for unloading the liquid phase and is not adapted for unloading the gas phase, including not equipped with sensors for measuring the pressure created in the cylinder when filling it, which adversely affects the safety of the device during its operation.

The closest to the declared one in terms of the set of essential features and the technical result is a universal cylinder for taking and studying separator samples of gas and liquid hydrocarbons (see, RF patent 92143 U1, class IPC F17C 5/00, publ. 03/10/2010), which is a standard 20-liter cylinder of a "dead-end" type with a design modification that provides for the selection of the gas and liquid phases separately. In the upper part of the cylinder there is a metal array, which carries out incl. function of a cover, on which two fine adjustment valves, a pressure gauge and a safety valve are installed. A siphon tube is connected to one of the valves, the bottom of which is cut at an angle of 30 ° and touches the bottom of the cylinder. For ease of operation and transportation, a metal circular basket is installed on a universal cylinder.

The disadvantages of this universal cylinder include significant metal consumption, the difficulty of manufacturing a metal array, in which valves, pressure gauges and nozzles for loading and unloading the gas and liquid phases are permanently mounted. If any part of the cylinder fails, for repair it will be necessary to dismantle the cylinder by removing the heavy all-metal cover, which has become unusable, and make a new one, which leads to difficulties in its maintenance. Also, with frequent evacuation of the cylinder, as required by the conditions for loading the gas and liquid phases, the possibility of failure of the pressure gauge is great. In addition, when working with this cylinder, its additional fixation is required, as well as during its transportation.

A technical problem is the development of a cylinder design that provides the ability to load and unload the liquid and gas phase of liquefied gas, easy to manufacture, maintain and operate.

The technical result of the utility model is to improve the convenience of manufacturing, maintenance and operation of a device designed for storage, transportation and unloading of liquefied gas, both in liquid and gaseous states, while increasing its safety during operation.

The technical result is achieved due to the development of the design of a device for storage, transportation and unloading of liquefied gases, including a cylinder of "dead-end" type, equipped with nozzles that provide loading or unloading of the gas and liquid phases separately; a siphon tube connected to the liquid phase loading / unloading branch pipe; control valves; pressure gauge for measuring the working pressure in the cylinder; adapters for connecting to external devices, where

the balloon is equipped with a metal clamp, and is placed in a metal strapping placed on supports, and made in the form of a rectangular parallelepiped formed by a base, four metal posts and a cover, with the possibility of tightly placing the balloon on the base between the posts,

the nozzles are made extended, while the nozzle for loading / unloading the gas phase consists of three parts connected by means of a tee, one end of which is connected to the cylinder, and the other two are fixed in the lid through control valves; the branch pipe for loading / unloading the liquid phase is also fixed in the lid through the control valve,

adapters for connection to the consumer are made in the form of fittings,

the lid is provided with handles installed along its opposite sides, and a vertically oriented plate for attaching two adapters for loading and unloading liquid and gas phases, respectively, which are connected to the corresponding valves by means of additional pipes;

the manometer is fixed in the lid with the possibility of visualizing its readings, and is connected to one of the valves of the branch pipe for loading / unloading the gas phase;

branch pipes, manometers, valves, adapters and tee are made with the possibility of replacement without dismantling the entire device.

The base is made with grooves to accommodate racks, the lower part of which serves as supports. In the proposed device, the lower end of the siphon tube is cut at an angle of 30 ÷ 45 ° and installed so that it touches the bottom of the cylinder.

Shut-off valves and / or fine adjustment valves are installed as control valves for loading and unloading the gas and liquid phases and for connecting the gas phase line with a pressure gauge.

The cover and base of the metal strapping can be made of a duralumin sheet with a thickness of 3 ÷ 8 mm, and the rest of its elements are made of stainless steel. The posts are made in the form of a metal rod with a diameter of 1 ÷ 1.2 cm. In the device, the clamp can be made of stainless steel with a width of 3 to 5 cm and a thickness of 2 mm.

The invention is illustrated by graphical materials, where Fig. 1 and 2 show the inventive device, left and right views, respectively.

In FIG. 3 shows a top view of the device, which is actually a cover included in the metal trim.

The device includes:

1. balloon;

2. metal strapping;

3. cover;

4. branch pipe for loading and unloading the gas phase;

5. branch pipe for loading and unloading the liquid phase;

6. valve for loading and unloading the gas phase;

7. control valve;

8. valve for loading and unloading the liquid phase;

9. pressure gauge;

10. pens in the amount of 2 pcs .;

11. siphon tube;

12. base;

13. racks in the amount of 4 pcs .;

14. clamp;

15. Supports in the amount of 4 pcs .;

16. adapter for loading and unloading the gas phase;

17. adapter for loading and unloading the liquid phase,

moreover, elements 3-17 are included in the metal strapping.

A "dead-end" type cylinder for liquefied gases (1), designed for an operating pressure of 1.6 ÷ 2.0 MPa, and fixed in a metal strapping (2) made in the form of a rectangular parallelepiped, with the possibility of tight placement of the cylinder.

The upper side of the metal trim (2) is a cover (3), on which are installed: a branch pipe for loading and unloading the gas phase (4), a branch pipe for loading and unloading the liquid phase (5), a valve for loading and unloading the gas phase (6) , a control valve (7), a valve for loading and unloading the liquid phase (8), a pressure gauge (9), handles (10).

The branch pipe for loading and unloading the gas phase (4) consists of three parts, connected by means of a tee, one end of which is connected to the cylinder (1), and the other two ends with valves: a valve for loading and unloading the gas phase (6) and a control valve ( 7) to stop the supply of the gas phase to the manometer (9) when evacuating the cylinder (1).

The branch pipe for loading and unloading the liquid phase (5) is connected on one side with a straight siphon tube (11), and the end of the siphon tube (11) is cut at an angle of 30-45 ° and is installed so that it touches the bottom of the cylinder (1). On the opposite side, the branch pipe (5) ends with a valve for loading and unloading the liquid phase (8).

The cover (3) has two handles (10) installed along the sides of the cover (3). The handles (10) make it easy to transport the device.

The underside of the metal strapping (2) is the base (12) on which the cylinder (1) is installed.

The cover (3) and base (12) are made of duralumin sheet with a thickness of 3 to 8 mm.

The posts (13), which are the ribs of the side faces of the metal trim (2) from below, form supports (15) in the amount of 4 pieces, made of a metal rod with a diameter of 1 ÷ 1.2 cm. A clamp (14) is fixed on the posts (13) for fixing the cylinder (1) in the metal strapping (2). The clamp (16) is made of stainless steel with a width of 3 to 5 cm and a thickness of 2 mm.

The cover (3) is equipped with a vertically oriented plate for attaching two adapters for loading and unloading the gas (16) and liquid (17) phases. Adapters (16, 17) serve for the convenience and protection of valves for loading and unloading the gas (6) and liquid (8) phases from breakage, which can occur with frequent connection and disconnection of the device for unloading liquefied gas from the cylinder to fill the device with liquefied gas etc.

Shut-off valves and / or fine adjustment valves can be used as valves for loading and unloading the gas (6) and liquid (8) phases, as well as the control valve (7).

The proposed device works as follows.

Before filling the cylinder (1) with liquefied gas, it is evacuated. To do this, empty the cylinder (1) through the valve for loading and unloading the gas phase (6) through the adapter (16). Then connect the vacuum pump to the adapter (16). Close the control valve (7), turn on the vacuum pump and open the valve for loading and unloading the gas phase (6). At the end of the evacuation of the cylinder (1), close the valve for loading and unloading the gas phase (6) and disconnect the vacuum pump from the adapter (16).

To fill the cylinder (1), the liquefied gas loading line is connected to the fitting-connection (17) connected to the valve for loading and unloading the liquid phase (8) located on the branch pipe (5) ending with a siphon tube (11). Liquefied gas is supplied. Open the valve (8) and start filling the balloon (1). At the end of filling the cylinder (1), close the valve for loading and unloading the liquid phase (8) and disconnect the line for loading liquefied gas.

To take the gas phase out of the cylinder (1), connect the loading line to the adapter (16) connected to the valve for loading and unloading the gas phase (6) located on the branch pipe (4). The valve for loading and unloading the gas phase (6) is opened and the gas phase is unloaded from the cylinder (1).

To take the liquid phase from the cylinder (1), the loading line is connected to the adapter (17) connected to the valve for loading and unloading the liquid phase (8) located on the branch pipe (5), ending with a siphon tube (11). The valve for loading and unloading the liquid phase (8) is opened and the liquid phase is supplied.

Example 1.

A device for storing, transporting and discharging liquefied gases was manufactured as shown in FIG. 1-3, in which a 5L propane tank was used. The device was used incl. for supplying propylene to the benzene alkylation unit with propylene. The resulting device had a weight of 7.8 kg, the overall dimensions of the structure were 25.0 × 26.6 × 50.

The resulting device was evacuated and filled with propylene. Evacuation and filling were carried out in a specially prepared room. The device is easy to use and made it easy to transport it.

When using this device, propylene in the liquid state was supplied to the unit through the adapter for loading / unloading the liquid phase.

Long-term tests of the claimed device have confirmed the efficiency and reliability when used in the process of alkylation of benzene with propylene, both in liquid and gas phases, at gas pressures up to 2.0 MPa.

The operation of the proposed device showed its mobility, ease of manufacture and use, the ability to quickly replace any part of the cylinder strapping.

Claims (4)

1. A device for storage, transportation and unloading of liquefied gases, including a cylinder of "dead-end" type, equipped with nozzles for loading or unloading the gas and liquid phases separately; a siphon tube connected to a branch pipe for loading or unloading the liquid phase; control valves; pressure gauge for measuring the working pressure in the cylinder; adapters for connecting to external devices, characterized in that the cylinder is equipped with a metal clamp and is placed in a metal strapping placed on supports and made in the form of a rectangular parallelepiped formed by a base, four metal posts and a cover, with the possibility of tightly placing the cylinder on the base between the posts, the branch pipes are made long, while the branch pipe for loading or unloading the gas phase consists of three parts, connected by means of a tee, one end of which is connected to the cylinder, and the other two through control valves are fixed in the cover; the branch pipe for loading or unloading the liquid phase is also fixed in the lid through the control valve, adapters for connection to the consumer are made in the form of fittings, the lid is equipped with handles installed along its opposite sides, and a vertically oriented plate for attaching two adapters for loading or unloading liquid and gas phases, respectively, which are connected to the corresponding valves by means of additional branch pipes; the pressure gauge is fixed in the cover with the possibility of visualizing its readings and is connected to one of the valves of the branch pipe for loading or unloading the gas phase; in this case, the branch pipes, manometers, valves, adapters and tee are made with the possibility of replacement without dismantling the entire device. 2. The device according to claim 1, characterized in that the base is made with grooves to accommodate the racks, the lower part of which, extending beyond the base, performs the function of supports. 3. The device according to claim. 1, characterized in that the lower end of the siphon tube is cut at an angle and installed with the possibility of contact with the bottom of the cylinder. 4. The device according to claim. 1, characterized in that shut-off valves and / or fine adjustment valves are used as control valves for loading or unloading the gas and liquid phases and for connecting the gas phase line with a pressure gauge.

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