RU2216683C1 - Device for storage of liquefied gas (versions) - Google Patents

Abstract

FIELD: storage of liquefied gas at gas-filling stations for example. SUBSTANCE: proposed device includes reservoir mounted on supports in embankment, vapor phase branch pipe, liquefied gas suction branch pipe connected with bottom portion of reservoir, liquefied gas inlet branch pipe, drainage branch pipe and shielding branch pipe with end flange, control units located above embankment and connected with cavity of reservoir by means of respective branch pipe; proposed device has bearing wall adjoining embankment. Shielding branch pipe is connected with external surface of reservoir. Vapor phase branch pipe, liquefied gas inlet branch pipe and drainage branch pipe are located in cavity of shielding branch pipe and are secured on reservoir on one side and on flange of shielding branch pipe on other side. Ends of vapor phase branch pipe, liquefied gas inlet branch pipe and drainage branch pipe located inside reservoir are bent in shape. Bearing wall has two through holes: one hole which is coaxial relative to shielding branch pipe is used for receiving this branch pipe; flange of this branch pie is located at spaced relation to external side of bearing wall; second hole is used for passing liquefied gas suction branch pipe. Device may be made in form of several reservoirs of similar construction which are additionally provided with recirculating branch pipes for preparation of homogeneous mixtures of liquefied gases. Versions of device depend on its purpose. EFFECT: enhanced safety; low cost. 35 cl, 6 dwg

Description

 The invention relates to equipment for storing liquefied gas, and can be used in the fuel and energy industry, for example, at gas filling stations.

 From the prior art it is known storage for liquefied gas containing an underground dusted tank [B.S. Rachevsky, S.M. Rachevsky, I.I. Radchik. Storage of liquefied petroleum gases. M .: Nedra, 1974, pp. 128-136]. The specified storage consists of a ground-based cylindrical tank, having a sprinkling of soil at least 0.2 m above the liquid level in the tank and at least 6 m, counting from the wall of the tank to the edge of the sprinkling. The tank consists of a cylindrical body and two elliptical bottoms. The tank contains nozzles for filling and draining the vapor phase and the connection of instrumentation. Moreover, for the selection and introduction of liquefied gas is the same pipe.

 The required technical result in the above solution is hindered by the high metal consumption of the structure, due to the need for a large number of pipelines, which in turn reduces the industrial safety of the equipment. Moreover, the size of the embankment requires a fairly large area.

 The prior art device for storing liquefied gas containing a tank mounted on annular supports inside a horizontally located underground cylindrical shell with elliptical bottoms and two necks, one of which is equipped with a sealed lid and the other with a hermetically sealed hatch. The tank contains a horizontally arranged cylindrical body with elliptical bottoms, equipped with a manhole nozzle, a nozzle for the vapor phase of the liquefied gas, a nozzle for sampling the liquefied gas, and also nozzles for connecting control and measuring means on the body (German patent 3836071 C2, 1990).

 The required technical result is hindered by the complexity of the design, and therefore, the high cost, as well as the limited ability to increase the capacity of the device, due to both technical difficulties and high capital costs associated with the formation of a large excavation pit.

 Closest to the objects of the invention in terms of essential features (prototype) is a device for storing liquefied gas [French application 2712956 A1, 1993], containing a spherical-shaped tank mounted on supports, equipped with a pipe for the vapor phase of the liquefied gas, a pipe for the liquid phase of the liquefied gas and nozzles for connecting control and measuring means, while the nozzle for the vapor phase is connected to the internal volume of the tank in its upper part, the nozzle for the liquid phase is connected to the bottom part of the tank, the tank is placed in a mound of finely granulated material with filaments and fibers, and the output nozzles carried out through the horizontal cavity formed in the mound.

 For the objects of the invention, the following matching essential features were identified: the presence of a tank mounted on the supports with a horizontal axis of symmetry, its placement in the embankment, the presence of a pipe for the vapor phase, the presence of a pipe for the selection of liquefied gas connected to the bottom of the tank, and the presence of pipes for connecting control and measurement funds.

 The required technical result is prevented by the insufficient high reliability of the device during operation, since the junction of the nozzles with the reservoir is not protected from mechanical vibrations that occur in the nozzles during operation under loads, or from any external mechanical influences that cause the deformation of the nozzles, the use of one of the same pipe for the selection and introduction of liquefied gas narrows the functionality of the device, as well as the lack of means for removing exfoliation zheny significantly impairs operational parameters of the device. Additionally, we note that the specified technical solution does not provide convenient access to the nozzles for repair.

 The problem to which the invention is directed, is the creation of a compact safe storage of liquefied natural gas with a fairly low construction cost.

 The technical result obtained by the implementation of the claimed invention is expressed in increasing industrial safety, increasing the operational parameters of the device, expanding the functionality of the device, reducing the occupied area, reducing material consumption, reducing the cost of maintaining the device.

 The problem is solved, and the technical result is achieved according to the first object of the invention by the fact that a device for storing liquefied gas, containing installed on the supports and placed in the embankment tank with a horizontal axis of symmetry, a pipe for the vapor phase, a pipe for the selection of liquefied gas connected to the bottom of the tank , and control and measuring means located above the embankment and connected with the cavity of the tank by means of corresponding nozzles, further comprises a supporting wall adjacent to one its side to the embankment, a liquefied gas inlet pipe, a drainage pipe and a shielding pipe with an end flange, while the shielding pipe is rigidly connected to a portion of the outer surface of the tank, while the axis of the shielding pipe is located below the horizontal axis of symmetry of the tank, vapor phase pipe, input pipe liquefied gas and the drain pipe are located with a gap relative to each other in the cavity of the shielding pipe parallel to its axis and are fixed on one side to the tank rigidly and g hermetically, and on the other hand, on the flange of the shielding nozzle, the ends of the nozzles for the vapor phase, the introduction of the liquefied gas and drainage located inside the tank are curved, the open end of the upward curved end of the nozzle for the vapor phase being located above the maximum permissible level of the liquid phase of the liquefied gas, the open end a downward curved drain pipe located inside the tank is located below the open end of the liquefied gas extraction pipe, and the end of the liquefied gas injection pipe is inside the tank, it is made curved downward, the supporting wall has two through holes, while in one through hole coaxial to the shielding pipe, a shielding pipe is placed with the possibility of fixation, the flange of which is placed with a gap relative to the outer side of the supporting wall, and is passed through the second through hole branch pipe for liquefied gas.

 In the particular case of the device for storing liquefied gas according to the first object of the invention, the device is additionally equipped with a recirculation pipe, the axis of which is located in the vertical diametrical plane of symmetry of the tank, the pipe is fixed in the upper part of the tank, while the end of the recirculation pipe located in the cavity of the tank is fixed by means of a fixing element to the bottom of the tank and the other end of the recirculation pipe through a pipeline line, equipped hydrochloric pump and the locking element is connected to the nozzle selection liquefied gas.

 In the particular case of the device for storing liquefied gas according to the first object, the open end of the recirculation pipe is made beveled.

 In the particular case of the device for storing liquefied gas according to the first object of the invention, the open end of the pipe for the vapor phase, and / or the open end of the drain pipe, and / or the open end of the pipe for introducing liquefied gas.

 In the particular case of the device for storing liquefied gas according to the first object of the invention, the tank is cylindrical in shape with elliptical bottoms, and the shielding pipe is connected to a portion of the outer surface of one of them.

где D - внутренний диаметр резервуара; d - внешний диаметр экранирующего патрубка.In the particular case of the device for storing liquefied gas according to the first object of the invention, the distance h between the horizontal axis of symmetry of the tank and the axis of symmetry of the shielding pipe satisfies the ratio:

where D is the inner diameter of the tank; d is the outer diameter of the shielding pipe.

 In the particular case of the device for storing liquefied gas according to the first object of the invention, the axis of the sections of the pipe for the vapor phase, the pipe for the introduction of liquefied gas and the drain pipe located inside the shielding pipe, lie in one vertical plane of the tank, while the pipe section for the vapor phase is located above the sections other branch pipes.

 In the particular case of the device for storing liquefied gas according to the first object of the invention, the ends of the vapor phase nozzles, the introduction of the liquefied gas and drainage located inside each tank are made curved at right angles and fixed relative to the inner surface of the tank.

 In the particular case of the device for storing liquefied gas according to the first object of the invention, the embankment is made of earth and / or sand. In the particular case, the embankment is made in the form of a layer of sand covered with a grid, on top of which is a layer of earth.

 The problem is solved, and the technical result is achieved according to the second object of the invention by the fact that a device for storing liquefied gas, containing mounted on the supports and placed in the embankment tank with a horizontal axis of symmetry, a pipe for the vapor phase, a pipe for the selection of liquefied gas, connected to the bottom of the tank , and control and measuring means, placed above the embankment and connected with the cavity of the tank by means of corresponding nozzles, additionally contains a supporting wall adjacent to its the inner side to the embankment, and N-1 tanks installed on the supports, where N is a positive integer greater than 2, while all N tanks are placed in a common embankment, and each of the N tanks additionally contains a liquefied gas inlet pipe, a drainage pipe, and a shielding pipe with an end flange, while the shielding pipe is rigidly connected to a portion of the outer surface of the tank, while the axis of the shielding pipe is below the horizontal axis of symmetry of the tank, the vapor phase pipe, the compression inlet pipe liquid gas and the drain pipe are arranged with a gap relative to each other in the cavity of the shielding pipe parallel to its axis and are fixed on the tank rigidly and tightly on one side, and on the other hand on the flange of the shielding pipe, the first group of N through holes with an axis is made in the supporting wall symmetry, coaxial to the axis of symmetry of the corresponding shielding pipe, with each shielding pipe placed in the corresponding hole of the first group, as well as the second group of N through holes, through which are passed respective liquefied gas sampling pipes, flanges all screening nozzles arranged with a gap relative to the outer surface of the support wall.

 In the particular case of the device for storing liquefied gas according to the second object of the invention, at least one of the tanks further comprises a recirculation pipe with an axis located in the vertical diametrical plane of symmetry of the tank, mounted in the upper part of the tank, while the end of the recirculation located in the cavity of the tank the nozzle is fixed by means of a fixing element to the bottom of the tank, the other end of the recirculation nozzle by means of a pipe The line, equipped with a pump and a shut-off element, is connected to the liquefied gas extraction pipe. In this case, the open end of the recirculation pipe can be made beveled.

 In the particular case of the device for storing liquefied gas according to the second object of the invention, the open end of the pipe for the vapor phase, and / or the open end of the drain pipe, and / or the open end of the pipe for introducing liquefied gas.

 In the particular case of the device for storing liquefied gas according to the second object of the invention, the tank is made cylindrical in shape with elliptical bottoms, and the shielding pipe is connected to a portion of the outer surface of one of them.

где D - внутренний диаметр резервуара; d - внешний диаметр экранирующего патрубка.In the particular case of the device for storing liquefied gas according to the second object of the invention, the distance h between the horizontal axis of symmetry of the tank and the axis of symmetry of the shielding pipe satisfies the ratio:

where D is the inner diameter of the tank; d is the outer diameter of the shielding pipe.

 In the particular case of the device for storing liquefied gas according to the second object of the invention, the axis of the sections of the nozzle for the vapor phase, the nozzle of the input of the liquefied gas and the drain pipe located inside the shielding pipe, lie in one vertical plane of the tank, while the section of the pipe for the vapor phase is located above the sections other branch pipes.

 In the particular case of the device for storing liquefied gas according to the second object of the invention, a drainage line, a liquefied gas injection line, a liquefied gas withdrawal line and a vapor phase line are arranged along the supporting wall from the outside, each line being connected to a corresponding pipe of each of the N tanks.

 In the particular case of a device for storing liquefied gas according to the second object of the invention, the embankment is made of earth and / or sand. In the frequent case, the embankment is made in the form of a layer of sand covered with a grid, on top of which is a layer of earth.

 The problem is solved, and the technical result is achieved according to the third object of the invention by the fact that in a device for storing liquefied gas containing a tank mounted on a support with a horizontal axis of symmetry, a pipe for the vapor phase, a pipe for taking liquefied gas connected to the bottom of the tank, and nozzles for connecting control and measuring means, additionally contains a drainage nozzle and a nozzle for introducing liquefied gas, and the tank is made of a cylindrical shape with elliptical bottoms , on one of which a drainage pipe, a liquefied gas inlet pipe and a vapor phase inlet are fixed, the ends of the pipes for the vapor phase, inlet of the liquefied gas and drainage located inside the tank are curved, the open end of the pipe curved upward for the vapor phase is higher than the maximum the level of the liquid phase of the liquefied gas, the open end of the downwardly curved drain pipe located inside the tank is located below the open end of the liquefied gas recovery pipe, and the end of the liquefied gas inlet pipe located inside the tank is bent downward, while the ends of the vapor phase, liquefied gas and pipe inlets are fixed to the inner surface of the tank.

где D - внутренний диаметр резервуара; d - внешний диаметр экранирующего патрубка.In the particular case of the device for storing liquefied gas according to the third object of the invention, the device for storing liquefied gas further comprises a shielding pipe with an end flange, while the shielding pipe is rigidly connected to a portion of the outer surface of the tank, while the axis of the shielding pipe is located below the horizontal axis of symmetry of the tank , the vapor phase pipe, the liquefied gas inlet pipe and the drain pipe are located with a gap relative to each other in the cavity wound pipe parallel to its axis and mounted on one side of the tank rigidly and tightly, and on the other hand on the flange of the shielding pipe. Moreover, in the particular case of the device for storing liquefied gas, the distance h between the horizontal axis of symmetry of the tank and the axis of symmetry of the shielding pipe satisfies the relation:

where D is the inner diameter of the tank; d is the outer diameter of the shielding pipe.

 In the particular case of the device for storing liquefied gas according to the third aspect of the invention, the device for storing liquefied gas further comprises a recirculation pipe with an axis located in the vertical diametrical plane of symmetry of the tank, mounted in the upper part of the tank, while the end of the recirculation pipe located in the cavity of the tank is secured by fixing element on the bottom of the tank, the other end of the recirculation pipe by means of a pipeline A flow line equipped with a pump and a shut-off element is connected to a liquefied gas extraction pipe. In this case, the open end of the recirculation pipe can be made beveled.

 In the particular case of the device for storing liquefied gas according to the third object of the invention, the open end of the pipe for the vapor phase, and / or the open end of the drain pipe, and / or the open end of the pipe for introducing liquefied gas.

 In the particular case of the device for storing liquefied gas according to the third object of the invention, the axis of the sections of the nozzle for the vapor phase, the nozzle of the input of the liquefied gas and the drain pipe located inside the shielding pipe, lie in one vertical plane of the tank, while the section of the pipe for the vapor phase is located above the sections other branch pipes.

 In the particular case of the implementation of the device for storing liquefied gas according to the third object of the invention, the ends of the vapor phase nozzles, the introduction of the liquefied gas and drainage located inside each tank are made curved at right angles and fixed relative to the inner surface of the tank.

 The problem is solved, and the technical result is achieved according to the fourth object of the invention by the fact that a device for storing liquefied gas, containing installed on the supports and placed in the embankment tank with a horizontal axis of symmetry, a pipe for the vapor phase, a pipe for the selection of liquefied gas, connected to the bottom of the tank , and control and measuring means located above the embankment and connected with the cavity of the tank by means of corresponding nozzles, further comprises a supporting wall adjacent to the with its inner side to the embankment, and at least two tanks installed on the supports, each of the tanks further comprises a liquefied gas inlet pipe, a drain pipe and a shielding pipe with an end flange, and at least one tank further comprises a recirculation pipe with an axis located in the vertical diametrical plane of symmetry of the tank, mounted in the upper part of the tank, while the end of the recirculation pipe located in the cavity of the tank is fixed by ohm of the fixing element on the bottom of the tank, the other end of the recirculation pipe is connected to the liquefied gas by a pipe line equipped with a pump and a shut-off element, the shield pipe is rigidly connected to the part of the outer surface of the tank, while the axis of the shield pipe is located below the horizontal axis of symmetry the tank, the vapor phase pipe, the liquefied gas inlet pipe and the drain pipe are located with a gap relative to each other in the cavity its pipe is parallel to its axis and fixed on one side of the tank tightly and tightly, and on the other hand on the flange of the shielding pipe, in the supporting wall is made the first group of at least three through holes with an axis of symmetry coaxial to the axis of symmetry of the corresponding shielding pipe wherein each shielding nozzle is placed in the corresponding opening of the first group, as well as the second group of at least three through holes through which the corresponding nozzles of the selection liquefied of gas, shielding flanges all nozzles are arranged with a clearance relative to the outer surface of the support wall.

 In the particular case of the device for storing liquefied gas according to the fourth aspect of the invention, the open end of the recirculation pipe, and / or the open end of the pipe for the vapor phase, and / or the open end of the drain pipe, and / or the open end of the pipe of the liquefied gas inlet are tapered.

 In the particular case of the device for storing liquefied gas according to the fourth object of the invention, the tank is made cylindrical with elliptical bottoms, and the shielding pipe is connected to a portion of the outer surface of one of them.

где D - внутренний диаметр резервуара; d - внешний диаметр экранирующего патрубка.In the particular case of the device for storing liquefied gas according to the fourth object of the invention, the distance h between the horizontal axis of symmetry of the tank and the axis of symmetry of the shielding pipe satisfies the ratio:

where D is the inner diameter of the tank; d is the outer diameter of the shielding pipe.

 In the particular case of the device for storing liquefied gas according to the fourth object of the invention, the axis of the sections of the pipe for the vapor phase, the pipe for the introduction of liquefied gas and the drain pipe located inside the shielding pipe, lie in one vertical plane of the tank, while the pipe section for the vapor phase is located above the sections other branch pipes.

 In the particular case of the device for storing liquefied gas according to the fourth object of the invention, the embankment is made of earth and / or sand. In this particular case, the embankment is made in the form of a layer of sand covered with a grid, on top of which is a layer of earth.

 The above-described embodiments of a device for storing liquefied gas provide improved performance, especially reliability. The proposed implementation of the tank provides reliable fastening of the nozzles for the vapor phase, for the introduction of liquefied gas, drainage, since the junction of these nozzles with the reservoir, for example, with a section of its elliptical bottom, is isolated from accidental external forces by the shielding nozzle and flange. In addition, due to the additional fastening of the nozzles for the vapor phase, for the introduction of liquefied gas and drainage on the end flange of the shielding nozzle, effective protection is provided compared to the cantilever fixing of the joints of the nozzles with the tank from mechanical vibrations that inevitably occur during loading during operation of the device. Moreover, the location of the pipe below the horizontal axis of symmetry of the tank reduces labor costs during operation, since all pipes are made at a level that is easily accessible to staff. The location of the nozzles for the vapor phase, the drain pipe and the liquefied gas inlet pipe on the side surface of the tank provides the possibility of reducing material consumption when connecting pipelines. The introduction of an additional liquefied gas inlet pipe ensures the most secure loading of liquefied gas, and also expands the functionality for connecting various equipment that controls the process of loading and selecting liquefied gas. The experimentally established relationship between the distance between the horizontal axis of symmetry of the tank and the axis of symmetry of the shielding nozzle, the outer diameter of the shielding nozzle and the inner diameter of the tank, provides such an arrangement of the shielding nozzle relative to the horizontal axis of symmetry of the tank at which the most convenience is achieved during operation and maintenance of the device. Supplementing the device with a supporting wall provides the greatest industrial safety, especially fire safety. At the same time, due to the presence of the supporting wall, the territory occupied by the device is reduced. On the side of the wall can be placed additional equipment. The placement and fixation of the shielding pipe in the wall and the pipe for the selection of liquefied gas provides the required structural rigidity. Supplementing the device with a recirculation pipe allows you to expand the functionality of the device to obtain homogeneous mixtures of various gases. The proposed device has the ability to quickly increase its capacity by simply connecting additional tanks with their location along the supporting wall. The device for storing liquefied gas according to the present invention can be placed in any territory, regardless of climatic conditions.

 Objects of the invention are illustrated by drawings.

 In FIG. 1 shows a reservoir of a device for storing liquefied gas, a partial longitudinal section.

 Figure 2 is the same side view.

 Figure 3 - a device for storing liquefied gas with a supporting wall.

 Figure 4 is the same side view.

 Figure 5 - device for storing liquefied gas containing several tanks, view from the side of the supporting wall.

 Figure 6 - recirculation pipe.

 A device for storing liquefied gas contains a tank 1 of a cylindrical shape with elliptical bottoms 2 and 3 with an axis of symmetry 4 located horizontally. The tank 1 is mounted on supports 5 and is equipped with a nozzle 6 for the selection of liquefied gas, which is rigidly and hermetically connected to its bottom. On the outer surface of the tank 1 there are control and measuring means, in particular a level gauge 7, a pressure gauge 8, a sensor of the maximum permissible level of liquefied gas in the tank 9, which are connected to the cavity of the tanks by means of corresponding nozzles. In addition, the device contains an asymmetric shielding pipe 10 with a flange 10 ', which is rigidly connected to a portion of the outer surface of the tank 1, located below the level of its horizontal axis 4. In this particular case of the tank 1, the shielding pipe 10 is connected to a portion of the outer surface of the elliptical bottom 3 while the axis 4 and the axis of symmetry of the shielding pipe 11 are parallel to each other and lie in the same vertical plane 12 (diametrical).

где D - внутренний диаметр резервуара; d - внешний диаметр экранирующего патрубка.The pipe 13 for the vapor phase of the liquefied gas, the pipe 14 for introducing liquefied gas and the drain pipe 15 are located with a gap relative to each other in the cavity of the shielding pipe 10 and are parallel to its axis of symmetry 11. Here it should be noted that in the case under consideration the axis of the pipe 14 coincides with the axis 11 The nozzles 13-15 on the one hand are rigidly and hermetically mounted on the tank, and on the other hand, on the end flange 10 'of the shielding pipe 10. The ends of the pipes 13-15 located inside the tank 1 are made curved and beveled along an angle different from 90 ^o, end faces, wherein the end of the pipe 13 is bent upwards and its open end is above the maximum permissible level of the liquid phase of the liquefied gas. The ends of the liquefied gas inlet nozzles 14 and drainage 15 located in the cavity of the tank 1 are bent downward and their beveled ends are located below the level of the open end of the liquefied gas nozzle 6. The ends of the nozzles 13-15 located inside the tank 1 in a preferred example of the invention are made curved at right angles and fixed relative to the inner surface of the tank 1 using the corresponding locking elements 16. In addition, it is advisable that the axis of the nozzles 13-15 lie in one diametrical vertical plane of the tank 1, while the nozzle for the vapor phase 13 is located above the nozzle of the liquefied gas inlet 14, and the drainage pipe 15 is located below the nozzle of the liquefied gas inlet 14. The distance h between the horizontal axis of symmetry of the tank 4 and the axis of symmetry of the shielding sleeve 11, as has been established experimentally, satisfies the relation

where D is the inner diameter of the tank; d is the outer diameter of the shielding pipe.

 The tank 1 can be placed in the embankment 17 of finely granular material, such as sandy soil (sand), gravel, earth. In addition, the device for storing liquefied gas contains a supporting wall 18, for example reinforced concrete. The inner side of the supporting wall 18 is adjacent to the embankment 17. A through hole is made in the supporting wall, coaxial to the shielding pipe 10 (axis of symmetry 11). The shielding pipe 10 is placed in the aforementioned hole and fixed, while the end flange 10 'is placed with a gap relative to the outer side 18 "of the supporting wall 18. In addition, a through hole is made in the supporting wall 18 through which the liquefied gas outlet pipe 6 is passed.

 In the case of using several tanks 1 in the device for storing liquefied gas (Fig. 5), the supporting wall 18 is made with 2N through holes, where N is the number of tanks used. All tanks can be placed in a common embankment. The first group of through holes is designed to accommodate the corresponding shielding nozzles 10, and the second group of holes is designed to accommodate the corresponding nozzles for the selection of liquefied gas. Along the supporting wall, which, in addition to the supporting and additional technological function, there is a liquefied gas extraction line connected to liquefied gas extraction pipes 6 of all tanks, a drainage line 20 connected to all drainage pipes 15, a liquefied gas supply line 21 connected to all input pipes liquefied gas 14, and a line for the vapor phase 22 connected to all nozzles for the vapor phase 13.

 To ensure uniformity of the mixture of various liquefied gases, the tank 1 is equipped with a recirculation pipe 23, which is placed in the vertical diametrical plane of symmetry 12 of the tank 1 and hermetically fixed in its upper part. The end of the recirculation pipe located in the cavity of the tank 1 is made beveled, is located near the bottom of the tank 1 and is fixed relative to its inner surface by a fixing element. The end of the recirculation pipe 23 extending beyond the tank 1 through a pipeline (not shown) with a transfer pump and shutoff valves (shutoff elements not shown) is connected to the liquefied gas sampling pipe 6.

A device for storing liquefied gas operates as follows. Filling the tank 1 with liquefied gas is carried out through the liquefied gas inlet pipe 14, the portion of which (located in the cavity of the tank 1) is made curved, for example, at 90 ^° , and its end slanted at an angle is located near the bottom of the tank 1. Filling the tank 1 with liquefied gas by creating a differential pressure of the gas phase of the liquefied gas in the tank 1 and in the tank from which the liquefied gas is supplied. The selection of liquefied gas is carried out through the pipe 6 of the selection of liquefied gas. To do this, through the pipe 13 for the vapor phase, for example using a compressor, overpressure is created in the upper part of the cavity of the tank 1, because the section of the pipe 13 located inside the tank 1 is located above the maximum allowable level of the liquid phase of the liquefied gas. During operation of the tank 1, various impurities can accumulate near the bottom of the tank. After removing the amount of liquefied gas, determined by the level of the end of the pipe 6, the remainder of the liquefied gas, which may contain impurities, is removed from the tank 1 through the drain pipe 13. The proposed device also provides a mixture of liquefied gases with a given content of components, for example, in the form of propane-butane mixtures. For this, liquefied gas of the same chemical composition is first supplied to the tank 1, the amount of which depends on the required content of the mixture. Then, a predetermined amount of liquefied gas of a different chemical composition is introduced into the tank 1. Homogenization of the resulting mixture of liquefied gases of different chemical composition is carried out by connecting the recirculation pipe 23 to the pipe 6 for the selection of liquefied gas through a pipeline with a transfer pump (not shown). As a result, the components of the mixture of liquefied gases are selected through line 6 and returned to the tank 1 through the recirculation pipe 23, beveled at an angle, the end of which is located near the bottom of the tank 1. As a result, intense upward flows of the liquid phase of the mixture of liquefied gases are created near the recirculation pipe 23, this provides good mixing of the components of the mixture of liquefied gases. The proposed device can be used both for storage and for the distribution of liquefied gases, as well as creating mixtures of liquefied gases of a given composition.

Claims (35)

 1. A device for storing liquefied gas, containing mounted on the supports and placed in the embankment tank with a horizontal axis of symmetry, a nozzle for the vapor phase, a nozzle for the selection of liquefied gas, connected to the bottom of the tank, and instrumentation placed above the embankment and associated with the cavity of the tank by means of corresponding nozzles, characterized in that it further comprises a supporting wall adjacent to one side of the embankment, a liquefied gas inlet pipe, a drainage pipe and a wound nozzle with an end flange, while the shielding nozzle is rigidly connected to a portion of the outer surface of the tank, while the axis of the shielding nozzle is located below the horizontal axis of symmetry of the tank, the vapor phase nozzle, the liquefied gas inlet nozzle, and the drainage nozzle are located with a gap relative to each other in the cavity the shielding pipe parallel to its axis and are fixed on one side of the tank rigidly and tightly, and on the other hand on the flange of the shielding pipe, located in in the morning of the tank, the ends of the nozzles for the vapor phase, the introduction of the liquefied gas and the drain are made curved, with the open end of the upward curved end of the nozzle for the vapor phase being located above the maximum permissible level of the liquid phase of the liquefied gas, the open end of the downward curved drain pipe located inside the tank is below the level open end of the liquefied gas sampling pipe, and the end of the liquefied gas injection pipe placed inside the tank is curved downward, the supporting wall has two through holes, wherein in one through hole, coaxial with the shielding pipe, is arranged to lock the shield tube, the flange of which is placed with a gap relative to the outer side of the support wall and through the second through-hole passed liquefied gas sampling tube.  2. A device for storing liquefied gas according to claim 1, characterized in that it further comprises a recirculation pipe with an axis located in the vertical diametrical plane of symmetry of the tank, mounted in the upper part of the tank, while the end of the recirculation pipe located in the cavity of the tank is secured by a fixing element on the bottom of the tank, the other end of the recirculation pipe by means of a pipeline equipped with a pump and a locking element, is connected to the pipe about boron liquefied gas.  3. A device for storing liquefied gas according to claim 2, characterized in that the open end of the recirculation pipe is beveled.  4. The device for storing liquefied gas according to claim 1, characterized in that the open end of the pipe for the vapor phase, and / or the open end of the drain pipe, and / or the open end of the pipe for introducing liquefied gas.  5. A device for storing liquefied gas according to claim 1, characterized in that the tank is cylindrical in shape with elliptical bottoms, and the shielding pipe is connected to a portion of the outer surface of one of them. 6. A device for storing liquefied gas according to claim 1, characterized in that the distance h between the horizontal axis of symmetry of the tank and the axis of symmetry of the shielding pipe satisfies the relation
(Dd) / h = (2.1-2.5),
where D is the inner diameter of the tank;
d is the outer diameter of the shielding pipe.  7. A device for storing liquefied gas according to claim 1, characterized in that the axis of the sections of the pipe for the vapor phase, the pipe for introducing liquefied gas and the drain pipe located inside the shielding pipe, lie in the same vertical plane of the tank, while the section of the pipe for the vapor phase located above the sections of other pipes.  8. A device for storing liquefied gas according to claim 1, characterized in that the ends of the vapor phase pipes, the introduction of liquefied gas and drainage located inside each tank are made curved at right angles and fixed relative to the inner surface of the tank.  9. A device for storing liquefied gas according to claim 1, characterized in that the embankment is made of earth and / or sand.  10. A device for storing liquefied gas according to claim 9, characterized in that the embankment is made in the form of a layer of sand covered with a grid, on top of which is a layer of earth.  11. A device for storing liquefied gas, containing mounted on the supports and placed in the embankment tank with a horizontal axis of symmetry, a nozzle for the vapor phase, a nozzle for the selection of liquefied gas, connected to the bottom of the tank, and instrumentation placed above the embankment and associated with the cavity of the tank by means of appropriate nozzles, characterized in that it further comprises a supporting wall adjacent its inner side to the embankment, and N-1 mounted on the supports of the tanks, where N - p the positive integer is greater than 2, while all N tanks are placed in a common embankment, and each of the N tanks additionally contains a liquefied gas inlet pipe, a drain pipe and a shielding pipe with an end flange, while the shielding pipe is rigidly connected to the outer surface of the tank, the axis of the shielding pipe is located below the horizontal axis of symmetry of the tank, the vapor phase pipe, the liquefied gas inlet pipe and the drain pipe are located with a gap relative to each other ha in the cavity of the shielding pipe parallel to its axis and are fixed on the tank rigidly and tightly on one side, and on the other hand on the flange of the shielding pipe, the first group of N through holes with an axis of symmetry coaxial with the axis of symmetry of the corresponding shielding pipe is made in the supporting wall, each shielding nozzle is placed in the corresponding opening of the first group, as well as the second group of N through holes through which the corresponding nozzles for the selection of liquefied gas, flanges are passed all shielding nozzles are placed with a gap relative to the outer surface of the supporting wall.  12. A device for storing liquefied gas according to claim 11, characterized in that at least one of the tanks further comprises a recirculation pipe with an axis located in the vertical diametrical plane of symmetry of the tank, mounted in the upper part of the tank, while the end located in the tank cavity the recirculation pipe is fixed by means of a fixing element on the bottom of the tank, the other end of the recirculation pipe through a pipe line equipped with a pump, shut-off ementom connected to the nozzle selection liquefied gas.  13. A device for storing liquefied gas according to claim 12, characterized in that the open end of the recirculation pipe is beveled.  14. The device for storing liquefied gas according to claim 11, characterized in that the open end of the pipe for the vapor phase, and / or the open end of the drain pipe, and / or the open end of the pipe for introducing liquefied gas.  15. A device for storing liquefied gas according to claim 11, characterized in that the tank is cylindrical in shape with elliptical bottoms, and the shielding pipe is connected to a portion of the outer surface of one of them. 16. A device for storing liquefied gas according to claim 11, characterized in that the distance h between the horizontal axis of symmetry of the tank and the axis of symmetry of the shielding pipe satisfies the relation
(Dd) / h = (2.1-2.5),
where D is the inner diameter of the tank;
d is the outer diameter of the shielding pipe.  17. The device for storing liquefied gas according to claim 11, characterized in that the axis of the portions of the pipe for the vapor phase, the pipe for introducing liquefied gas and the drain pipe located inside the shielding pipe, lie in one vertical plane of the tank, while the pipe section for the vapor phase located above the sections of other pipes.  18. The device for storing liquefied gas according to claim 11, characterized in that along the supporting wall from the outside there is a drainage line, a liquefied gas inlet line, a liquefied gas withdrawal line and a vapor phase line, each line connected to a corresponding pipe of each of N reservoirs.  19. A device for storing liquefied gas according to claim 11, characterized in that the embankment is made of earth and / or sand.  20. A device for storing liquefied gas according to claim 19, characterized in that the embankment is made in the form of a layer of sand covered with a grid, on top of which is a layer of earth.  21. A device for storing liquefied gas, containing mounted on the supports of the tank with a horizontal axis of symmetry, a pipe for the vapor phase, a pipe for taking liquefied gas connected to the bottom of the tank, and pipes for installing control and measuring means, characterized in that it further comprises a drainage pipe and a pipe for introducing liquefied gas, and the tank is cylindrical in shape with elliptical bottoms, one of which has a drainage pipe, a pipe for introducing liquefied gas and a cartridge side for the vapor phase, the ends of the nozzles for the vapor phase, the introduction of the liquefied gas and drainage located inside the tank are curved, the open end of the upward curved end of the nozzle for the vapor phase being located above the maximum allowable level of the liquid phase of the liquefied gas, the open end of the downward curved drain pipe located inside the tank, it is located below the open end of the liquefied gas sampling pipe, and the end of the liquefied gas inlet pipe located inside the tank is curved down, while the ends of the vapor phase nozzles, the introduction of liquefied gas and drainage are fixed on the inner surface of the tank.  22. The device for storing liquefied gas according to p. 21, characterized in that it further comprises a shielding pipe with an end flange, while the shielding pipe is rigidly connected to a portion of the outer surface of the tank, while the axis of the shielding pipe is located below the horizontal axis of symmetry of the tank, the vapor phase pipe, the liquefied gas inlet pipe and the drain pipe are located with a gap relative to each other in the cavity of the shielding pipe parallel to its axis and are fixed on one side to the tank is rigid and tight, and on the other hand on the flange of the shielding pipe.  23. A device for storing liquefied gas according to claim 21 or 22, characterized in that it further comprises a recirculation pipe with an axis located in the vertical diametrical plane of symmetry of the tank, mounted in the upper part of the tank, while the end of the recirculation pipe located in the cavity of the tank is secured by means of a fixing element on the bottom of the tank, the other end of the recirculation pipe is connected to the pipe by means of a pipe line equipped with a pump, a locking element com liquefied gas selection.  24. A device for storing liquefied gas according to claim 23, characterized in that the open end of the recirculation pipe is beveled.  25. A device for storing liquefied gas according to claim 21, characterized in that the open end of the pipe for the vapor phase, and / or the open end of the drain pipe, and / or the open end of the pipe for introducing liquefied gas. 26. A device for storing liquefied gas according to p. 22, characterized in that the distance h between the horizontal axis of symmetry of the tank and the axis of symmetry of the shielding pipe satisfies the relation
(Dd) / h = (2.1-2.5),
where D is the inner diameter of the tank;
d is the outer diameter of the shielding pipe.  27. The device for storing liquefied gas according to p. 22, characterized in that the axis of the sections of the pipe for the vapor phase, the pipe for the input of liquefied gas and the drain pipe located inside the shielding pipe, lie in the same vertical plane of the tank, while the section of the pipe for the vapor phase located above the sections of other pipes.  28. A device for storing liquefied gas according to p. 21, or 22, or 23, characterized in that the ends of the vapor phase nozzles, the introduction of the liquefied gas and the drain located inside each tank are made curved at right angles and fixed relative to the inner surface of the tank.  29. A device for storing liquefied gas, containing a tank mounted on supports and placed in the embankment with a horizontal axis of symmetry, a nozzle for the vapor phase, a nozzle for the selection of liquefied gas, connected to the bottom of the tank, and instrumentation placed above the embankment and associated with the cavity of the tank by means of corresponding nozzles, characterized in that it further comprises a supporting wall adjacent its inner side to the embankment, and at least two cuts mounted on the supports of the reservoir, each of the reservoirs further comprises a liquefied gas inlet pipe, a drainage pipe and a shielding pipe with an end flange, and at least one tank further comprises a recirculation pipe with an axis located in the vertical diametrical plane of symmetry of the tank, mounted in the upper part of the tank, the end of the recirculation pipe located in the cavity of the tank is fixed by means of a fixing element to the bottom of the tank, the other end of the recirculation the nozzle is connected through a pipeline equipped with a pump and a shut-off element to the liquefied gas sampling nozzle, the shielding nozzle is rigidly connected to the outer surface of the tank, the axis of the shielding nozzle being below the horizontal axis of symmetry of the tank, the vapor phase nozzle, the liquefied gas inlet nozzle and the drain pipe is located with a gap relative to each other in the cavity of the shielding pipe parallel to its axis and is fixed on one side to the tank rigidly and hermetically, and on the other hand, on the flange of the shielding pipe, in the supporting wall, a first group of at least three through holes with an axis of symmetry coaxial with the axis of symmetry of the corresponding shielding pipe is made, each shielding pipe is placed in the corresponding opening of the first group, and also a second group of at least three through holes through which the corresponding nozzles for the selection of liquefied gas are passed, the flanges of all the shielding pipes are placed with a gap relative to the external th surface of the support wall.  30. A device for storing liquefied gas according to claim 29, characterized in that the open end of the recirculation pipe, and / or the open end of the pipe for the vapor phase, and / or the open end of the drain pipe, and / or the open end of the pipe of the liquefied gas inlet .  31. A device for storing liquefied gas according to claim 29, characterized in that the tank is cylindrical in shape with elliptical bottoms, and the shielding pipe is connected to a portion of the outer surface of one of them. 32. A device for storing liquefied gas according to claim 29, characterized in that the distance h between the horizontal axis of symmetry of the tank and the axis of symmetry of the shielding pipe satisfies the relation
(Dd) / h = (2.1-2.5),
where D is the inner diameter of the tank;
d is the outer diameter of the shielding pipe.  33. A device for storing liquefied gas according to claim 29, characterized in that the axis of the portions of the nozzle for the vapor phase, the nozzle of the input of the liquefied gas and the drainage nozzle located inside the shielding nozzle are in the same vertical plane of the tank, while the portion of the nozzle for the vapor phase located above the sections of other pipes.  34. A device for storing liquefied gas according to claim 29, characterized in that the embankment is made of earth and / or sand.  35. A device for storing liquefied gas according to p. 29, characterized in that the embankment is made in the form of a layer of sand covered with a grid, on top of which is a layer of earth.

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