RU2240175C1 - Method of purification from hydrocarbons of a steam-gaseous medium formed at petroleum storage and filling in containers (variants) and installation for its realization - Google Patents

Abstract

FIELD: jet devices.

SUBSTANCE: the invention is dealt with the field of jet devices and may be used in petroleum and chemical industries. The method provides for feeding by a pump of a liquid medium into a liquid-gaseous jet device, pumping-out by the latter from a container being filled in with petroleum and-or from a container used for storage of petroleum of steam-gaseous medium and its compression in the liquid-gaseous jet device at the expense of energy of the liquid medium, feeding of the mixture of a steam-gaseous and a liquid mediums formed in the liquid-gaseous jet device into a separator, separation of the mixture for a gaseous phase and a liquid medium in the separator. At that the gaseous phase from the separator is fed into an absorption column, in which as an absorbent the hydrocarbonaceous liquid is fed. In the absorption column they conduct a process of absorption by a hydrocarbonaceous liquid of hydrocarbons from the gaseous phase. Then the gaseous phase purified from hydrocarbons and the hydrocarbonaceous liquid with dissolved in it hydrocarbons of the gaseous phase are separately removed from the absorption column. At that in the capacity of the petroleum product and the hydrocarbonaceous liquid the use gasoline or kerosene and before feeding them into the absorption column the gasoline or kerosene is cooled down the temperature located in the range from minus 10°С up to minus 50°С, and the mixture of steam-gaseous and liquid mediums formed in the liquid-gaseous jet device, that is to be fed into the separator, is compressed up to pressure from 0.20 MPa up to 1.50 MPa. The invention allows to reduce losses of petroleum products and to increase efficiency of purification of the steam-gaseous medium from hydrocarbons.

EFFECT: the invention allows to reduce losses of petroleum products and to increase efficiency of purification of the steam-gaseous medium from hydrocarbons.

9 cl, 3 dwg

Description

The present invention relates to the field of inkjet technology, mainly to methods using pump-ejector units in systems for cleaning hydrocarbons from a gas-vapor medium formed during storage of an oil product and when filling a tank with it.

A known method of storage and filling of evaporating products, including the supply of liquid products by a pump to the tank and the removal from the tank of the vapors of the product fed into it (see, patent RU 2035365, class B 65 D 90/30, 05.20.1995).

From the same patent, a plant is known that contains a tank with an oil product, a pump, a jet pump, and a separator, which are successively communicated to each other.

This method and the installation of storage and filling provide for the removal of vapors of the liquid product from the tank, however, this method is quite complicated, since it requires, in addition to using the condensation system in the refrigerator with condensate to be removed to a special tank, to use the system for removing non-condensing vapors and gases (including air ) into the container from which the evaporated product is poured into the tank.

The closest to the invention in technical essence and the achieved result is a method of purification of hydrocarbons from a vapor-gas medium formed during storage of an oil product or when filling a tank with it, including pumping a liquid medium into a liquid-gas jet apparatus, pumping the latter out of a tank filled with oil, and / or a reservoir for storing an oil product of a gas-vapor medium and its compression in a liquid-gas jet device due to the energy of a liquid medium, the supply formed in a liquid-gas jet the apparatus of the mixture of vapor-gas and liquid media into the separator, separation of the mixture in the separator into the gaseous phase and the liquid medium and the withdrawal of the gaseous phase and the liquid medium from the separator, while the gaseous phase from the separator is sent to the absorption column, into which the hydrocarbon liquid is supplied as absorbent, to the absorption column carries out the process of absorption of hydrocarbons by a hydrocarbon liquid from the gaseous phase, after which the gaseous phase purified from hydrocarbons and the hydrocarbon liquid with coal dissolved in it odorodami gaseous phase separately withdrawn from the absorption column (see. RF patent 2193443, cl. B 65 D 90/30, 11/27/2002).

From the same patent, a pump-ejector installation is known for purifying a gas-vapor medium from hydrocarbons generated during storage of an oil product or filling a tank with it, containing a pump, a liquid-gas jet apparatus and a separator, while the liquid-gas jet apparatus is connected to the output of the liquid medium pump, by the input of the gas-vapor medium — to the source of this medium — the tank or reservoir with the oil product and the outlet — the liquid-gas jet device is connected to the separator, while the installation is equipped with an absorption quantity The upper part of the absorption column connected to the exit of the gaseous phase from the separator is connected to the pipeline for removing the gaseous phase purified from hydrocarbons and to the pipeline for supplying the hydrocarbon liquid with a refrigerator installed on it.

These method and installation provide compression and condensation of hydrocarbon vapors of the oil product, lower below the maximum permissible emissions (MPE) the concentration of environmentally harmful hydrocarbon vapors in the gas-vapor environment formed during storage of the oil product or filling the tank with it. However, when pumping out hydrocarbon vapors of relatively low boiling fractions, for example gasoline or kerosene, the effectiveness of this method decreases.

The problem to which the present invention is directed, is to reduce the loss of oil product and increase the efficiency of purification from hydrocarbons of the vapor-gas medium formed during storage of the oil product and filling it with capacity, by using a pump-ejector unit.

This problem is solved due to the fact that the method of purification from hydrocarbons of a vapor-gas medium generated during storage of an oil product or when filling a tank with it, includes pumping a liquid medium into a liquid-gas jet apparatus, pumping the latter out of a tank filled with oil, and / or a tank for storing the gas product of a gas-vapor medium and its compression in a liquid-gas jet apparatus due to the energy of a liquid medium, supplying a mixture of gas-vapor and liquid mediums formed in a liquid-gas jet apparatus to a separator OP, the separation in the separator of the mixture into the gaseous phase and the liquid medium and the withdrawal of the gaseous phase and the liquid medium from the separator, while the gaseous phase from the separator is sent to the absorption column, into which the hydrocarbon liquid is fed as the absorbent, the process of absorption by the hydrocarbon liquid is carried out in the absorption column hydrocarbons from the gaseous phase, after which the gaseous phase purified from hydrocarbons and the hydrocarbon liquid with the gaseous phase hydrocarbons dissolved in it are separately removed from the absorption column, while gasoline is used as a petroleum product and a hydrocarbon liquid, and before being fed into the absorption column, the gasoline is cooled to a temperature in the range from minus 10 ° C to minus 50 ° C, and the mixture of gas-vapor and liquid formed in a liquid-gas jet apparatus media, which is fed to the separator, is compressed to a pressure of from 0.20 to 1.50 MPa.

Gasoline can be supplied to the separator or to the pump inlet and at the same time liquid medium can be taken from the separator to a tank for storing oil product or a tank filled with it.

In addition, the gaseous phase after leaving the absorption column can be further cooled, in which case the condensate that is formed as a result of cooling of the gaseous phase is separated from it in an additional separator, and the gaseous phase is sent to the vortex tube from the additional separator, where the gaseous phase is separated into a cold and warm gaseous media, after which the warm gaseous medium is vented to the atmosphere, and the cold gaseous medium is sent to cool the gaseous phase after the latter leaves the absorption column.

The gaseous phase from the absorption column can be directed to a gas-dynamic separator, where the gaseous phase is cooled by acceleration and expansion to form condensate from the vapor of hydrocarbons remaining in the gaseous phase, after which the condensate is separated from the gaseous phase and removed from the gas-dynamic separator.

A hydrocarbon liquid with gaseous phase hydrocarbons dissolved in it may be supplied from the absorption column to a separator or to the pump inlet.

A hydrocarbon liquid with gaseous phase hydrocarbons dissolved in it may be supplied from the absorption column to the oil storage tank or a tank filled with it.

The second embodiment of the purification method differs from the above in that kerosene is used as an oil product and a hydrocarbon liquid and, before being fed into the absorption column, kerosene is cooled to a temperature in the range from minus 10 ° C to minus 50 ° C, and formed in liquid-gas In a jet apparatus, a mixture of vapor-gas and liquid media, which is fed to a separator, is compressed to a pressure of 0.20 to 1.50 MPa.

Kerosene can be fed into the separator or at the pump inlet and at the same time liquid medium can be removed from the separator to a tank for storing oil product or a tank filled with it.

In terms of the device as an object of the invention, the problem is solved due to the fact that the installation for cleaning hydrocarbons from a vapor-gas medium formed during storage of an oil product or when filling a container with it contains an absorption column, a pump, a liquid-gas jet apparatus and a separator with a liquid medium outlet and an outlet of the gaseous phase, while the liquid-gas jet apparatus is connected to the pump outlet by the input of the liquid medium, and the input of the gas-vapor medium to the source of this medium - the tank or reservoir with the oil product and the house is a liquid-gas jet apparatus connected to the separator, the gaseous phase exit from the separator is connected to the absorption column, the upper part of the absorption column is connected to the outlet pipe of the gaseous phase cleaned from hydrocarbons and to the hydrocarbon liquid supply pipe with a refrigerator installed on it, and the refrigerator, inlet the pump and the outlet of the liquid medium from the separator are connected to the tank being filled and / or to the tank for storing the oil product - gasoline.

The vapor-gas medium that is formed in oil storage tanks, in this case gasoline or kerosene, as well as during various filling-emptying operations with various types of oil products, consists mainly of air and hydrocarbon vapors. For example, if the petroleum product is gasoline, then the content of its vapor in the gas-vapor medium can range from 500 to 1500 g / m ³ or more. Such a significant content of hydrocarbons in a gas-vapor medium when it enters the atmosphere leads to both environmental pollution and the loss of a significant amount of marketable oil product, in this case gasoline. Therefore, the cleaning of the gas-vapor medium is an urgent task. It is necessary to prevent the ingress of hydrocarbons into the atmosphere and reduce the loss of marketable petroleum products.

The described method allows to reduce the concentration of hydrocarbons in a gas-vapor medium to a concentration below the level of their maximum permissible emissions (MPE) into the environment by pumping and compressing a gas-vapor medium using a pump-ejector installation and its subsequent cleaning. At the same time, a hydrocarbon liquid similar to that supplied to the absorption column was used as a liquid medium supplied by a pump to a liquid-gas jet apparatus for pumping a gas-vapor medium from a tank filled with oil products and / or from a tank for storing oil products. As such a liquid medium, an oil product stored in a tank or filling a tank, in particular gasoline or kerosene, which can effectively absorb hydrocarbons from a gas-vapor medium, is used.

However, a prerequisite for organizing an effective process for the absorption of hydrocarbons from a gas-vapor medium is the creation of conditions under which the hydrocarbon liquid used as an absorbent would have a saturated vapor pressure at a temperature of its supply to the absorption column, preferably significantly lower than the pressure of saturated hydrocarbon vapors in the vapor-gas medium formed when storing and pumping oil. In addition, it is necessary to achieve a significant reduction in the intrinsic evaporation of a hydrocarbon liquid during the absorption process. During the study, it was found that the most attractive from an economic point of view is to lower the temperature of the hydrocarbon liquid (gasoline or kerosene) before feeding it to the absorption column to a temperature in the range from minus 10 ° C to minus 50 ° C. At a temperature of a hydrocarbon liquid of minus 10 ° C, the required efficiency of absorption of hydrocarbons from a vapor-gas medium is not achieved, and at a temperature below minus 50 ° C, a significant increase in the energy consumption consumed by the refrigeration machine is not compensated by an increase in the absorption capacity of a hydrocarbon liquid. At the same time, an increase in the viscosity of a hydrocarbon liquid with decreasing temperature necessitates an increase in the energy consumption for its transfer and operation of the absorption column. Thus, in the above range of parameters, the required operational efficiency of the installation and minimum energy consumption are provided.

In the method described above, a multi-stage process of interaction of a pumped vapor-gas medium containing hydrocarbon vapors with a hydrocarbon liquid is organized. The first interaction takes place in a liquid-gas jet apparatus, in which a liquid medium, consisting mainly of hydrocarbon liquid, pumps out and compresses the vapor-gas medium. At the exit of the jet apparatus, a two-phase mixture is formed. During this interaction, the process of absorption of hydrocarbons from the vapor-gas medium by the liquid medium begins. The process continues until the separation of the mixture in the separator into a liquid medium and a gaseous phase, which is partially purified from hydrocarbons and compressed vapor-gas medium.

Then, the gaseous phase is sent to the absorption column, where, as a result of interaction with the cooled hydrocarbon liquid supplied to it, the process of reducing the hydrocarbon content in the gaseous phase is carried out. The organization of a countercurrent system for the movement of the gaseous phase and the hydrocarbon liquid in the absorption column creates conditions more favorable for absorption under which the gaseous phase interacts with the colder hydrocarbon liquid. This allows you to significantly reduce the concentration of hydrocarbons in the gaseous phase being cleaned by this method compared with their concentration in the vapor-gas medium. The supply of part of the liquid medium from the separator to the pump inlet allows you to organize a circuit for its circulation: separator - pump - liquid-gas jet apparatus - separator, which reduces the flow of fresh liquid medium supplied to the unit from the outside. The supply of hydrocarbon liquid from the absorption column to the separator or to the pump inlet allows you to organize the process of updating the liquid medium supplied to the jet apparatus. The process of updating the liquid medium can be carried out by supplying an oil product (gasoline or kerosene) to the separator or to the inlet of the pump. Since hydrocarbons from the vapor-gas medium pass into the liquid medium during operation, it is advisable to discharge it from the unit, for example, to a tank for storing oil products or to a filled tank.

As already noted, during the compression of the gas-vapor medium, it is possible to absorb hydrocarbons harmful to the environment. It is important to note that the absorption process, or, in other words, the absorption process, which is understood as the process of gas dissolution in a liquid medium, can reduce the energy consumption for compressing a gas-vapor medium containing hydrocarbons. This is achieved due to the fact that two independent processes are already involved in the compression and transportation of the gas-vapor mixture to the separator - mechanical compression due to the kinetic energy of the liquid jet and gas dissolution in the liquid medium, and this process intensifies with increasing pressure in the flow part of the jet apparatus and in the pipeline for the flow part of the jet apparatus. The removal of a part of the liquid medium from its circulation circuit and the supply of fresh liquid makes it possible to stabilize the composition of the liquid medium — the sorbent of hydrocarbon vapors, which is fed to the nozzle of the liquid-gas jet apparatus. Due to this, a more stable operation of the inkjet apparatus is ensured and at the same time the absorption capacity of the liquid medium is maintained.

As a result, it was possible to ensure the balanced operation of the liquid-gas jet apparatus and to clean the gaseous phase released into the environment from the hydrocarbon absorption column without causing the last harm.

If the gaseous phase contains a large percentage of hydrocarbons, it is advisable to carry out additional purification using a vortex tube or gas-dynamic separator for additional cooling of the gaseous phase and the separation of hydrocarbon condensate and other impurities from it.

Figure 1 presents a schematic diagram of an installation in which the described method of purification of hydrocarbons from a vapor-gas medium formed during storage of an oil product or filling a tank with it is carried out; figure 2 is an embodiment of the installation with a vortex tube; figure 3 is an embodiment of the installation with a gas-dynamic separator.

The installation comprises a pump 1, a liquid-gas jet apparatus 2, a separator 3, and an absorption column 4. A liquid-gas jet apparatus 2 is connected by an inlet of a liquid medium to an outlet of a pump 1 and an inlet of a gas-vapor medium, by means of a pipe 20, to a source of this medium - a tank with an oil product for example, a tank 5 for storing oil product and / or tank 6, for example a tank filled with oil (gasoline or kerosene) through a pipeline 7. The liquid-gas jet apparatus 2 is connected to the separator 3. The liquid medium and separator 3 can be connected to the inlet to pump 1. As a result, a fluid circulation loop is formed, which is a sequential movement of the liquid medium from pump 1 to the liquid-gas jet apparatus 2, then from it to the separator 3 and from the latter to the pump inlet 1 .

The absorption column 4 is connected from the input side of the gaseous phase to the outlet of the latter from the separator 3. In this case, the absorption column 4 can be located above the liquid level in the separator 3. The upper part of the absorption column 4 is connected to the outlet pipe 8, for example, to the environment purified from hydrocarbons of the gaseous phase and to the pipeline 9 for supplying a hydrocarbon liquid (gasoline or kerosene cooled by the refrigerator 10), depending on which of these petroleum products is stored in the tank 5 or fill the tank 6). In the described embodiment of the installation, the absorption column 4 is communicated with its lower part to the separator 3 by means of a pipe 11. In this case, it is possible to discharge from the absorption column 4 a hydrocarbon liquid with hydrocarbons dissolved in it not only to the separator 3, but also to other points of the liquid medium circulation loop, for example, to the pump 1 from the side of the inlet of the liquid medium from the separator 3 or into the tank 5 for storing oil product or tank 6.

The installation can be equipped with a heat exchanger-refrigerator 12 to stabilize the temperature of the liquid medium in the installation. The removal of the liquid medium from the separator 3 into the reservoir for storing oil 5 or the filled tank 6 is carried out using a pipe 13.

The installation is equipped with a pipeline 14, through which the oil product (gasoline or kerosene) enters the separator 3 and / or at the inlet of the pump 1.

The installation can be equipped (see Fig. 2) with an additional refrigerator-heat exchanger 15, an additional separator 16 and a vortex tube 17. In an additional separator 16, condensate precipitated during cooling of the gaseous phase is separated from the gaseous phase, and in the vortex tube 17 the gaseous phase is divided into cold and warm gas environments. The cold gaseous medium is sent to an additional refrigerator-heat exchanger 15 for cooling the gaseous phase after the latter leaves the absorption column 4.

The installation can be equipped (see Fig. 3) with a gas-dynamic separator 18 designed to accelerate and expand the gaseous phase with the formation of hydrocarbon vapor in its condensate stream, after which the condensate is separated from the gaseous phase in the dynamic separator 19 and removed from the gas-dynamic separator 18.

When storing oil in the tank 5, as a result of large and small breathing gases, as well as when filling with oil through the pipeline 7 of the tank 6, a vapor-gas medium containing a large amount of hydrocarbons is formed. To organize the process of purification of hydrocarbons from a gas-vapor medium, a pump 1 delivers a liquid medium under pressure into the nozzle of a liquid-gas jet apparatus 2 and pumps out the gas-vapor medium, the last through pipelines 20, from a tank 6 filled with oil and / or a tank 5 for storing oil. Thus, it is possible to pump out the gas-vapor medium both individually from the tank 6 filled with oil or from the tank 5, and simultaneously from the tank 6 and the tank 5, and during the pumping process they can be connected or disconnected. In the liquid-gas jet apparatus 2, the vapor-gas medium is compressed due to the energy of the liquid medium and partially absorbed. Formed in a liquid-gas jet apparatus 2, a mixture of vapor-gas and liquid media is fed to a separator 3. In the latter, the mixture received in it is separated into a gaseous phase and a liquid medium. From the separator 3, a part of the liquid medium can be fed to the inlet of the pump 1, which allows you to form a circulation loop of the liquid medium. In the separator 3 and / or the inlet of the pump 1 serves through the pipeline 14 oil (gasoline or kerosene). At the same time, excess liquid medium is discharged from the separator 3 through a pipe 13, for example, into a tank 5 or a tank 6 filled with oil. To stabilize the temperature of the liquid medium, refrigerators 12 installed in the liquid medium circulation circuit or in the oil supply pipe to the unit can be used.

Another parameter that should be taken into account is the amount of compression of the vapor-gas medium in the liquid-gas jet apparatus 2. It is advisable to compress the vapor-gas medium in the pressure range from 0.20 to 1.50 MPa. Compression of the vapor-gas medium in the liquid-gas jet apparatus 2 below a pressure of 0.20 MPa allows to reduce the energy consumption for the operation of the liquid-gas jet apparatus 2, but the efficiency of the absorption process is reduced, which, in turn, leads to an increase in the energy consumption for cooling hydrocarbon liquid supplied to the absorption column. Compression of a gas-vapor mixture in a liquid-gas jet apparatus 2 above a pressure of 1.5 MPa intensifies the process of absorption of hydrocarbons from a gas-vapor medium, but at the same time, the energy costs for ensuring the operation of a liquid-gas jet apparatus 2, which are not covered by the gain from intensification of the absorption process, increase significantly liquid-gas jet apparatus 2. As you can see, the operating parameters of the liquid-gas jet apparatus 2 and the refrigerator 10 are interconnected. In the above range of parameters, the required operational efficiency of the installation is ensured with minimal energy consumption.

The gaseous phase from the separator 3 is sent to an absorption column 4 into which a hydrocarbon liquid is supplied as an absorbent. In the absorption column 4, the process of absorption of hydrocarbons by the hydrocarbon liquid from the gaseous phase is carried out, after which the gaseous phase purified from the hydrocarbons and the hydrocarbon liquid with the hydrocarbons dissolved therein are separately removed from the absorption column 4. Gasoline or kerosene is used as the hydrocarbon liquid. Before serving in the absorption column 4, the hydrocarbon liquid is cooled using a refrigerator 10 to a temperature in the range from minus 10 ° C to minus 50 ° C.

In addition, the gaseous phase after leaving the absorption column can be further cooled in an additional refrigerator-heat exchanger 15, and then condensate, which is formed as a result of additional cooling of the gaseous phase, is separated from it in an additional separator 16. From the additional separator 16, the gaseous phase is sent to the vortex tube 17, where the gaseous phase is divided into cold and warm gas environments. The warm gaseous medium is removed from the vortex tube, and the cold gaseous medium is sent to cool the gaseous phase into an additional cooler-heat exchanger 15.

The gaseous phase from the absorption column 4 can be directed to the gas-dynamic separator 18, where the gaseous phase is cooled due to its expansion and acceleration to form hydrocarbon vapor from the remaining vapor in the gaseous phase, after which the condensate is separated from the gaseous phase in the dynamic separator 19 and removed from the gas-dynamic separator 18.

This method of purification of hydrocarbons from a vapor-gas medium formed during the storage of petroleum products and filling them with a tank can be used in chemical, petrochemical and other industries.

Claims (9)

1. A method of purification of hydrocarbons from a vapor-gas medium generated during storage of an oil product or when it is filled with a tank, comprising pumping a liquid medium into a liquid-gas jet apparatus, pumping the latter from a tank filled with oil, and / or a tank for storing a gas-oil medium and its compression in the liquid-gas jet apparatus due to the energy of the liquid medium, feeding the mixture of gas-vapor and liquid media formed in the liquid-gas jet apparatus to the separator, separation of the mixture in ha on the ha the typical phase and the liquid medium and the withdrawal of the gaseous phase and the liquid medium from the separator, while the gaseous phase from the separator is sent to the absorption column, into which the hydrocarbon liquid is supplied as an absorbent, the process of absorption of hydrocarbons from the gaseous phase by the hydrocarbon liquid is carried out in the absorption column, after which the gaseous phase purified from hydrocarbons and the hydrocarbon liquid with the gaseous phase hydrocarbons dissolved in it are separately removed from the absorption column, which differs that gasoline is used as a petroleum product and a hydrocarbon liquid and, before being fed into the absorption column, gasoline is cooled to a temperature in the range from minus 10 ° C to minus 50 ° C, and the mixture of vapor-gas and liquid media formed in a liquid-gas jet device, which served in a separator, compressed to a pressure of 0.20-1.50 MPa. 2. The method according to claim 1, characterized in that gasoline is supplied to the separator or to the pump inlet and at the same time liquid medium is removed from the separator into the oil storage tank or a tank filled with it. 3. The method according to claim 1, characterized in that the gaseous phase after leaving the absorption column is further cooled, condensate is formed in an additional separator from it, which was formed as a result of cooling of the gaseous phase, and from the additional separator the gaseous phase is directed into a vortex tube, where the gaseous phase is separated into cold and warm gaseous media, after which the warm gaseous medium is vented to the atmosphere, and the cold gaseous medium is sent to cool the gaseous phase after the latter has left the absorption onnoy column. 4. The method according to claim 1, characterized in that the gaseous phase from the absorption column is sent to a gas-dynamic separator, where the gaseous phase is cooled due to its acceleration and expansion to form condensate from the remaining hydrocarbon vapor in the gas stream, after which the condensate is separated from gaseous phase and removed from the gas-dynamic separator. 5. The method according to claim 1, characterized in that the hydrocarbon liquid with the gaseous phase hydrocarbons dissolved in it is supplied from the absorption column to a separator or to the pump inlet. 6. The method according to claim 1, characterized in that the hydrocarbon liquid with the gaseous phase hydrocarbons dissolved in it is supplied from the absorption column to the oil storage tank or a tank filled with it. 7. A method of purification of hydrocarbons from a vapor-gas medium generated during storage of an oil product or when filling a tank with it, comprising pumping a liquid medium into a liquid-gas jet apparatus, pumping the latter from a tank filled with oil, and / or a tank for storing a gas-oil medium and its compression in the liquid-gas jet apparatus due to the energy of the liquid medium, feeding the mixture of gas-vapor and liquid media formed in the liquid-gas jet apparatus to the separator, separation of the mixture in ha on the ha the typical phase and the liquid medium and the withdrawal of the gaseous phase and the liquid medium from the separator, while the gaseous phase from the separator is sent to the absorption column, into which the hydrocarbon liquid is supplied as an absorbent, the process of absorption of hydrocarbons from the gaseous phase by the hydrocarbon liquid is carried out in the absorption column, after which the gaseous phase purified from hydrocarbons and the hydrocarbon liquid with the gaseous phase hydrocarbons dissolved in it are separately removed from the absorption column, characterized by m, that kerosene is used as a petroleum product and a hydrocarbon liquid, and before being fed into the absorption column, kerosene is cooled to a temperature in the range from minus 10 ° C to minus 50 ° C, and a mixture of vapor-gas and liquid media formed in a liquid-gas jet apparatus which is fed to the separator, is compressed to a pressure of 0.20-1.50 MPa. 8. The method according to claim 7, characterized in that kerosene is supplied to the separator or to the pump inlet and at the same time liquid medium is removed from the separator into the oil storage tank or a tank filled with it. 9. Installation for cleaning hydrocarbons from a vapor-gas medium generated during storage of an oil product or when filling a container with it, containing an absorption column, a pump, a liquid-gas jet apparatus and a separator with a liquid medium outlet and a gaseous phase exit, and a liquid-gas jet apparatus with a liquid inlet the medium is connected to the outlet of the pump, the input of the gas-vapor medium is connected to the source of this medium - a tank or reservoir with oil - and the output of the liquid-gas jet device is connected to the separator, the gas outlet of different phases from the separator is connected to the absorption column, the upper part of the absorption column is connected to the outlet pipe of the gaseous phase purified from hydrocarbons and to the hydrocarbon liquid supply pipe with a refrigerator installed on it, characterized in that the refrigerator, the pump inlet and the liquid medium exit from the separator are connected to filled tank and / or to the tank for storing oil - gasoline.

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