RU2622298C1 - Oil and gas separator - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: oil and gas separator contains a tank with a branch pipe for the supply of oil and gas mixture and branch pipes for the removal of oil and gas fractions and installed drain boards inside the tank, designed to separate gas from the oil and gas mixture. In this case, the drain boards are provided with channels of variable cross-section which are formed by separating walls arranged on the drain boards in the direction of the oil and gas mixture supply to the tank.

EFFECT: increased level of separation by the intensification of the gas separating process from the oil and gas mixture, increased mixture residence time in the drain boards without changing their size.

3 cl, 5 dwg

Description

The claimed technical solution relates to devices for the separation of crude oil into oil and gas fractions and can be used in the oil and gas industry in the preparation of oil and gas in the fields and in the oil and gas processing industry as part of various plants.

A device for separating a gas-oil mixture containing a tank equipped with fittings for supplying a gas-oil mixture and separate drainage of oil and gas, inclined drain shelves placed in the tank, which are provided with perforated plates in the lower part (USSR author's certificate No. 780849, published on 11.23.1980) .

Known oil and gas separator, including a horizontal tank with inlet and outlet nozzles of well products, inside which there is a partition separating it into two parts, and a drain shelf for the separation of gas and oil (RF patent No. 2250128, publ. March 27, 2004).

Known oil and gas separator, which includes a tank, the inlet of the oil and gas mixture, the gas outlet fitting, the oil outlet fitting, a switchgear, drain shelves, the bottoms of which are made of perforated sheet or metal mesh (RF patent No. 544526, publ. 10.07.2006).

A disadvantage of the known technical solutions is the low separation efficiency due to the low degree of separation due to the short residence time of the oil and gas mixture on the drain shelves, due to which there is a separation into liquid and gas fractions.

The closest device of the same purpose to the claimed invention is an oil and gas separator, including a tank with a nozzle for supplying oil and gas mixtures and nozzles for removing oil and gas fractions, drain shelves installed inside the tank, designed to separate gas from the oil and gas mixture (USSR copyright certificate No. 1247040, publ. 30.07 .1986). To increase the residence time of the oil and gas mixture on the drain shelves, the latter are made transversely corrugated, and the protrusions and troughs of the corrugations are formed by mating arcs of the same radius.

A disadvantage of the known device adopted for the prototype is the average degree of separation due to incomplete gas evolution from the oil and gas mixture.

The technical result of the claimed technical solution is to increase the degree of separation by intensifying the process of gas evolution from the oil and gas mixture, as well as increasing the residence time of the mixture on the drain shelves without changing their size.

The specified technical result is achieved in that in the oil and gas separator, including a tank with a nozzle for supplying oil and gas mixtures and nozzles for removing oil and gas fractions, drain shelves installed inside the tank for separating gas from the oil and gas mixture, according to the invention, the drain shelves are provided with channels of variable cross section, which are formed by means of partitions placed on drain shelves in the direction of supplying the oil and gas mixture to the tank.

In addition, the channels of variable cross section are formed from corrugated partitions in such a way as to provide a cyclically variable cross section of the channels throughout the movement of the oil and gas mixture along the drain shelves.

In addition, the channels on the drain shelves are placed at an angle to the original direction of movement of the oil and gas mixture in the tank.

This embodiment of the oil and gas separator allows for the intensive release of gas from the oil and gas mixture, while ensuring the maximum degree of separation without increasing the size of the drain shelves and the dimensions of the oil and gas separator.

An analysis of the patent and scientific and technical literature by the applicant showed that the proposed combination of essential, including distinctive, features of the claimed technical solution was not found in known sources of information, therefore, the known technical solutions do not exhibit the same properties as the claimed oil and gas separator.

The invention is illustrated by drawings. In FIG. 1 shows a General view of the proposed oil and gas separator, in FIG. 2 is a view A in FIG. 1 (option 1), in FIG. 3 is a view A in FIG. 1 (option 2), in FIG. 4 is a diagram of flow velocity ν and pressure p of an oil and gas mixture along a channel of variable cross section of the proposed oil and gas separator, FIG. 5 shows the placement of channels of variable cross-section on adjacent drain shelves, a top view.

The oil and gas separator includes a horizontal tank 1, equipped with a pipe 2 for supplying an oil and gas mixture, a pipe 3 for exhausting gas and a pipe 4 for oil output. Inside the tank 1, the upper drain shelves 5 and the lower drain shelves 6 are installed, designed to separate associated gas from the oil and gas mixture. Structurally, the drain upper and lower shelves 5 and 6 are made similarly and are a set of adjacent shelves installed in steps and thus forming a similarity to an inclined surface.

The drain shelves 5 and 6 are provided with channels 7, which are formed by partitions 8. The partitions 8 are mounted on the upper surface of the drain shelves 5 and 6, for example, by welding in the direction of movement of the oil and gas mixture in tank 1 or at an angle α to the original direction of movement of the oil and gas mixture in the tank, which is carried out by the switchgear 9, installed inside the tank 1 near the nozzle 2.

To ensure a cyclically variable section of the channels 7, the partitions 8 are corrugated, for example, with a triangular (Fig. 2), round (Fig. 3) or sinusoidal (not shown) corrugation shape in plan. In this case, any available geometric shapes of the corrugations of the partitions are possible 8. The shape of the corrugations of the partitions 8 is selected constructively and it determines the nature of the change in the flow velocity ν and pressure p in the oil and gas mixture.

To change the direction of movement of the oil and gas mixture, first on the upper shelves 5, and then on the lower shelves 6 in the tank 1, a switchgear 10 is installed, which allows you to change the direction of movement of the oil and gas mixture in the tank by 180 °. To increase the residence time of the oil and gas mixture on the drain shelves 5 and 6, the angle α of the channels 7 can be changed to the opposite value -α, as shown in FIG. 5. In this case, the direction of flow of the oil and gas mixture when moving along shelves 5 and 6 will also cyclically change.

In addition, the tank 1 can be equipped with various elements that are necessary to ensure the full functioning of the oil and gas separator, for example, drop eliminators, fittings and couplings for connecting technological signaling and automation devices to control the parameters and operating modes of the device, and others (not shown conditionally).

Oil and gas separator works as follows.

The oil and gas mixture (production of wells) enters through the pipe 2 into the internal cavity of the tank 1 and is fed through the distribution device 9 to the upper drain shelves 5 provided with channels 7 formed by corrugated partitions 8, due to which the channels 7 are cyclically variable in the direction of flow of the flowing oil and gas mixture section. To increase the time and length of the drainage of the oil and gas mixture through the drain shelves by means of a distributor 10, the direction of the mixture flow along the shelves 5 in the tank 1 is changed by 180 °, i.e., on the shelves 6, the direction of the oil and gas mixture flow is reversed. In addition, the alternating change in the direction of the channels 7 along adjacent drain shelves 5 (6) by an angle α (-α) also allows you to increase the duration and length of the process of draining the oil and gas mixture through the drain shelves 5 and 6 inside the tank 1.

Due to the implementation of channels 7 with a cyclically variable cross-section using corrugated partitions 8, the nature of the flow of the oil and gas mixture will be determined by the specific geometric shape of the corrugation of the partitions 8. In particular, in FIG. 4 shows diagrams of velocities ν and pressure p in the oil and gas mixture for a channel with a cross section of a triangular profile. In accordance with Bernoulli’s law, in sections with a higher flow rate, the pressure in the oil and gas mixture decreases, which leads to accelerated growth of gas bubbles due to diffusion and the unification of small gas bubbles into larger ones. As a result, due to the force of Archimedes, there is a more rapid rise of gas bubbles on the free surface of the mixture and the subsequent free movement of the released gas. In cross sections with a low flow rate, the pressure in the oil and gas mixture increases, which leads to the fragmentation of non-surfaced gas bubbles into smaller ones, which become new nuclei for subsequent growth in cross sections with low pressures (high velocities).

This process is cyclically repeated during the movement of the oil and gas mixture flow through channels 7 on the drain shelves 5 and 6, intensifying the complete process of gas and oil separation.

The released gas is discharged through the pipe 3, and the oil freed from the gas is discharged through the pipe 4.

Thus, the use of the proposed oil and gas separator can increase the degree of separation by intensifying the process of gas evolution from the oil and gas mixture, as well as increasing the residence time of the mixture on the drain shelves without changing their size.

Based on the proposed oil and gas separator, it is possible to carry out in a short time a simple modernization of oil and gas separators produced by the domestic industry, for example, NGS type according to TU 3615-001-85873787-210.

Claims (3)

1. Oil and gas separator, including a tank with a nozzle for supplying oil and gas mixtures and branch pipes for extracting oil and gas fractions, drain shelves installed inside the tank for separating gas from the oil and gas mixture, characterized in that the drain shelves are provided with channels of variable cross section, which are formed by partitions placed on drain shelves in the direction of supply of the oil and gas mixture to the tank. 2. The oil and gas separator according to claim 1, characterized in that the channels of variable cross-section are formed from corrugated partitions in such a way as to provide a cyclically variable cross-section of the channels throughout the entire movement of the oil and gas mixture along the drain shelves. 3. The oil and gas separator according to claim 1 or 2, characterized in that the channels on the drain shelves are placed at an angle to the original direction of movement of the oil and gas mixture in the tank.

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