RU45291U1 - PLANT FOR CLEANING A HYDROCARBON MIXTURE FROM HYDROGEN HYDROGEN - Google Patents

Abstract

A useful model may find application in the oil industry in the field preparation of oil and gas. The essence of the utility model: The installation includes an inlet separator 1, an outlet separator 2, a venturi scrubber 3, a pump 4, tanks 5. 6 for absorption and waste liquid. Heated in the device 15 to 50 ° C. The initial mixture at the entrance to the tangential pipe 8 is mixed in an ejector with a blow-off gas with the release of hydrogen sulfide, and then enters the separator 1, where it is separated into oil and gas with hydrogen sulfide. Oil is discharged through a slot diffuser 11 and a pipe 10, and gas with hydrogen sulfide enters the scrubber 3, where the absorption liquid cooled in the tank 5 is pumped. Here, the gas is purified from hydrogen sulfide by absorption. From the scrubber 3, the mixture of the absorption liquid saturated with hydrogen sulfide and gases enters the separator 2, where they are separated. The liquid flows through the lower edges of the openings 19 in the separator 2 into the container 5, and the gases through the upper parts of the openings 19 flow through a pipeline to the flare.

Description

The utility model relates to devices for purifying oil and associated gas from hydrogen sulfide and can be used in the oil industry for field preparation of oil and gas.

A known installation for cleaning a hydrocarbon mixture from hydrogen sulfide, containing an inlet separator, a plate or nozzle type absorber, a scrubber, heat exchange equipment, a stripper, pumps (see K. S. Kasparyants “Oil and gas field preparation” because of “Nedra”, M . 1973 p. 251).

The hydrocarbon mixture is separated into oil and gas in the inlet separator. Then the gas enters the lower part of the adsorber and, rising up, comes into contact with the absorption liquid. The purified gas then enters the scrubber and heat exchange equipment, and then goes to the stripper.

However, the known installation has a low productivity (gas throughput), because with increasing speed there is a large ablation of the absorption liquid. Installation is cumbersome: has a complex hardware design and a lot of weight.

From the patent of the Russian Federation for utility model No. 21356, IPC B 01 D 53/02, publ. 01/20/2002, the installation is known, including inlet and outlet separators, a pump, an absorber in the form of a Venturi scrubber, containers for absorbing and waste liquid. The nozzle of the scrubber is connected to the discharge pipe of the pump, the suction pipe of which is connected to the capacity for the absorption liquid. The scrubber gas inlet is connected to the gas outlet pipe from the inlet separator, and the other scrubber nozzle-diffuser is connected to the outlet separator, the lower nozzle of which is connected to the waste liquid tank, and the upper one - to the gas supply pipe to the torch.

A disadvantage of the known installation is the low separation efficiency and hydraulic losses, especially in the inlet separator, in

which for pumping oil, it is necessary to use an additional booster pump.

The proposed utility model solves the problem of increasing the efficiency and economy of the installation by reducing hydraulic losses and eliminating the need for additional equipment.

To achieve the named technical result, the proposed installation for cleaning a hydrocarbon mixture from hydrogen sulfide, including, like the closest known separator, inlet and outlet separators, a pump, containers for absorption and waste liquid, an absorber in the form of a Venturi scrubber, the gas inlet fitting of which is connected to the outlet pipe of the gas from the outlet separator, the outlet nozzle-diffuser is connected to the outlet separator in communication with the tank for the spent liquid and the gas supply pipe to the torch, and the force The scrubber casing is connected to the discharge pipe of the pump, the suction pipe of which is connected to the capacity for the absorption liquid.

In contrast to the known one, the proposed installation uses a centrifugal gas-liquid separator as an inlet separator, comprising a cylindrical body with a tangential inlet pipe in the upper part, a central gas outlet pipe and an oil outlet pipe connected to the lower part of the body, made in the form of a slotted diffuser narrowing expanding in the direction of the fluid, while the inlet pipe is made with the possibility of connecting to the supply line of the blow-off gas, and in front of it there is a heating device and the supplied oil and gas mixture.

The use of a centrifugal separator ensures the effective separation of the hydrocarbon mixture into oil and gas and the effective removal of hydrogen sulfide from oil.

The slit diffuser ensures the preservation of hydraulic losses in the oil flow, which leaves the separator with high pressure. This increases the efficiency of the installation as a whole, as oil transfer does not require a transfer pump.

The tangential inlet of the centrifugal separator can be made in the form of an ejector.

In this case, a supply of hydrogen sulfide-free stripping gas is provided to the initial hydrocarbon mixture.

Also new is the design of the centrifugal separator body with perforations and the coaxial placement around the housing of the casing with a pipe for connecting to the blow-off gas supply line.

This increases the degree of degassing in the separator.

In addition, the outlet separator is located above the waste liquid tank, radial overflow openings are made in the separator body at the level of the spent liquid, and the Venturi scrubber is mounted above the outlet separator and faces the outlet nozzle-diffuser downward, the latter being located inside the separator and located below the level of the spent liquid .

This design ensures efficient operation of the scrubber by creating sufficient vacuum in the suction pipe.

Heat exchangers are installed in the tanks for waste and absorption liquid.

This increases the absorption of hydrogen sulfide in the scrubber.

A centrifugal type separator can be used as an output separator.

This leads to a further increase in gas separation efficiency.

Figure 1 shows the General scheme of the installation for the purification of a hydrocarbon mixture from hydrogen sulfide.

Figure 2 shows a drawing of the inlet centrifugal separator, (section).

Figure 3 shows a section aa in figure 2.

Figure 4 shows the installation diagram with centrifugal inlet and outlet separators.

Installation for cleaning a hydrocarbon mixture from hydrogen sulfide contains an inlet centrifugal separator 1, an output gas separator 2, an adsorber in

in the form of a Venturi scrubber 3, pump 4, capacity 5 for absorption liquid, capacity 6 for waste liquid.

The separator 1 consists of a cylindrical body 7 with a tangential inlet pipe 8 in the upper part, a central gas outlet pipe 9 and an oil outlet pipe 10, which is connected to the lower part of the housing 7, made in the form of a slit diffuser 11, narrowing-expanding along the fluid.

Using pipelines, the nozzle 12 of the scrubber 3 is connected to the discharge nozzle of the pump 4, the suction nozzle of the pump 4 is connected with a capacity of 5, the nozzle 13 of the gas inlet of the scrubber 3 is connected to the nozzle 9 of the gas outlet from the separator 1, and the other nozzle 14 is a diffuser of the scrubber with an output separator 2, the lower fitting of which is connected to the tank 6, and the upper one - with the gas supply pipe to the torch.

The inlet pipe 8 of the separator 1 is made with the possibility of its connection to the supply line of the gas blowing. In front of the pipe 8, a device 15 for heating the supplied hydrocarbon mixture is installed.

The inlet pipe 8 can be made in the form of an ejector.

The Venturi scrubber 3 is installed vertically above the separator 2, facing the outlet pipe 14 — the diffuser down, with the slice of the diffuser below the level of the spent liquid in the separator 2.

Figure 2, 3 shows an embodiment of the inlet separator 1 with a housing, which is provided with perforations 16. Around the housing is a coaxially housed casing 17 with a pipe 18 for connection to a blow gas supply line.

The separator 2 is located above the tank 6, and in its body at the level of the spent fluid made radial overflow holes 19.

Tanks 5. 6 are equipped with heat exchangers 20, 21.

Figure 4 shows an embodiment of the installation using a centrifugal type as an output separator 2.

A device for cleaning a hydrocarbon mixture from hydrogen sulfide works as follows.

The initial mixture containing hydrogen sulfide passes through a heat exchanger 15, acquires a temperature of at least 50 ° C and enters the tangential pipe 8 of the inlet centrifugal separator 1. At the same time, an additional blow-off gas not containing hydrogen sulfide is fed to the inlet. Stripping gas and the initial mixture are mixed in front of the tangential pipe 8 in the ejector, and so on. the tangential pipe 8 receives a hydrocarbon mixture with a low partial pressure of hydrogen sulfide in the gas phase. Therefore, hydrogen sulfide is released from the liquid phase and enters the gas phase. Thus, the oil is purified from hydrogen sulfide already before entering the tangential pipe 8.

In the cylindrical chamber 7 of the inlet separator 1 under the action of centrifugal forces, the liquid and gas phases are separated. In this case, the gas phase, including hydrogen sulfide released from the oil, is collected in the central region of the separator 1, and the liquid phase (oil) purified from hydrogen sulfide is collected at the periphery.

The oil, purified from hydrogen sulfide, enters the slot diffuser 11, where it first passes through a narrowing section, on which there is a decrease in the positive pressure gradient in the direction of fluid movement (which eliminates separation of the oil flow).

Thanks to the effective operation of the slot diffuser, two beneficial effects are achieved: firstly, the oil purified from hydrogen sulfide and other gases leaves the separator with a sufficiently high braking pressure and therefore a booster pump is not required for pumping it; secondly, a reduced pressure (vacuum) is established in the central region of the centrifugal separator, which contributes to a more complete release of hydrogen sulfide from oil.

The supply of stripping gas to the initial oil and gas mixture can be made not using an ejector, but through the holes 16 in the cylindrical wall of the centrifugal separator 1 (figure 2). In this case, the stripping gas is supplied into the annular space between the housing 7 and the casing 17. In this case, the initial hydrocarbon mixture enters directly into the tangential

pipe 8, which reduces the loss of braking pressure by the amount of losses in the ejector.

This option of supplying a blow-off gas is preferable if it is of particular importance to reduce the loss of braking pressure in the oil flow.

To maintain a vacuum in the central region of the inlet centrifugal separator 1, it is necessary to constantly remove the gas released in the separator from the oil and gas mixture. For this, the gas outlet pipe 9 from the separator 1 is connected to the suction fitting 13 of the gas inlet to the venturi absorber-scrubber 3. The vacuum in this fitting is created due to the kinetic energy of the active absorption liquid flow supplied to the nozzle 12 using the injection pump 4. The absorption liquid enters the pump 4 from the tank 5, and this liquid is cooled in the heat exchanger 20. At a reduced temperature, the liquid absorbs hydrogen sulfide from the gas in the scrubber 3.

As the absorption liquid, water or an organic liquid without chemical reagents can be used.

Thus, in a Venturi scrubber by absorption by an absorbing liquid, hydrogen sulfide is removed from the gas entering it from the inlet separator 1.

A mixture of liquid saturated with hydrogen sulfide and gases after leaving the absorber-scrubber 3 Venturi fills the separator 2.

The movement of the gas-liquid medium in the separator occurs at a low speed, therefore, under the action of gravity, the liquid is separated with hydrogen sulfide and gases dissolved in it. The liquid flows through the lower edge of the holes 19, and the gases through their upper part.

The separator 2 can be made in the form of a centrifugal separator, in which the separation of liquid and gas occurs in the field of centrifugal forces. In this case, the venturi scrubber output is always filled with liquid, which ensures its effective operation.

Claims (6)

1. Installation for cleaning a hydrocarbon mixture from hydrogen sulfide, including inlet and outlet separators, a pump, containers for absorption and waste liquid, an absorber in the form of a Venturi scrubber, the gas inlet fitting of which is connected to the gas outlet pipe from the output separator, the outlet pipe - diffuser is connected to an output separator in communication with the spent liquid tank and the gas supply pipe to the torch, and the scrubber nozzle is connected to the discharge pipe of the pump, the suction pipe of which is connected to the tank для for an absorption liquid, characterized in that a centrifugal gas-liquid separator is used as an inlet separator, comprising a cylindrical body with a tangential inlet pipe in the upper part, a central gas outlet pipe and an oil outlet pipe connected to the lower part of the body, made in the form of a slot diffuser, tapering-expanding in the direction of movement of the fluid, while the inlet pipe is made with the possibility of its connection to the supply line of the blowing gas, and in front of the pipe is installed oystvo heating oil and gas mixture feed. 2. Installation according to claim 1, characterized in that the tangential inlet pipe is made in the form of an ejector. 3. Installation according to claim 1, characterized in that the centrifugal separator body is perforated and provided with a coaxially located casing with a nozzle for supplying blow-off gas. 4. Installation according to claim 1, characterized in that the output separator is located above the waste liquid tank, and radial overflow openings are made in the separator casing at the level of the spent liquid, while the Venturi scrubber is mounted above the output separator and faces the outlet diffuser downward, the latter is located inside the outlet separator and its slice is below the level of the spent liquid. 5. Installation according to claim 1, characterized in that heat exchangers are installed in containers for waste and absorption liquid. 6. Installation according to claim 1, characterized in that a centrifugal type separator is used as an output separator.