RU2699910C1 - Unit for deethanization of main gas with production of lng (versions) - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to low-temperature dephlegmation units with rectification and can be used in gas industry for extraction of hydrocarbons C₂₊ from main natural gas. Disclosed group of inventions includes versions of main gas deethanization units with production of LNG. Deethanization unit of main gas to produce LNG, equipped with high and low pressure gas lines, includes drying unit, recuperative heat exchanger, expanders connected to compressor by means of kinematic or electrical connection, a refluxer with a reflux line connected by a reflux gas feed line equipped with an expander and a low-pressure gas supply line with a separator which is equipped with methane-containing gas feed lines from the fractionation unit and a wide fraction of light hydrocarbons to the fractionation unit, wherein as a separator a demethanizer is installed, connected to the refluxer by a reflux feed line with a reducing device, equipped with an output line LNG located below the dephlegmation gas supply line abutment, wherein the wide hydrocarbon light fraction feed line is connected to the cooling unit located on the bypass heat exchanger line and equipped with the compressor, and the supply line of the wide fraction of light hydrocarbons after the cooling unit is connected to the demethanizer.

EFFECT: high output of hydrocarbons C₂₊ due to reduction of high-pressure gas temperature by arrangement of additional cooling unit and expansion of products range due to installation of demethanizer with LNG output line.

2 cl, 2 dwg

Description

The invention relates to cryogenic technology and can be used in the gas industry to produce C ₂₊ hydrocarbons and liquefied natural gas (LNG) from main gas.

Known installation of integrated gas treatment [RU 2624710, publ. 07/05/2017, IPC F25J 3/00, С07С 7/00, C10G 5/06], including an inlet separator, two recuperation heat exchangers, a reflux condenser, reducing devices, a low-temperature separation unit, and a stabilization unit.

The disadvantage of this installation is the low yield of C ₂₊ hydrocarbons and the inability to produce LNG.

Closest to the proposed invention, a device for deethanization of natural gas (options) [RU 2668896, publ. October 4, 2018, IPC C10G 5/06, F25J 3/00, B01D 53/48], which includes, in one embodiment, a drying unit, a compressor, a refrigerator, three expanders connected to the compressor by kinematic or electrical communication, a recovery heat exchanger, a reflux condenser with a reflux output line, a separator with lines for supplying methane-containing gas from the demethanizer and supplying a wide fraction of light hydrocarbons to the demethanizer (fractionation unit).

The disadvantage of this installation is the low yield of C ₂₊ hydrocarbons due to insufficient cooling of the high pressure gas, as well as the inability to produce LNG.

The objective of the invention is to increase the yield of C ₂₊ hydrocarbons and expanding the range of products with LNG production.

The technical result is to increase the yield of C ₂₊ hydrocarbons by lowering the temperature of the high pressure gas by placing an additional cooling unit, and expanding the product range by installing a demethanizer with an LNG output line.

Two installation options are suggested.

The technical result in the first embodiment is achieved by the fact that in the proposed installation, equipped with high and low pressure gas lines, including a drying unit, a recovery heat exchanger, expanders connected to the compressor by kinematic or electrical connection, a reflux condenser with a reflux output line connected by a reflux gas supply line equipped with an expander and a low-pressure gas supply line with a separator, which is equipped with methane-containing gas supply lines from the fractionation unit and a wide outlet fraction of light hydrocarbons into the fractionation unit, the peculiarity is that a demethanizer is installed as a separator, connected to the reflux condenser with a reflux line with a reducing device, equipped with an LNG output line located below the junction of the reflux gas supply line, while the feed line of a wide fraction of light hydrocarbons connected to a cooling unit located on the bypass line of the recovery heat exchanger and equipped with a compressor, and a feed line for a wide fraction of light hydrocarbon in after the cooling unit is connected to a demethanizer.

The second installation option is distinguished by connecting the reflux gas supply line to the low pressure gas supply line.

If necessary, the installation is equipped with a carbon dioxide gas cleaning unit, for example, of the adsorption type, placed on the high pressure gas line, and a compressor station is installed on the low pressure gas line. To reduce the gas load of the demethanizer, at least a portion of the reflux gas (in the first embodiment) and methane-containing gas (in both versions) can be supplied directly to the low-pressure gas line, bypassing the demethanizer. As C ₂₊ hydrocarbons, for example, ethane and propane-butane fractions, gas gasoline, individual hydrocarbons can be removed from the fractionation unit.

The cooling unit includes either a compression refrigeration machine with a recuperation heat exchanger or a compressor, a refrigerator, a recuperation heat exchanger and an expander, wherein the recuperation heat exchanger is connected to the demethanizer by circulating irrigation I / O lines. The installation is equipped with a drying unit, for example, adsorption or absorption type. The demethanizer and fractionation unit can be made in the form of distillation columns with internal or external separating devices. The reducing device may be in the form of a throttle valve or a vortex tube or expander. As the remaining elements of the installation can be placed any device of the corresponding purpose, known from the prior art.

Placing the cooling unit on the bypass line of the recovery heat exchanger allows to lower the temperature of the high pressure gas and increase the yield of C ₂₊ hydrocarbons, while connecting the supply line of the wide fraction of light hydrocarbons to the demethanizer allows you to supply part of the heated wide fraction of light hydrocarbons as a "hot" stream and reduce losses hydrocarbons With ₂₊ . Installing a demethanizer equipped with an LNG output line instead of a separator allows you to expand the product range by producing LNG and reduce the loss of C ₂₊ hydrocarbons with methane-containing gas.

The installation is shown in FIG. 1 and 2 and includes a drying unit 1, a cooling unit 2 with a compressor (not shown), a recovery heat exchanger 3, expanders 4 and 5, a reducing device 6, a reflux condenser 7, a demethanizer 8, and a fractionation unit 9. The installation can be equipped with a carbon dioxide purification unit gas 10 and compressor station 11 (indicated by a dotted line).

During the operation of the first installation option (Fig. 1), the high-pressure gas supplied through line 12 is dried in block 1 and divided into two flows, the first is cooled in heat exchanger 3, and the second is cooled in unit 2, the compressor of which is connected to the expanders by kinematic or electrical connection (shown by dashed lines), then the flows are combined, reduced in expander 4 and sent to a reflux condenser 7 cooled by low pressure gas supplied from demethanizer 8 via line 13, which is then heated in heat exchanger 3 and removed. From the reflux condenser 7, reflux gas is withdrawn via line 14 and reduced in expander 5, phlegm is withdrawn via line 15 and reduced using device 6 (expander is conventionally shown), and then it is fed into demethanizer 8 from which low-pressure gas is withdrawn line 16 — LNG and, line 17 — a broad fraction of light hydrocarbons, which is heated in unit 2 and fed into unit 9, from which methane-containing gas is returned to demethanizer 8 via line 18, and C ₂₊ hydrocarbons are removed via lines 19. Part of the wide fraction of light hydrocarbons after heating in node 2 and served in demethanizer 8 as a "hot stream". The work of the second installation option (Fig. 2) is characterized in that the reflux gas is supplied via line 14 to line 13.

If necessary, in both versions of the installation, the combined gas stream is cleaned of carbon dioxide in the block 10 located on line 12, and the low-pressure gas is compressed in the compressor 11. In addition, in the first embodiment, at least part of the reflux gas and methane-containing gas can be supplied to the line 13, and in the second embodiment, at least a part of the methane-containing gas (shown by a dotted line) can be supplied to line 13.

Thus, the proposed installation allows to increase the yield of C ₂₊ hydrocarbons and may find application in the gas industry.

Claims (2)

1. LNG producing gas deethanization unit equipped with high and low pressure gas lines, including a drying unit, a heat recovery heat exchanger, expanders connected to the compressor by kinematic or electrical connection, a reflux condenser with a reflux output line connected by a reflux gas supply line equipped with an expander , and a low-pressure gas supply line with a separator, which is equipped with methane-containing gas supply lines from the fractionation unit and the output of a wide fraction of light carbohydrate Ode to the fractionation unit, characterized in that a demethanizer is installed as a separator, connected to the reflux condenser by a reflux line with a reducing device, equipped with an LNG output line located below the junction of the reflux gas supply line, while the supply line of a wide fraction of light hydrocarbons is connected to the cooling unit located on the bypass line of the recovery heat exchanger and equipped with a compressor, and the supply line of a wide fraction of light hydrocarbons after the cooling unit is connected to emetanizer. 2. The installation of de-ethanization of the main gas to produce LNG, equipped with high and low pressure gas lines, including a drying unit, a recovery heat exchanger, expanders connected to the compressor by kinematic or electric communication, a reflux condenser equipped with reflux and reflux gas output lines with an expander connected by a line low pressure gas supply with a separator equipped with a line for supplying a wide fraction of light hydrocarbons to the fractionation unit, and methane-containing gas from the fractionation unit characterized in that a demethanizer is installed as a separator, connected to the reflux condenser by a reflux supply line with a reducing device, equipped with an LNG output line located below the junction of the reflux supply line, the reflux gas outlet line is connected to the low pressure gas supply line, a broad fraction feed line of light hydrocarbons is connected to a cooling unit located on the bypass line of the recovery heat exchanger and equipped with a compressor, while the supply line of a wide fraction of light carbohydrates the hordes after the cooling unit is connected to the demethanizer.

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