RU2736682C1 - Natural gas preparation unit with helium extraction - Google Patents

Abstract

FIELD: gas industry.

SUBSTANCE: invention relates to preparation of natural gas containing helium and can be used in gas industry. Natural gas preparation plant with helium extraction includes a natural gas feed line divided into two lines. On the first line there located is the first heat exchanger, the second line adjunction, the first reducing device and the demethanizer with the heater in the stripping part located on the second line, equipped with the methane fraction line, which is divided into two lines. First heat exchanger, second line abutment, second reduction device and helium pre-concentration column with reflux section are arranged on first line and heater in stripping part located on second line, equipped with nitrogen-containing gas line and high-pressure liquefied natural gas output line with third reducing device located on it, reflux section of helium pre-concentration column and separator. Nitrogen-containing gas line is divided into two lines. On the first line there is a third heat exchanger, adjunction of the second line and a column for extraction of helium concentrate with a reflux section and a heater in the stripping part located on the second line.

EFFECT: simplified installation and increased output of natural gas.

1 cl, 1 dwg

Description

The invention relates to installations for the preparation of natural gas containing helium, and can be used in the gas industry.

Known installation for low-temperature gas separation [RU 77949, publ. 07/05/2017, IPC F25J 3/00], consisting of a gas pre-cooling unit, including a heat exchanger, a propane cooler and a first stage separator, a gas condensation and cooling unit, including heat exchangers, second and third stage separators, stripping columns and a turboexpander unit , a block for the extraction of ethane and a wide fraction of light hydrocarbons, including a demethanizer, a deethanizer, heat exchangers and a helium concentrate production block.

The disadvantages of the known installation are the complexity and high capital costs.

Closest to the proposed invention is a method for processing natural gas with the extraction of C ₂₊ and an installation for its implementation [RU 2614947, publ. 03/31/2017, IPC F25J 3/00], which contains a demethanizer with a line for withdrawing the C ₂₊ hydrocarbon fraction, a column for preliminary concentration of helium and separation of helium concentrate with auxiliary equipment, seven heat exchangers, two separators, an expander-compressor unit, a pump, six throttles (reducing devices) and a refrigeration machine, while the first heat exchanger, the first separator and the demethanizer are located on the pipeline (line) of the raw natural gas.

The disadvantages of this installation are the complexity (more than 20 pieces of equipment), as well as the low yield of natural gas (72% of high and low pressure natural gas with a methane content of 97.9%) due to the low temperature of the methane fraction of the medium pressure in the separator (minus 111 ° C at 2.0 MPa), which results in a high nitrogen content, low calorific value and its non-compliance with the requirements of fuel gas standards.

The objective of the present invention is to simplify the installation and increase the yield of natural gas.

The technical result is to simplify the installation by reducing the amount of equipment and increasing the yield of natural gas due to deep stripping of nitrogen in the column for preliminary concentration of helium and eliminating the production of medium pressure gas.

The specified technical result is achieved by the fact that in the proposed installation, which includes a raw natural gas line, divided into two lines, a heat exchanger and a demethanizer with a line for withdrawing a C ₂₊ hydrocarbon fraction, a column for preliminary concentration of helium and separation of helium concentrate with auxiliary equipment are installed on the first line, separator, pump and reducing devices, the peculiarity is that an inlet separator with a water condensate outlet line is installed on the raw natural gas line before its separation, the first heat exchanger is located on the first raw natural gas line, the adjoining of the second raw natural gas line, the first reducing device and a demethanizer with a heater in the stripping part, located on the second line of raw natural gas, connected by a C ₂₊ hydrocarbon fraction withdrawal line to a fractionation unit equipped with product lines and methane-containing gas, equipped with a methane fraction line section, which is divided into two lines, on the first line of the methane fraction there is a second heat exchanger, an abutment of the second line of the methane fraction, a second reducing device and a column for preliminary concentration of helium with a reflux condenser section and a heater in the distant part located on the second line of the methane fraction, equipped with a line of nitrogen-containing gas and a high pressure liquefied natural gas outlet line with a third reducing device located on it, a dephlegmator section of a helium preconcentration column and a separator equipped with a reduced low pressure liquefied natural gas outlet line with a pump, second and first heat exchangers, and a natural gas outlet line with a second and the first heat exchangers, the nitrogen-containing gas line is divided into two lines, the third heat exchanger is located on the first nitrogen-containing gas line, the adjacent nitrogen-containing gas line is adjacent, and the column for separating helium concentrate with reflux a heating section and a heater in the stripping part located on the second line of nitrogen-containing gas, equipped with a helium concentrate outlet line and a liquefied gas outlet line with a fourth reducing device located on it, a dephlegmator section of the helium concentrate recovery column with the third, second and first heat exchangers, while the outlet line the methane-containing gas is connected to the low pressure liquefied natural gas outlet line.

The first and second heat exchangers are multi-flow. The columns are made, for example, in the form of film columns. The demethanizer, if necessary, can be equipped with a strengthening part cooled by technological streams. The fractionation unit is equipped with rectification columns in the composition required to produce a given range of products. The reducing devices are made in the form of a throttle valve or a gas-dynamic device or an expander. As the rest of the installation elements, any device for the corresponding purpose known from the prior art can be installed.

Fewer hardware makes installation easier. Equipping the reinforcing part of the columns with reflux sections cooled by reduced technological streams allows, without the use of refrigerators, to maintain the temperature of the top of the columns at a level that provides a predetermined degree of methane losses with nitrogen-containing gas, which allows the production of natural gas with a high yield, and also provides a predetermined helium content in the concentrate ... Equipping the stripping parts of the columns with heaters heated by technological streams, without supplying external heat, ensures that the bottom of the columns is heated to a temperature sufficient, respectively, for sequential stripping in the columns of methane, nitrogen and helium, and to obtain marketable natural gas of standard calorific value, as well as to ensure a high yield helium.

The installation is shown in the attached drawing and includes an inlet separator 1, heat exchangers 2-4, a demethanizer 5 with a heater in the stripping part, a helium pre-concentration column 6 and a helium concentrate separation column 7, each with a reflux condenser section in the strengthening part and with a heater in the stripping part, separator 8, pump 9, fractionation unit 10 and reducing devices 11-14.

During the operation of the installation, the raw natural gas containing, preferably, 0.3-3 mol%. helium supplied through line 15 with a pressure of 5-25 MPa is separated in the inlet separator 1 into water condensate discharged through line 16 and gas, which is divided into two streams, the first stream through line 17 is directed as a heat carrier to the heater of the demethanizer 5, then mixed with the second stream, pre-cooled in heat exchanger 2, reduced, for example, to 2.5-4.5 MPa using device 11 and with a temperature, for example, minus 80-90 ° C, is fed to demethanizer 5. From the bottom of demethanizer 5 a C ₂₊ hydrocarbon fraction is withdrawn through line 18 to block 10, from which products (hydrocarbon fractions) are withdrawn through lines 19, and methane-containing gas through line 20. From the top of the demethanizer 5 through line 21, the methane fraction is withdrawn, divided into two streams, the first stream is directed through the bypass line 22 as a heat carrier to the heater of the column 6, then mixed with the second stream previously cooled in the heat exchanger 3, reduced, for example, to 1, 5-3.0 MPa using device 12 and with a temperature of, for example, minus 110-115 ° C is fed into column 6.

From the top of the column 6 through line 23, a nitrogen-containing gas containing, preferably, less than 10 mol% is removed. methane is divided into two streams, the first stream is directed through the bypass line 24 as a heat carrier to the heater of the column 7, then mixed with the second stream, previously cooled in the heat exchanger 4, and with a temperature, for example, minus 175-185 ° C, is fed to the column 7 From the top of the column 7 along the line 25, for example, 75-90% mol. helium concentrate, and from its bottom through line 26, liquefied gas, mainly nitrogen, is removed, which is reduced using device 14, for example, to 0.1-0.3 MPa, is heated in the reflux section of column 7, in heat exchangers 4, 3 and 2 and output.

From the bottom of the column 6 through line 27, high-pressure liquefied natural gas is withdrawn containing, preferably, not more than 5 mol%. nitrogen, which is reduced by means of the device 13, for example, to 0.1-0.3 MPa, is heated in the reflux section of the column 6 and is separated in the separator 8 into natural gas and low pressure liquefied natural gas streams, the latter is pumped out by the pump 9, for example, at 2.0-4.5 MPa. Both streams are heated in heat exchangers 3 and 2 and are withdrawn via lines 28 and 29, respectively, as low and high pressure natural gas. The latter is mixed with methane-containing gas (its supply between heat exchangers 2 and 3 is conventionally shown).

If necessary, hydrocarbon condensate is separated in unit 1 and fed directly to unit 10 via line 30, and part of the flow from line 26 can be removed from the plant via line 31 (shown in dashed lines).

The degree of extraction of helium is regulated by changing technological parameters and is not less than 99%. The yield of natural gas is determined by the loss of methane with nitrogen, it is regulated and also amounts to at least 99%.

Thus, the proposed installation is simpler, allows increasing the yield of natural gas and can be used in the gas industry.

Claims (1)

A natural gas treatment unit with helium recovery, including a raw natural gas line divided into two lines, a heat exchanger and a demethanizer with a C ₂₊ hydrocarbon fraction withdrawal line, a column for helium pre-concentration and helium concentrate recovery with auxiliary equipment, a separator, a pump are installed on the first line and reducing devices, characterized in that an inlet separator with a water condensate outlet line is installed on the raw natural gas line before its separation, the first heat exchanger is located on the first natural gas raw gas line, the adjoining of the second raw natural gas line, the first reducing device and a demethanizer with a heater in of the stripping part located on the second line of raw natural gas, connected by a C ₂₊ hydrocarbon fraction withdrawal line to a fractionation unit equipped with lines for the removal of products and methane-containing gas, equipped with a methane fraction line, which is divided into two lines , on the first line of the methane fraction there are a second heat exchanger, an adjunction of the second line of the methane fraction, a second reducing device and a column for preliminary concentration of helium with a reflux condenser section and a heater in the stripping part located on the second line of the methane fraction, equipped with a nitrogen-containing gas line and an output line for liquefied natural gas high pressure with a third reducing device located on it, a reflux condenser section of the helium pre-concentration column and a separator equipped with a low pressure reduced liquefied natural gas outlet line with a pump, second and first heat exchangers and a natural gas outlet line with the second and first heat exchangers, the nitrogen-containing gas line is separated on two lines, on the first line of the nitrogen-containing gas there are the third heat exchanger, the adjoining of the second line of the nitrogen-containing gas and the column for the separation of helium concentrate with a reflux condenser section and a heater in the waste part located on the second nitrogen-containing gas line, equipped with a helium concentrate outlet line and a liquefied gas outlet line with a fourth reducing device located on it, a dephlegmator section of the helium concentrate recovery column, third, second and first heat exchangers, while the methane-containing gas outlet line is connected to low pressure liquefied natural gas outlet line.

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