RU2723869C2 - Installation of field processing of well products of gas-condensate field - Google Patents

Abstract

FIELD: gas industry.SUBSTANCE: invention relates to processing of well product of gas condensate deposit in field conditions. Borehole products are fed into complex gas and condensate preparation plant, from which commercial gas, water condensate, condensate degassing gas is discharged, which is fed into a catalytic dehydrocyclodimerization unit, and a stable condensate which, after desalination, is fed into a fractionation unit from which the diesel fuel and the gasoline fraction are removed, which is fed into catalytic processing unit, from which gasoline and gas supplied to condensate degassing gas line are discharged. Catalytic dehydrocyclodimerization unit as absorbent of Caromatic hydrocarbons is fed a residual fraction and discharged as fuel oil, besides, benzene-toluene-xylene fraction is removed from the plant, and dehydrocyclodimerization gas is fed into unit for complex treatment of gas and condensate.EFFECT: technical result is wider range of commercial products, high quality of benzene-toluene-xylene fraction, processing of borehole products containing residual fractions, and reduction of metal consumption of equipment.1 cl, 1 dwg

Description

The invention relates to the processing of borehole products of a gas condensate field under field conditions and may find application in the gas industry.

A known method of preparing gas and gas condensate for transport [RU 2488428, IPC B01D 53/00, C07C 2/86, C07C 2/88, F17D 1/16, publ. July 27, 2013], carried out at the installation, including separation, stabilization, gas preparation and catalytic processing units.

A disadvantage of the known installation is the limited range of commercial products (gas and gas condensate).

Closest to the claimed invention is a method of preparing well production of a gas condensate field [RU 2580136, publ. 04/10/2016, IPC B01D 53/00, B01D 19/00], carried out at a plant that includes a complex gas and condensate preparation unit connected by condensate and gas dehydrocyclodimerization gas supply lines to a catalytic dehydrocyclodimerization unit, which is equipped with an outlet line for aromatic mixtures hydrocarbons (benzene-toluene-xylene fraction), and a motor fuel production unit, consisting of an electric desalting unit, a fractionation unit connected by a supply line of stabilized (degassed) hydrocarbon condensate and a wide fraction of light hydrocarbons with a complex gas and condensate preparation unit equipped with a distillate output line medium fractional composition, connected by a feed line of a distillate of a wide fractional composition to a catalytic processing unit, which is equipped with a gas outlet line to a condensate degassing gas supply line, a line of a low-setting diesel fuel component to a distillate outlet line a single fractional composition, and a gasoline withdrawal line from the installation, in addition, the complex is equipped with supply lines for well products, commercial gas, water condensate, benzene-toluene-xylene fraction, gasoline, diesel fuel, as well as production lines. The catalytic dehydrocyclodimerization unit can be equipped with an output line for the high-octane gasoline component.

The disadvantages of this installation are the limited range of commercial products, the low quality of the benzene-toluene-xylene fraction due to the content of C ₉₊ aromatic hydrocarbons in it, the inability to process well products containing residual fractions, due to coking of the catalyst of the catalytic processing unit, as well as equipment block fractionation by the feed line of a wide fraction of light hydrocarbons, which leads to the ingress of light hydrocarbons into the catalytic processing unit, increasing its load in raw materials and increasing the metal consumption of the equipment.

The objective of the invention is to expand the range of commercial products, improving the quality of the benzene-toluene-xylene fraction, processing well products containing residual fractions, and reducing the metal consumption of equipment.

The technical result of the invention is the expansion of the product range, improving the quality of the benzene-toluene-xylene fraction and processing of well products containing residual fractions by connecting the fractionation unit with a residue supply line as an absorbent with a catalytic dehydrocyclodimerization unit, and by eliminating the supply line from the complex a wide fraction of light hydrocarbons in the fractionation unit, a reduction in the metal consumption of the equipment is achieved.

The specified technical result is achieved by the fact that in a known installation including a complex gas and condensate preparation unit connected by condensate and gas dehydrocyclodimerization gas supply lines to a catalytic dehydrocyclodimerization unit, and a motor fuel production unit consisting of a fractionation unit connected by a hydrocarbon condensate supply line, on which an electric desalination unit is installed, with a comprehensive gas and condensate treatment unit, and a gasoline fraction supply line with a catalytic processing unit, which is equipped with a gas supply line to the condensate degassing gas supply line and a gasoline output line from the installation, and, in addition, a field processing unit equipped with supply lines for borehole products, withdrawal of commercial gas, water condensate, benzene-toluene-xylene fraction, gasoline, diesel fuel, as well as production lines, a feature is that the catalytic dehydrocyclodimerization unit equipped with a benzene-toluene-xylene fraction output line or lines for separate aromatic hydrocarbon fractions, and the fractionation unit is connected to the residual fraction supply line as an absorbent with a catalytic dehydrocyclodimerization unit, which in turn is equipped with a fuel oil output line, and installed as a hydrocarbon condensate supply line a stable hydrocarbon condensate supply line, while the fractionation unit is equipped with a diesel fuel output line.

If it is necessary to increase the octane number of gasoline, the gasoline output line can be connected to the output line of the high-octane component (for example, toluene-xylene fraction) from the catalytic dehydrocyclodimerization unit. Instead of the output line of the benzene-toluene-xylene fraction, the catalytic dehydrocyclodimerization unit can be equipped with the output lines of individual fractions of aromatic hydrocarbons, for example, benzene, and toluene-xylene fractions.

The connection of the fractionation unit with the supply line of the residual fraction as an absorbent with the catalytic dehydrocyclodimerization unit, which is equipped with a fuel oil output line, allows you to expand the range of marketable products and improve the quality

the benzene-toluene-xylene fraction by reducing the content of C ₉₊ aromatic hydrocarbons in it by absorbing them from the dehydrocyclodimerization catalysis by the residual fraction, and also makes it possible to process well products containing residual fractions.

The exception of equipping the fractionation unit with a feed line for a wide fraction of light hydrocarbons, as well as its equipment with a diesel fuel output line, reduces the feed load of the catalytic processing unit and reduces the metal consumption of the equipment.

The installation includes a complex gas and condensate preparation unit 1, a catalytic dehydrocyclodimerization unit 2, a motor fuel production unit as part of electric desalting units 3, fractionation 4 and catalytic processing 5, downhole product supply lines 6, commercial gas outlet 7, water condensate 8, gasoline 9, diesel fuel 10, fuel oil 11, benzene-toluene-xylene fraction 12 and production lines 13-18.

During installation operation, the well products are fed through line 6 to installation 1, from which commercial gas and water condensate are removed via lines 7 and 8, condensate degassing gas is sent to block 2 through line 13, and stable condensate after desalination in block 3 is fed through line 14 in block 4, from which diesel fuel is discharged through line 10, and gasoline fraction is fed to block 5, from which gasoline is discharged through line 9, and gas is supplied to line 13 through line 16. To block 2 as an absorbent of aromatic hydrocarbons With C ₉₊ , a residual fraction is supplied via line 17 and withdrawn via line 11 as fuel oil, a benzene-toluene-xylene fraction is withdrawn through line 12, and gas is withdrawn through line 18 to unit 1. If necessary, a toluene-xylene fraction is isolated and fed to the gasoline withdrawal line 9 (indicated by a dotted line).

Thus, the proposed set of installations allows you to expand the range of commercial products, improve the quality of the benzene-toluene-xylene fraction, reduce the metal consumption of the equipment, makes it possible to process downhole products containing the residual fraction, and can be used in the gas industry.

Claims (2)

1. Installation of field processing of borehole products of a gas condensate field, including a complex gas and condensate preparation unit connected by condensate and gas dehydrocyclodimerization gas supply lines to a catalytic dehydrocyclodimerization unit, and a motor fuel production unit consisting of a fractionation unit connected by a hydrocarbon condensate supply line to which is equipped with an electric desalination unit, with an integrated gas and condensate treatment unit, and a gasoline fraction supply line with a catalytic processing unit, which is equipped with a gas supply line to the condensate degassing gas supply line and a gasoline withdrawal line from the installation, in addition, the field processing unit is equipped with lines supply of well products, withdrawal of commercial gas, water condensate, benzene-toluene-xylene fraction, gasoline, diesel fuel, as well as production lines, characterized in that the catalytic dehydrocyclodimery unit The plant is equipped with a benzene-toluene-xylene fraction output line or lines for separate aromatic hydrocarbon fractions, and the fractionation unit is connected with the residual fraction supply line as an absorbent to the catalytic dehydrocyclodimerization unit, which in turn is equipped with fuel oil output line, and as a hydrocarbon condensate supply line a stable hydrocarbon condensate supply line has been installed, while the fractionation unit is equipped with a diesel fuel output line. 2. Installation according to claim 1, characterized in that the gasoline withdrawal line is connected to the catalytic dehydrocyclodimerization unit by the output line of the high-octane component.

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