RU2689737C1 - Installation of ntdr for non-waste complex gas treatment - Google Patents

Abstract

FIELD: technological processes.SUBSTANCE: invention relates to low-temperature dephlegmation units with NTDR rectification and can be used for field preparation of natural gas in gas industry. Proposed plant comprises inlet separator, dephlegmator, demethanizer, two recuperative heat exchangers, reduction devices and fractionation unit. During operation of the plant crude gas is separated in a separator into a condensate and separation gas, which is cooled in recuperative heat exchangers, reduced and supplied to a dephlegmator, from which condensate and dephlegmation gas are removed, which is reduced and supplied to demethanizer together with reduced condensates. From the demethanizer top, after heating in the dephlegmator heat exchange section and the first recuperative heat exchanger, the treated gas is removed. A flow of circulating reflux is removed from the middle part of the demethanizer, heated in the second recuperative heat exchanger and returned to the demethanizer. From the bottom of the demethanizer, the demethanised condensate is fed into a fractionation unit for separation into products, wherein the offgas is returned to the demethanizer.EFFECT: invention increases output of hydrocarbons Cdue to the demethanizer installation equipment.1 cl, 1 dwg

Description

The invention relates to low-temperature reflux plants with NTDT distillation and can be used for field preparation of natural gas in the gas industry.

The known method of low-temperature gas separation [RU 2543867, publ. 10.03.2015, IPC B01D 3/14, B01D 3/28], carried out at the plant, including the entrance separator, a two-section reflux condenser, a low-temperature separation unit comprising a reducing device and a low-temperature separator, as well as a condensate weathering unit.

The disadvantages of the known installation are low quality commercial gas and low gas condensate output due to incomplete recovery of cold process streams.

Closest to the proposed invention, the installation of integrated gas treatment [RU 2624710, publ. 05.07.2017, IPC F25J 3/00, C07C 7/00, C10G 5/06], which includes an inlet separator, a low-temperature condensation unit with the first and second recuperative heat exchangers, a reflux condenser with a heat and mass transfer section, a refluxed gas line connected to the low-temperature separator , equipped with a gas discharge line to a dephlegmator, as well as reducing devices and a condensate stabilization unit (fractionation unit).

The disadvantage of this installation is the low yield of C ₂₊ hydrocarbons due to the direct mixing of condensates having different composition and different temperatures before stabilization, as well as their loss with flare gases.

The objective of the invention is to increase the yield of hydrocarbons With ₂₊ .

The technical result is to increase the output of hydrocarbons With ₂₊ due to the equipment installation demethanizer, providing pre-fractionation of condensates, as well as by eliminating the output of flare gases by connecting the fractionation unit with a demethanizer.

The technical result is achieved by the fact that in the proposed installation, including an inlet separator, a low-temperature condensation unit containing the first and second recuperative heat exchangers, a reflux condenser with a heat exchange section, connected by a reflux gas line, equipped with a reducing device, with a separator equipped with a prepared gas outlet line, also a stabilization unit, a feature is that the demethanizer is located as a separator, which is equipped with a demethanized supply line condensation unit in the fractionation unit and the prepared gas output line with the heat exchange section of the reflux condenser and the first recovery heat exchanger; in addition, the demethanizer is connected to the input separator and the reflux condenser with condensate supply lines with reducing devices, and with the second recovery heat exchanger - with the circulation irrigation input / output lines The fractionation unit is equipped with product output lines and is connected to the demethanizer with an off-gas supply line.

Reducing devices can be made in the form of a throttle valve, a gas-dynamic device, or an expander. The fractionation unit may include, for example, distillation columns. For example, the propane-butane fraction and stable gas condensate can be removed as products. As the remaining elements of the installation can be placed any device of the appropriate purpose, known from the prior art.

The demethanizer can be equipped with an LNG output line, and heat can be supplied to the bottom of the demethanizer by any known method (electric heating, heating with heat transfer medium, “hot stream”, etc.). Before the reflux condenser, a separator can be installed, connected to the demethanizer with a condensate supply line to a reducing device, and a compressor station can be placed on the output gas line.

Increasing the yield of С ₂₊ hydrocarbons _is achieved by equipping the installation with a demethanizer, in which pre-fractionation of condensates is carried out, which prevents the carry-over of C ₂₊ hydrocarbons, and also by eliminating the formation of flare gases by combining the fractionation unit with a demethanizer.

The installation includes an inlet separator 1, a dephlegmator 2, a demethanizer 3, recuperative heat exchangers 4 and 5, reducing devices 6–9 (the expander is conventionally shown), as well as a fractionation unit 10.

When the unit is operated (Fig. 1), the raw gas supplied through line 11 is separated in separator 1 to condensate discharged through line 12 and the gas, which is cooled in heat exchangers 4 and 5, reduced in device 6 and sent to a reflux condenser 2, from the condensate is removed via line 13, and the reflux gas is reduced via line 14, which is reduced in device 7 and fed to the demethanizer 3 together with condensates reduced in devices 8 and 9. From the top of the demethanizer 3 through line 15, the prepared gas is removed after heating to heat exchange Dephlegmator 2 and heat exchanger sections e 4, from the middle part, the flow of circulating irrigation is discharged through line 16, heated in heat exchanger 5 and returned to demethanizer 3, and from the bottom through line 17 demethanized condensate is sent to fractionation unit 10 to be divided into products discharged through lines 18. Exhaust gas at This is returned via line 19 to demethanizer 3. The dotted line shows possible: supply of exhaust gas to line 15 from line 19 and reflux gas from line 14, the location in front of the reflux condenser 2 of the separator 20 with the condensate line 21 to the demethanizer 3 with reducing device 22, heating the bottom of the demethanizer 3 with heat flux 23, selecting LNG via line 24 and installing a compressor station 25. The supply lines for the hydrate formation inhibitor (methanol) and withdrawal of its spent solution are conventionally not shown.

Thus, the proposed installation allows to increase the yield of C ₂₊ hydrocarbons and can be used in the gas industry.

Claims (2)

1. The NTDR installation for wasteless complex gas treatment, including an inlet separator, a low-temperature condensation unit, containing the first and second recuperative heat exchangers, a reflux condenser with a heat exchange section, connected by a reflux gas supply line, equipped with a reducing device, with a separator equipped with a prepared gas output line, and also a stabilization unit, characterized in that a demethanizer is located as a separator, which is equipped with a line for supplying demethanized condensate to a fro unit The demethanizer is connected to an inlet separator and a reflux condenser with supply lines for condensates with reducing devices, and a second recuperative heat exchanger with input irrigation lines for circulation irrigation, while the fractionation unit is equipped product lines and is connected to the demethanizer by an off-gas supply line. 2. Installation under item 1, characterized in that before the reflux condenser is installed a separator connected to the demethanizer by a condensate supply line with a reducing device.

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