RU2624652C1 - Three-product gas treatment plant - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: three-product gas treatment plant includes the inlet separator, the reflux exchanger, the reduction device and the low-temperature separator. There is the ejector equipped with the debutanization gas feeding line before the input separator. The recuperation heat exchanger and the reduction device are installed before the reflux exchanger. The low-temperature separator is connected by the deethanization gas and the condensate feeding lines to the deethanizer, equipped with the propane-butane fraction outlet line, connected to the condensate feeding line reflux exchanger, at which the reduction device is installed. The plant includes the reduction device and the debutanizer, equipped with the debutanization gas lines and the stable condensate outlet. The heat exchanger for cooling at least the part of the debutanization gas is placed at the condensate feeding line from the reflux exchanger between the reduction device and the deethanizer.

EFFECT: expansion of the products range and the quality of the traded gas and condensate improvement.

2 cl, 1 dwg

Description

The invention relates to low-temperature separation units and can be used in the gas industry for field preparation of well production of gas condensate fields.

Known gas processing plant [A.M. Churakaev. Low-temperature rectification of petroleum gas. - M .: "Nedra", 1989, p. 6], including a compressor station, an adsorption drying unit, a low-temperature condensation unit with a propane cooler, and a deethanization unit.

The disadvantages of the known installation are a limited range of products (gas and NGL) and a large metal consumption.

The closest in technical essence is the method of low-temperature gas separation [RU 2543867, publ. 03/10/2015, IPC B01D 3/14, B01D 3/28], carried out in a plant including an inlet separator, a two-section reflux condenser, a reducing device, a low-temperature separator, and a condensate weathering device.

The disadvantages of this installation are the limited range of products (gas and unstable condensate), low quality of commercial gas due to incomplete recovery of cold in the reflux condenser, which leads to an increase in temperature in the low-temperature separator and lower quality of commercial gas, low quality of condensate due to the lack of a device for condensate stabilization.

The objective of the invention is the expansion of the product range and improving the quality of commercial gas and condensate.

The technical result is the expansion of the product range by including a deethanizer in the installation, improving the quality of commercial gas by installing an ejector in front of the inlet separator and a recovery heat exchanger with a reducing device in front of the reflux condenser, as well as increasing the quality of the condensate by installing a debutanizer instead of a weathering device.

The specified technical result is achieved by the fact that in a known installation including an inlet separator, a reflux condenser, a reducing device and a low temperature separator, a feature is that an ejector equipped with a debutanization gas supply line is installed in front of the inlet separator, a recuperative heat exchanger and a reducing device are installed in front of the reflux condenser, and the low-temperature separator is connected by deethanization and condensate gas supply lines to a deethanizer equipped with a propane-butane fr output line ktsii associated with reflux condensate feed line, on which are mounted a reducing device is furthermore installed instead vyvetrivatelya reducing device and debutanizer equipped with gas supply lines and output debutanizer stable condensate.

If necessary, a cooling heat exchanger for at least part of the debutanization gas can be placed between the reducing device and the deethanizer on the condensate supply line from the reflux condenser, which allows the unit to be operated with a decrease in the input pressure of the raw gas.

The installation of an ejector in front of the inlet separator makes it possible to improve the separation of raw gas and improve the quality of marketable gas, as well as to recycle debutanization gas by reducing pressure. Installing a recovery heat exchanger and a reducing device in front of the reflux condenser reduces the temperature in the low-temperature separator and improves the quality of the commercial gas. The installation of a low temperature separation condensate deethanizer allows to obtain a propane-butane fraction and expand the product range. The installation of a reducing device and a debutanizer instead of a weathering device improves the stability and quality of commodity condensate.

The deethanizer, debutanizer and reflux condenser are, for example, fractionation apparatuses known in the art.

The installation includes an ejector 1, an inlet separator 2, reducing devices 3, 4, 5 and 6, a debutanizer 7, a recovery heat exchanger 8, a reflux condenser 9, a low-temperature separator 10 and a deethanizer 11.

During operation of the installation, the crude gas supplied through line 12 is mixed in the ejector 1 with the debutanization gas supplied through line 13 and separated in the separator 2 to obtain aqueous condensate withdrawn from the installation through line 14, the hydrocarbon condensate supplied through line 15 to which is equipped with a reducing device 3, into a debutanizer 7, equipped with a line 13 and an output line of commodity condensate 16, as well as an inlet gas, which, through line 17, after cooling in the heat exchanger 8 and reduction using the device 4, is fed to the reflux condenser 9, de cooled by the gas supplied from the separator 10 via line 18. The reflux gas via line 19, on which the reducing device 5 is installed, is fed to the separator 10 together with the deethanization gas supplied via line 20, where they are separated into gas, which after heating in the reflux condenser 9 and the heat exchanger 8 is withdrawn as commercial on line 21, and the condensate, which along line 22 together with the condensate supplied from the reflux condenser 9 through line 23 through the reducing device 6, is sent to the deethanizer 11, from which the propane-butane fraction is removed via line 24, but line 20 — deethanization gas. On line 13, if necessary, install a refrigerator 25 (indicated by a dotted line). A hydrate inhibitor is supplied to the calculated points (not shown in the diagram).

Thus, the present invention allows to expand the range of products, improve the quality of commercial gas and condensate and can be used in industry.

Claims (2)

1. Three-product installation of complex gas preparation, including an inlet separator, a reflux condenser, a reduction device and a low temperature separator, characterized in that an ejector equipped with a debutanization gas supply line is installed in front of the inlet separator, a heat recovery heat exchanger and a reduction device are installed in front of the reflux condenser, and a low temperature separator is connected gas supply of deethanization and condensate with a deethanizer equipped with a propane-butane fraction output line associated with reflux a condensate supply line on which a reducing device is installed, in addition, a reducing device and a debutanizer are installed, equipped with debutanization gas supply lines and a stable condensate outlet. 2. Installation according to claim 1, characterized in that a cooling heat exchanger for at least part of the debutanization gas is placed on the condensate supply line from the reflux condenser between the reducing device and the deethanizer.

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