RU2585810C1 - Device for low-temperature condensation gas - Google Patents

Abstract

FIELD: oil and gas industry; technological processes.

SUBSTANCE: invention relates to design of devices for preparation of gas by low-temperature condensation and can be used in oil and gas industry for preparation of hydrocarbon gases. Device consists of a device with located at bottom of separation zone, crude gas inlet lines and hydrocarbon and water condensate discharge lines and said two gas cooling units with contact-separation devices equipped with one input/output lines of prepared gas, while another is input/output lines of coolant. Device is additionally equipped with refrigerating machine and condensate stabiliser. Reflux sections are installed as gas cooling units. Cooling machine is connected to upper reflux section by coolant input/output lines, and with condensate stabiliser by heat carrier input/output lines. Condensate stabiliser is connected by stabilisation gas supply line to crude gas supply line, condensate supply line with bottom of low-temperature condensation apparatus and is equipped with stabilised condensate output line.

EFFECT: higher yield of prepared gas.

3 cl, 1 dwg

Description

The invention relates to the design of devices for the preparation of gas by low-temperature condensation and can be used in the oil and gas industry for the preparation of hydrocarbon gases.

A known method for the preparation of hydrocarbon gas [RU 2202079, publ. 04/10/2003, IPC F25J 3/00] using an installation containing separators of the first, second and low temperature stages, a recuperative heat exchanger "gas of the first stage / gas of a low temperature stage", a heat exchanger "condensate of the second stage / condensate of a low temperature stage, throttle device or a refrigerator, and a regulating device.

The disadvantages of the known installation are its high metal consumption due to the large amount of equipment and the low quality of the condensate obtained due to the high content of light gas components.

Closest to the technical nature of the proposed invention, the installation for implementing the method of preparation of hydrocarbon gas [RU 2460759, publ. September 10, 2012, IPC C10G 5/06, C10G 5/04, C07C 7/00, C07C 7/11, F25J 3/00, F25J 3/08], including a gas pre-dryer absorber and a device for low-temperature gas condensation, in the lower part of which there is a separation zone with gas and hydrocarbon and water condensate discharge lines, and above there is a contact separation device with a regenerative cooling unit equipped with prepared gas input / output lines, and a contact separation device with a cooling unit equipped with input lines / output of a third heat carrier, higher e of which a hydrocarbon condensate supply unit is installed.

The main disadvantage of this apparatus is the low yield of prepared gas due to the lack of devices for gas reflux, which does not allow efficient fractionation of gas and reflux flows due to the temperature gradient in the device, and the absence of devices for condensate stabilization, which leads to the loss of light gas components dissolved in condensate.

The objective of the invention is to increase the yield of prepared gas.

As a technical result when using the proposed device, an increase in the yield of prepared gas is achieved by equipping the device with a refrigerating machine and a condensate stabilizer, equipping the apparatus for low-temperature gas condensation with reflux sections, which are connected to the refrigerating machine with coolant and refrigerant supply lines, respectively, and also due to the connection stabilizer gas supply line stabilization from the raw gas supply line.

The specified technical result is achieved by the fact that in the known device, including an apparatus for low-temperature condensation of gas with a separation zone located at the bottom, raw gas inlet lines and hydrocarbon and water condensate outlet lines, and two upstream gas cooling units with contact separation devices equipped with one prepared gas input / output lines, and another - refrigerant input / output lines, a feature is that the device is additionally equipped with a refrigeration machine th and condensate stabilizer, and reflux sections are installed as gas cooling units, while the chiller is connected to the upper reflux section by refrigerant I / O lines, and to the condensate stabilizer by coolant I / O lines, and the condensate stabilizer is connected by the stabilization gas supply line to raw gas supply line, condensate supply line with the bottom of the low-temperature condensation apparatus and is equipped with a stabilized condensate output line.

To prevent contamination of heat-exchange surfaces and to ensure stable operation of the equipment during the preparation of contaminated raw gas and, if possible, plug-in feed modes, the raw gas input line can be additionally equipped with an inlet separator.

To prevent the formation of gas hydrates, the device may be equipped with at least one line for introducing a hydrate inhibitor or absorbent into the low-temperature condensation apparatus. The number and junction of these lines is determined by calculation, based on the temperature and pressure conditions of gas treatment, its composition and requirements for the quality of preparation.

The installation of reflux sections as gas cooling units provides conditions for fractionation between reflux enriched in light gas components and gas enriched in heavy components, moving countercurrent, which ensures an increase in the yield of prepared gas. Dephlegmator sections can be, for example, blocks of heat and mass transfer elements with an internal space for the passage of the refrigerant and external mass transfer surfaces with a large vertical dimension.

The equipment of the device with a refrigerating machine connected to the upper reflux section by refrigerant I / O lines, and with a condensate stabilizer - coolant I / O lines, provides gas reflux and condensate stabilization. And the connection of the condensate stabilizer with the stabilization gas supply line from the raw gas supply line allows you to recycle light gas components and increase the yield of prepared gas.

The proposed device consists of a vertical low-temperature condensation apparatus 1, at the bottom of which there is a separation zone 2, equipped with a raw gas inlet line 3 with a stabilization gas supply line 4 adjacent to it and water condensate output lines 5 and hydrocarbon condensate supply lines 5, above which reflux sections are located 7 and 8, which are equipped with contact separation devices 9 and 10, respectively. The reflux section 7 is equipped with prepared gas input / output lines 11, and the reflux section 8 is connected to the refrigerant, for example, boiling propane, input / output lines 12 with a refrigeration machine 13, which is also connected to the coolant input / output lines 14 with a stabilizer 15 (film stripping is shown column) equipped with a stabilized condensate discharge line 16 and stabilization gas supply line 4. Apparatus 1 may be equipped with at least one input line for a hydration inhibitor or moisture absorbent 17 (indicated by a dotted line). On line 3 can be placed inlet separator (not shown in the diagram).

When the device is operating, crude gas is supplied via line 3, with an adjacent stabilization gas supply line 4, to the separation zone 2 of apparatus 1, where water and hydrocarbon condensates are discharged through lines 5 and 6, respectively. Gas from the separation zone 2 is directed to reflux sections 7 and 8 through contact separation devices 9 and 10, respectively, where it is refluxed and contacts condensing reflux, enriched with light components. From the top of the apparatus 1, the prepared gas is fed through line 11 to the reflux section 7 and removed. From the bottom of the apparatus 1, condensate is supplied via line 6 to the stabilizer 15, from the top of which stabilization gas is removed via line 4 by recirculating the light gas components, and stabilized condensate is removed from the bottom via line 16. Via line 17, a hydrate inhibitor or moisture absorbent may be supplied to apparatus 1.

Thus, the proposed device by reducing losses of light components provides an increase in the yield of prepared gas.

Claims (3)

1. A device for low-temperature gas condensation, consisting of an apparatus with a separation zone located at the bottom, raw gas input lines and hydrocarbon and water condensate discharge lines and two upstream gas cooling units with contact separation devices equipped with one - prepared gas input / output lines, and another - refrigerant I / O lines, characterized in that the device is additionally equipped with a refrigeration machine and a condensate stabilizer, and reflux sections have been updated, while the chiller is connected to the upper reflux section by refrigerant I / O lines, and to the condensate stabilizer by coolant I / O lines, and the condensate stabilizer is connected by the stabilization gas supply line to the raw gas supply line, the condensate supply line to the bottom of the device low-temperature condensation and equipped with a stabilized condensate discharge line. 2. The device according to claim 1, characterized in that the raw gas input line is additionally equipped with an inlet separator. 3. The device according to claim 1, characterized in that the apparatus is additionally equipped with at least one input line of a hydrate formation inhibitor or absorbent.

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