RU2634991C2 - Gas compression - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: proposed the method, which contains gas compression in the mixture by weathering, liquid hydrocarbons released during gas compression cooling due to the reflux heating in the conditions of its stabilisation and its further cooling under the refluxing conditions to obtain the compressed gas and reflux, which is stabilised by liquid hydrocarbons released during gas compression heating to obtain the condensate, which is subjected to weathering under the reduced pressure to obtain the weathering gas.

EFFECT: higher yield of the compressed air and pressure reduction of the condensate saturated vapor.

2 cl, 1 dwg

Description

The invention relates to methods for compressing gas and can be used in various industries for compressing multicomponent gases containing vapors of heavy components, for example, hydrocarbon gases.

A known method of compressing gas [Dronin A.P., Pugach I.A. The technology of separation of hydrocarbon gases. M .: Chemistry, 1976, p. 31], including gas compression, cooling and separation of the compress to produce compressed gas and unstable condensate.

The main disadvantage of this method is the low yield of compressed gas and the production of unstable condensate.

Closest to the technical nature of the present invention, a method of compressing gas [RU 2524790, publ. 08/10/2014, IPC F25J 3/00], which includes gas compression to produce a compress, heating of an unstable condensate (reflux) by a compressor while stabilizing the latter to produce condensate and stabilization gas, mixing the cooled compressor with stabilization gas and cooling under reflux to obtain phlegm and compressed gas.

The disadvantages of this method are the low yield of compressed gas and the low quality of the condensate due to the large residual content of light gas components and high vapor pressure in it.

The objective of the invention is to increase the yield of compressed gas, reducing the pressure of saturated vapor of the condensate.

As a technical result, an increase in the yield of compressed gas and a decrease in the pressure of saturated vapor of the condensate are achieved due to additional weathering of the condensate at reduced pressure with recirculation of the weathering gas.

The technical result is achieved by the fact that in the known method, comprising compressing gas to produce a compress, heating the reflux condensate with the compressor to stabilize the latter to produce condensate, cooling the compress under reflux to obtain reflux and compressed gas, the feature is that the gas is compressed in a mixture with a weathering gas, and the condensate is subjected to weathering under reduced pressure to obtain condensate and a weathering gas.

To increase the yield of compressed gas, it is advisable to carry out additional countercurrent contacting of the compress with reflux, for example, on nozzle-type contact devices, which makes it possible to intensify the mass transfer process and increase the clarity of separation of gas and condensate components.

Weathering the condensate under reduced pressure allows you to extract the remaining amount of light components from it and recycle them in the composition of the weathering gas, which ensures an increase in the yield of compressed gas and a decrease in the pressure of saturated condensate vapor.

In the implementation of the proposed method, gas 1 in a mixture with weathering gas 2 is compressed by a compressor 3, the resulting compress 4 is cooled in a stripping section 5 of a heat and mass transfer apparatus 6 and refluxed in a reflux condenser section 7 by cooling it with a refrigerant 8 to obtain compressed gas 9, and the resulting reflux is stabilized in stripping section 5 to obtain condensate 10, which is weathered under reduced pressure, for example, in a separator 11 to obtain weathering gas 2 and weathered condensate 12.

To deepen the stabilization of the condensate and increase the yield of compressed gas, an additional countercurrent contacting of the compress with reflux can be carried out, for example, on nozzle contact devices 13 (shown by a dotted line), which can be placed both in the upper and lower parts of the apparatus.

The invention is illustrated by the following example: 4300 nm / hour associated petroleum gas composition,% vol .: nitrogen 0.32; carbon dioxide 0.88; methane 8.17; ethane 9.89; propane 29.12; butanes 30.86; pentanes 14.69; C _{6+ the} rest at a temperature of 40 ° C and a pressure of 0.105 MPa is mixed with 454 nm / h of weathering gas, compressed to 0.6 MPa to obtain a compress with a temperature of 108.5 ° C, which is cooled to 76.5 ° C by heating phlegmy under conditions of its stabilization, and then to 40.0 ° C under reflux conditions to obtain 3669 nm ² / h of compressed gas and 3.59 t / h of stabilized condensate, which is weathered at 0.105 MPa and obtain a weathering gas and 2.24 t / hour of condensate with a saturated vapor pressure of Reid 109 kPa, which meets the requirements for stable gasoline grade BL according to TU 0272-020-00148300-06.

Compression of gas in accordance with the prototype under similar conditions made it possible to obtain 3609 nm / h of compressed gas and hydrocarbon condensate with a saturated vapor pressure of 136 kPa according to Reid, which does not meet the requirements of the norms.

From the example it follows that the proposed method allows to increase the yield of compressed gas, reduce the pressure of saturated vapor of the condensate and can be used in various industries.

Claims (2)

1. A method of compressing gas, including compressing the gas to produce a compress, heating the reflux compressor with stabilization of the latter to produce condensate, cooling the compress under reflux to produce reflux and compressed gas, characterized in that the gas is compressed in a mixture with the weathering gas, and the condensate is subjected weathering under reduced pressure to produce condensate and weathering gas. 2. The method according to p. 1, characterized in that they carry out additional countercurrent contacting of the compress with reflux.

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