RU2578281C1 - Method for preparation of associated petroleum gas - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to methods of preparation of associated gas and can be used in oil and gas industry. In preparation of associated petroleum gas purified from condensed moisture and mechanical impurities is mixed up with recycle gas, compressed, cooled and gasolined by absorption of stable oil, produced unstable oil is removed, and gas in presence of water and water condensate is subjected to mild catalytic steam reforming. Obtained catalyte is dried to produce commercial gas, water condensate and recycle gas. When required catalyte is further purified, and obtained concentrate impurities, as well as at least part of regeneration gas is used for auxiliaries.

EFFECT: technical result is high output and quality of commercial gas, reduced range of products and oil yield increase.

2 cl, 1 dwg

Description

The invention relates to methods for the preparation of associated petroleum gas and can be used in the oil and gas industry.

A known installation for the preparation of hydrocarbon gas [RU 2381822, publ. 02.20.2010, IPC B01D 53/04], during which the gas is compressed, cooled and separated to obtain a separation gas, which is subjected to adsorption drying to obtain a regeneration gas and dried gas, which is subjected to low-temperature processing and compression, and the regeneration gas is cooled, separated subjected to membrane cleaning and recycle.

The disadvantages of this method are the complexity, high metal and energy intensity of the equipment, large losses of hydrocarbons With ₄₊ with condensate during the separation of compressed gas.

Closest to the technical nature of the proposed invention is a method used during operation of the installation (station) for the integrated preparation of gas and hydrocarbon condensate [RU 137211, publ. 02/10/2014, IPC B01D 53/00], including at least one-stage compression, cooling and gas separation, stabilization of the obtained hydrocarbon condensate, drying of the obtained compressed gas and stabilization gas to produce dried gas, which is subjected to low-temperature gas processing to produce commercial gas and a wide fraction of light hydrocarbons.

The disadvantages of this method are the low yield and low quality of commercial gas, as well as the production of a wide fraction of light hydrocarbons and stable condensate, for which there are often no economically viable transportation options.

The objective of the invention is to increase the yield and quality of commercial gas, reducing the range of products and increasing the yield of oil.

As a technical result is achieved:

- increasing the yield and quality of marketable gas, as well as reducing the range of products due to methanation of gas instead of low-temperature gas processing and stabilization of condensate,

- an increase in oil yield at the treatment unit, which is a source of associated petroleum gas, due to absorption topping of the compressed gas with stable oil.

The specified technical result is achieved by the fact that in the known method, which includes at least one-stage compression, cooling and gas separation, as well as its drying to obtain water condensate, a feature is that before drying the gas is subjected to methanation together with water and water condensate, and before methanation, the gas is subjected to absorption topping with stable oil.

If necessary, increase the concentration of hydrocarbons in the prepared gas after methanation, carry out its membrane, adsorption or absorption purification.

Methane gas before drying allows you to remove C ₃₊ hydrocarbons from it and get the gas of the required quality. Methane can be carried out, for example, by mild catalytic steam reforming, due to the conversion of heavy hydrocarbons to methane and carbon dioxide by the reaction: С _n Н _{2n + 2} + (0.5n-0.5) Н ₂ О = (0.75n + 0.25) CH ₄ + (0.25n-0.25) CO ₂ .

Absorption topping of compressed gas before methanation allows the C ₅₊ hydrocarbons contained in associated petroleum gas to be returned to the oil preparation stage and thereby increase its yield.

The method is as follows: associated petroleum gas (I), purified from drip moisture and mechanical impurities, is mixed with regeneration gas (II), compressed by compressor 1, cooled and topped in the device 2 by absorption with stable oil (III), supplied, for example, from the end separation stage, the obtained unstable oil (IV) is led, for example, to the second separation stage, and the gas is fed to the methanation unit 3, where in the presence of water (V) and water condensate (VI), they are subjected to mild catalytic steam reforming. The resulting catalyzate (VII) is dried on block 4 to obtain commercial gas (VIII), aqueous condensate (VI) and regeneration gas (II).

At least part of the latter can be used for own needs, for example, as fuel gas. If necessary, the catalyzate (VII) is additionally purified at block 5, for example, of carbon dioxide, and the impurity concentrate (IX), for example, exhaust gas, is used for own needs, for example, as a fuel component for compressor drive (shown by a dotted line).

The invention is illustrated by the following example. Associated petroleum gas containing 5.9% vol. C ₃₊ hydrocarbons, including 0.55% vol. C ₅₊ hydrocarbons, in an amount of 18000 nm ³ / h at 0.3 MPa and 30 ° C, are mixed with 90 nm ³ / h of regeneration gas, compressed to 0.8 MPa and absorbed by 8 t / h of prepared oil to obtain 8, 6 t / h of unstable oil and 17800 nm ³ / h of stripped gas, which is subjected to soft steam reforming on a nickel-chromium catalyst together with 1.1 t / h of water and 0.3 t / h of a stream containing water. The resulting catalyzate is compressed to 5.5 MPa and dried on a composite adsorbent to produce a regeneration gas and 22900 nm ³ / h of commercial gas having a hydrocarbon dew point temperature below minus 30 ° C.

In the conditions of the prototype obtained 17,650 nm ³ / hour of prepared gas with a dew point temperature of hydrocarbons plus 40 ° C.

Thus, the present invention allows to increase the yield and improve the quality of commercial gas, reduce the range of products, increase the yield of oil and can be used in the oil and gas industry.

Claims (2)

1. A method of preparing associated petroleum gas, comprising at least one stage compression, cooling and separation of the gas, as well as drying it to produce water condensate, characterized in that before drying the gas is subjected to methanation together with water and water condensate, and before methanation, the gas is subjected absorption topping with stable oil. 2. A method of preparing associated petroleum gas according to claim 1, characterized in that after methanation, membrane, adsorption or absorption gas purification is carried out.

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