RU2550834C1 - Method and device for gas compression - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method including gas mixing with heated throttled circulating part of the compressed gas, the received mixture compression, compressed mixture cooling under dephlegmation conditions by the external cooling medium and throttled circulating part of the compressed gas with production of the compressed gas, that is divided to circulating and balance parts, and stable condensate production. For the method implementation the device is suggested, it contains a compressor connected with line of compressed mixture supply with fractional column, equipped with two heat-mass-exchange units cooled by the throttled circulating part of the compressed gas and by external cooling medium, at that top of the fractional column is equipped with compressed gas output line, and bottom - with condensate output line, and in line supplying the circulating part of the compressed gas connecting compressed gas output line and gas supply gas the throttling device is installed.

EFFECT: reduced temperature of compressed gas, reduced pressure of saturated condensate vapours, reduced losses of heavy components received from associated petroleum gas of the fuel gas with reduced water and hydrocarbons dew point.

5 cl, 1 dwg

Description

The invention relates to methods and devices for compressing gas and can be used in oil and gas and other industries for compressing a gas containing vapors of low-volatility (heavy) components, including associated petroleum gas, to produce compressed gas and condensate of heavy components.

A known method of compressing gas [Sokolov E.Ya., Singer N.M. Inkjet apparatus. - 3rd ed., Revised. - M .: Energoatomizdat, 1989, p.8] by compression in a jet compressor with a working medium, which is used as gas or liquid, and subsequent separation of the compress to produce compressed gas, condensate or spent working medium mixed with condensate. The method is carried out using a device consisting of a jet compressor equipped with gas and operating medium supply lines and connected by a supply line of a mixture of compress and working medium with a separator equipped with compressed gas and condensate discharge lines (or a condensate mixture with an exhausted working medium).

The main disadvantage of the known method and device are high energy costs due to the low efficiency inkjet devices. In addition, the resulting compressed gas is contaminated by the components of the working medium, and the condensate is unstable and has a high saturated vapor pressure.

The closest in technical essence to the claimed invention is a method and apparatus for compressing gas [Dronin A.P., Pugach I.A. Hydrocarbon gas separation technology, M .: Chemistry, 1976, p.31], which consists of a compressor equipped with a gas inlet line and a compressor outlet line, on which a refrigerator is installed, equipped with external refrigerant I / O lines connected by a chilled supply line a compressor with a separator equipped with compressed gas and condensate discharge lines. In this case, the gas is compressed using a compressor to obtain a compress, which is cooled by an external refrigerant (for example, water or air) and separated to obtain compressed gas and condensate. When compressing the gas that forms the stratified condensate, it is separated to produce light and heavy condensates, and the separator is additionally equipped with a light condensate discharge line. When compressing associated petroleum gas, if necessary, from compressed gas by throttling can be obtained fuel gas for gas reciprocating plants.

The disadvantages of the known method and device are:

- a relatively high temperature of the compressed gas, which complicates its further processing, for example, by adsorption treatment, low-temperature separation, etc.,

- high pressure of saturated vapor of the condensate due to the dissolution of gas components in it, which complicates its further use,

- loss of heavy components (for example, C ₅₊ hydrocarbons when compressing associated petroleum gas),

- the high temperature of the dew point of water and hydrocarbons of fuel gas obtained by throttling compressed associated petroleum gas, which complicates the operation of gas reciprocating plants.

The objective of the invention is to reduce the temperature of the compressed gas, reduce the pressure of saturated vapor of the condensate, reduce the loss of heavy components, as well as obtain from associated petroleum gas fuel gas with a reduced dew point temperature in water and hydrocarbons.

When implementing the invention as a technical result is achieved:

- an increase in the volumetric output of compressed gas, a decrease in the loss of heavy components with compressed gas and a decrease in the pressure of saturated vapor of the condensate due to cooling of the compressor in the reflux condenser,

- lowering the temperature of the compressed gas, as well as obtaining from associated petroleum gas fuel gas with a reduced dew point temperature for water and hydrocarbons due to additional cooling of the compressor in the reflux condenser with fuel gas.

The specified technical result is achieved by the fact that in the known method, comprising compressing gas using a compressor, cooling the compressor with an external refrigerant and separating it to produce compressed gas and condensate, the peculiarity is that the compressor is cooled in a reflux condenser, while the compressor is cooled after external cooling the refrigerant is subjected to additional countercurrent cooling by the throttled circulating part of the compressed gas, the compressed gas is divided into the balance and circulating parts, the last They are throttled and fed as a refrigerant to a reflux condenser, and stabilized condensate is obtained as condensate.

The stabilized condensate may, if necessary, be further cooled to the temperature of transportation or processing.

When compressing a gas that forms a stratified condensate during cooling, it is advisable to separate the latter additionally.

The proposed method is carried out using a device consisting of a compressor equipped with a gas input line and a compressor supply line, on which a refrigerator is installed, equipped with external refrigerant I / O lines, and a separator equipped with a compressed gas output line, the feature of which is that As a refrigerator and a separator, a reflux condenser is installed, the bottom of which is equipped with a stabilized condensate outlet line, while a heat and mass transfer unit is placed in the upper part of the reflux condenser, top to torogo connected to the fuel gas supply line equipped with a throttling device, with compressed gas outlet line and the bottom line is equipped with a fuel-gas output, and in the middle part above the feed dephlegmator situated teplomassoobmennyh kompressata line unit equipped with a line input / output external coolant.

To cool the stabilized condensate, a refrigerator can be additionally installed on the discharge line of the latter.

In order to discharge light condensate when compressing a gas that forms condensate during cooling, which decomposes into light and heavy condensates, it is advisable to equip the bottom of the reflux condenser with an output line of light condensate, while the condensate discharge line serves as a heavy condensate discharge line.

In the proposed method, the cooling of the compressor, carried out in a reflux condenser equipped with heat and mass transfer units, allows condensation of the heavy gas components to form reflux, as well as fractionation of the latter, thereby reducing the loss of heavy components with compressed gas, increasing the volumetric yield of the latter and lowering the pressure of saturated condensate vapor .

Additional countercurrent cooling of the compress with fuel gas cooled during throttling due to the Joule-Thompson effect to a temperature lower than the temperature of the external refrigerant allows to further reduce the temperature of the compressed gas and to obtain fuel gas with a reduced water and hydrocarbon dew point temperature.

Equipping the device instead of a refrigerator and a separator with a reflux condenser equipped with two heat and mass transfer units cooled by fuel gas and an external refrigerant allows the proposed method to be achieved and to achieve the claimed technical result through the use of a secondary energy resource - compress heat, which is irretrievably lost in the known methods.

As a reflux condenser, for example, a fractionating apparatus with a falling film can be used.

The proposed method is as follows (Fig.). The gas (I) is compressed by compressor 2, the compressor (II) is cooled under reflux first by an external refrigerant (III) in the heat and mass transfer unit 3 of the reflux condenser 4, then by fuel gas (IV) in the heat and mass transfer block 5, from the top of the reflux condenser 4 the compressed gas (V) is discharged , which is divided into the balance part (VI), which is removed from the installation, and the circulating part (VII), which is throttled by means of a device 6 (a throttle valve is conventionally shown), the compress in the upper heat and mass transfer unit 5 is cooled by the cooled fuel gas (VIII), and bringing out with the installation. Stabilized condensate (IX) is removed from the bottom of the reflux condenser.

The invention is illustrated by the following example.

5000 nm ³ / hour of associated petroleum gas composition,% mass .: nitrogen 4.12%, oxygen 0.05%, carbon dioxide 1.33%, water less than 0.01%, hydrogen sulfide 0.02%, methane 24.47 %, ethane 20.11%, propane 22.38%, C ₄ 15.10%, C ₅ 9.92%, C ₆₊ 2.48%, methyl and ethyl mercaptans 0.002%, with a temperature of 40 ° C and pressure of 0.58 MPa compress to 3.53 MPa gage, compress with a temperature of 150.9 ° C, cool with atmospheric air and fuel gas under reflux conditions and obtain 1.33 t / h of condensate with saturated vapor pressure according to Reid 1116 kPa and 4469 nm ³ / h compressed gas with a temperature of 35.7 ° C, part of which is throttled to 0.58 MPa gage. and get 2,000 nm ³ / hour of fuel gas with a methane index of 45.5 (44.5 norm), a water dew point temperature of -11.9 ° C and a hydrocarbon temperature of -5.4 ° C. The loss of C ₅₊ hydrocarbons was 0.151 t / h.

When gas was compressed in accordance with the prototype under similar conditions, 1.63 t / h of hydrocarbon condensate with a saturated vapor pressure of 1688 kPa and 4259 nm ³ / h of compressed gas with a temperature of 40.1 ° C were obtained with a throttling part of which 2000 nm ³ was obtained / hour of fuel gas with a methane index of 45.9, a water dew point temperature of -11.7 ° C and 1.6 ° C for hydrocarbons. The loss of C ₅₊ hydrocarbons with compressed gas was 0.572 t / h.

From the example it follows that the proposed method and device can reduce the temperature of the compressed gas, reduce the pressure of the saturated vapor of the condensate, reduce the loss of heavy components, and also obtain fuel gas with a low temperature dew point on water and hydrocarbons. The invention can be used in the oil and gas and other industries.

Claims (6)

1. A method of compressing gas, comprising compressing gas using a compressor, cooling the compressor with an external refrigerant and separating it to produce compressed gas and condensate, characterized in that the compressor is cooled in a reflux condenser, and the compressor, after cooling with an external refrigerant, is subjected to additional countercurrent cooling by a throttled circulating part of the compressed gas, the compressed gas is divided into balance and circulating parts, the latter is throttled and served as a refrigerant in the reflux mater, and stabilized condensate is obtained as condensate. 2. The method according to claim 1, characterized in that the stabilized condensate is further cooled. 3. The method according to claim 1 or 2, characterized in that the stratified condensate is additionally separated. 4. The device for implementing the method according to claim 1, consisting of a compressor equipped with a gas input line and a compressor supply line, on which a refrigerator is installed, equipped with external refrigerant I / O lines, and a separator equipped with a compressed gas output line, characterized in that a reflux condenser is installed as a refrigerator and a separator, the bottom of which is equipped with a stabilized condensate outlet line, while a heat and mass transfer unit is placed in the upper part of the reflux condenser, the top of which is connected by a Livni gas, equipped with a throttling device, with compressed gas outlet line and the bottom line is equipped with a fuel-gas output, and in the middle part above the feed dephlegmator situated teplomassoobmennyh kompressata line unit equipped with a line input / output external coolant. 5. The device according to claim 4, characterized in that a refrigerator is installed on the output line of the stabilized condensate. 6. The device according to claim 4 or 5, characterized in that the reflux condenser is equipped with light and heavy condensate discharge lines.

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