SU445449A1 - Plant for natural gas dehydration - Google Patents

Description

(54) INSTALLATION FOR DRIING NATURAL GAS

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This invention relates to installations for the dehydration of natural gas used in the gas industry.

Similar installations are known, containing a series-connected separator, a first stage, a heat exchanger for gas cooling, a second stage separator, and adsorbers with a device for regenerating the adsorbent.

In the proposed installation, the device for adsorbent regeneration consists of a heat exchanger for heating the regeneration gas and sequentially connected vortex tubes, while the cold end of these tubes is connected to the heat exchanger for gas cooling, and the hot end to the heat exchanger for heating the regeneration gas, at the outlet of which a heater is installed, connected to the adsorber.

This makes the installation more com.

The drawing shows the flow chart of the proposed installation.

The installation consists of separators 1 and 2, heat exchangers 3 and 4, adsorbers 5 and

fej vortex tubes 7-9, heater 10, valve 11, switching operating mode.

The dried air is discharged from the installation through pipeline 12, and the low-pressure exhaust gas through pipeline 13.

The installation works as follows.

The moist gas entering the installation passes through the separator 1, where it is cleaned of mechanical impurities and dropping liquid, 1 enters the heat exchanger 3, in which its temperature drops. As the temperature decreases, part of the water vapor and heavy hydrocarbons condenses and then separates from the gas stream by separator 2. Next, the dried gas is directed to one of the adsorbers, where the drying rate increases. After passing through the bed of adsorbent, dry gas is removed from the plant through line 12.

A portion of the dry gas is withdrawn from line 12 and sent for expansion into vortex tubes 7-9. The cold gas flow, entering the heating energy to 3 from pipe 9, is somewhat heated by transferring heat to the raw gas. Then the gas hit .... It goes to the heat exchanger 4, where its temperature is raised by a hot stream from the vortex tube 8. After that, the gas is fed into. a heater 10, and then it is used to regenerate the adsorbent in one of the adsorbers that is currently being regenerated. After passing through the adsorbent layer, the gas flow is directed; a low pressure waste gas line 13 is used. -. . -. / When cooling the regenerated adsorbent, the cold gas stream used as a source of cold in heat exchanger 3 is fed to the adsorber, mine heat exchanger 4 and heater UD. The gas of the hot flow of the vortex tubes 7, 8 after the heat exchanger 4 is fed through the pipeline 13. The low-pressure gas is discharged from the installation and used for local needs as fuel (for powering the heater, elektrostandin etc.). Pretreatment of gas and natural gas dehydration plant, holding together a separator of the fifth stage, a heat exchanger for gas cooling, a second water separator, adsorbers with a device for regenerating the adsorbent, which is , in order to increase the compactness of the installation, the regeneration device consists of a heat exchanger for sub-; heating of the regenerative gas and sequentially connected vortex tubes, while the cold end of these pipes is connected to the heat exchanger to cool the gas, and hot to the heat exchanger to heat the regeneration gas, the output of which is equipped with a heater connected to the adsorber. mx-5-4 X5-CGHN TT J, I .t G |