SU778757A1 - Apparatus for preparing natural gas for transporting - Google Patents

Description

(54) DEVICE FOR PREPARING NATURAL GAS FOR TRANSPORT

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The invention relates to the technique of using solar energy, climatic conditions, as well as the natural thermal energy of gas in gas use, and more specifically in the preparation of natural gas for transportation.

A device for preparing natural gas for transport is known, which contains gas-ab sorbent and gas-air heat exchangers, the first of which is connected to a climate regenerator having an evaporation surface and associated with a container for regenerated absorbent l. five

The drawback of the device is the low intensity of evaporation of moisture from the surface of the regenerator due to the rapid cooling of the solution during heat exchange, which negatively shows 2U on the efficiency of the entire device.

In addition, the solution in the process of regeneration is not protected from precipitation, mechanical pollution and entrainment by wind.

The purpose of the invention is to intensify the process of absorbent regeneration.

The goal is achieved by the fact that the climate regenerator 30

It has an air passageway located beneath its evaporation surface, and a gas-air heat exchanger is connected to the passageway.

In order to expand the functionality, the climate regenerator can be made with a translucent fence, and the device can additionally contain a tank for collecting the distillate connected to the regenerator.

The drawing shows a diagram of a device for the preparation of natural gas for transport, containing heat exchangers 1 and 2, respectively, but the gas-absorbent and gas-air, the first of which is connected to the climate regenerator 3 having an evaporation surface 4 and associated with a capacity of 5 regenerated absorbent.

Climate regenerator 3 has a channel 6 for the passage of air, located under its evaporation surface 4, and a gas-air heat exchanger 2 is connected to channel 6. Climatic regenerator 3 is made with a translucent fencing 7, and the device additionally contains

778757

tank 8 for collecting distillate connected to regenerator 3.

In addition, the device contains those gas turbine 9 gas-gas, ib fittings, low-temperature separators D1, separation tank 12, heat exchanger 13 saturated absorbent-regenerated absorbent, pump 14.

Device.We are working on the following image. .

Raw gas with naturally high temperature (about 100 ° C for regions of Central Asia) is fed to parallel heat exchangers 1 and 2, where it is pre-cooled, the cibe junction is heated in the first — saturated ayorbent (diethylene glycol NDEG), in the second — air. Further, it passes through heat exchangers 9, where it is additionally cooled from the reverse flow of cold gas and, the passage through the throttling nipples 10 is supplied; at; low-temperature separators 11. / -K heat exchangers 9 pump 14 in; the gas stream supplies the regenerated absorbent (diethylene glycol - RDEG), which absorbs water vapor (becomes NDEG), and together with the gas condensate and part of the free water it precipitates at the bottom of the separators

11, from where, under the pressure of gas, the mixture is fed into the separation tank

12, where the separation of the mixture into NDEG, gas condensate and water occurs.

From the separation capacity of 12 cold NDEG, preheating in. heat exchanger 13, for further heating, is passed through heat exchanger 1, where it is heated under the influence of naturally high natural gas temperature. A heated YDGP 1 is fed to the evaporation surface 4 of the climatic regenerator 3. The southern-inclined regenerator 3 is a rectangular parallelepiped and the opposite fence 7 serves as protection from atmospheric protection, me- pey protection and the air flow of the wind, and the wind grid, and the wind grid, and the surface of the wind grid, and the surface of the wind grid and the wind grid and the wind grid and wind power of the wind ma- ter and the wind grid to protect the wind from the wind grid and the wind grid, and the wind grid, and the wind grid to protect the wind. for fumes. ,

The available air channel 6 co,; j; gpQ-HH on the back surface intensifies the process of evaporation of the process — through the 3TOwty channel of the flow of the spent hot air coming from the heat sink;

The edge of the evaporation surface 4 of the climatic regenerator 3 is in the form of a chute for collecting condensate in a neflpyISffoIfHeHa ne. vapor vod The bottom and side surfaces to the level of the receiving surface are insulated.

The RDEG from the surface 4 of the climate regenerator enters the tank 5 for liOBTOjpHoro use, and the distillate discharges water into the tank 8.

In the climatic regenerator 3, evaporation and condensation of water vapor occurs due to the temperature difference between the evaporation surface and the condensation surface.

On sunny days in the climatic regenerator, the saturated absorbent is additionally heated due to the incident solar radiation on the evaporation surface, as a result the evaporation and condensation process is intensified.

And during the nighttime burden and in cloudy weather, as well as in the autumn-winter period, the ambient air temperature decreases, which leads to an increase in 5 the temperature difference between the evaporation surface and the condensation surface, which leads to an intensification of the regeneration process.

Thus, the regeneration of NDEG-a 0 and the collection of distillate water occurs continuously throughout the day and year, but with different intensity.

In this device, the evaporation process is intensified by additionally performed at the base. the regenerator of the channel through which the stream of exhaust hot air passes from. gas-air heat exchanger.

0 In addition, when regenerating, the GND is protected from precipitation and Me-. It also produces distilled water for the technical needs of the gas field.

five . , Invention Formula

1. A device for the preparation of natural gas for transport, containing gas-absorbent heat exchangers

Gas-air is the first of which is connected to a climatic regenerator having an evaporation surface and associated with a capacity for a regenerated absorbent, so that, in order to intensify the regeneration process of the absorbent, the climatic regenerator has an air passageway located beneath its evaporation surface and a gas-air heat exchanger connected to the passageway.

2. The device according to Claim 1, which is based on the fact that, in order to expand its functionality, the climatic regenerator is made with a translucent fence, and the device additionally contains a tank for collecting distillate connected to the regenerator.

Sources of information taken by eo attention in the examination

1. USSR author's certificate in application 2417366 / 23-06, cl. B 01 D 53/26, 1976.

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water

Gas condensate

Claims (2)

Claim 1. Device for preparing natural gas for transport, containing gas-absorbent heat exchangers gas-air, the first of which is connected to a climatic regenerator having a surface of evaporation and connected with a capacity for a regenerated absorbent, with the exception of the fact that, in order to intensify the process of regeneration of absorbent, the climate regenerator has a channel for the passage of air located under its surface of Evaporation, and a gas-air heat exchanger is connected to the channel. 2. The device according to claim 1, with the exception that, in order to expand the functionality, the climate regenerator is made with a translucent fence, and the device further comprises a distillate collecting container connected to the regenerator.