UA60640A - Apparatus for preparing gas for transportation by the method of low-temperature separation - Google Patents

Abstract

Apparatus for preparing gas for transportation by method of low-temperature separation includes separators of the first and the second stage, heat exchangers, throttles, separator for wet condensate, ejector and apparatus for condensate stabilization. The apparatus for stabilization of condensate is made as two evaporators.

Description

Description of the invention

The invention relates to industrial installations for preparing gas for transportation by separating water and hydrocarbon condensate from it by the method of low-temperature separation and can be used in the gas industry, in particular at low-flow fields and individual wells.

A well-known installation for preparing gas for transportation by the method of low-temperature separation (see Ukrainian patent for an invention Mo24328A, IPC 6 RG2583/06, P2583/08), consisting of first and second-stage separators, heat exchangers, throttles, a wet condensate separator, a condensate stabilization unit 70 and the coolant heating unit. The known installation has insufficient efficiency of the gas treatment process due to the discharge of degassing gas from the condensate stabilization installation into the atmosphere.

The closest to the proposed technical solution is the installation for preparing gas for transportation by the method of low-temperature separation (see I.T. Balberdin "Physical method of processing and use of gas", M., Nedra, 1988, pp. 153-154, fig. 49) , containing separators of the first and 12 second stages, heat exchangers, throttles, a separator of wet condensate, an ejector and a condensate stabilization unit. Raw gas enters the first stage of separation, then it is throttled and enters the low-temperature separator, from where it is fed into the main gas pipeline. The weathered condensate enters the condensate stabilization unit for stabilization, where the final gas weathering takes place. The disadvantage of such an installation is the low efficiency of operation, because the degassing gas is discharged into the atmosphere from the condensate stabilization installation.

The basis of the invention is the task of improving the installation for preparing gas for transportation by performing a condensate stabilization installation in the form of two evaporators, in which the pressure decreases stepwise, and installing an ejector at the exit from the second evaporator to fully utilize the degassing gas and increase the efficiency of the installation.

The task is solved due to the fact that in the well-known installation for preparing gas for "transportation by the method of low-temperature separation, which contains separators of the first and second stage, heat exchangers, throttles, a separator of wet condensate, an ejector and a condensate stabilization installation, the latter is made in the form of two evaporators, one of which pipelines is connected through the chokes to the separator of the second stage and the separator of wet condensate, and the ejector is installed at the outlet of the degassing gas from the second evaporator and is connected to the separator of the second stage. "AND

Installation of condensate stabilization in the form of two evaporators with a step reduction in pressure, one of which, with a higher pressure, is connected through throttles with a second-stage separator and a wet-condensate separator, and the installation of an ejector at the outlet of degassing gas from the second evaporator, with a lower pressure , and connecting it with the second-stage separator allows you to completely dispose of the constant discharges of degassing gas

Because of its absorption by the ejector. at

The drawing shows the scheme of the proposed installation.

The installation includes separator 1 of the first stage, separator 2 of the second stage, heat exchangers C and 4, separator of wet condensate 5, evaporators b and 7, gas stabilization installations 8, ejector 9 and throttles 10, 11, « 12, 13 and 14. From 70 The installation is working so. c Natural gas from the well enters separator 1, where mechanical impurities are separated and

From" drip fluid (condensate, formation water, and hydrate formation inhibitor). Then the gas enters the heat exchanger 3, where it is heated by the coolant. After reducing the pressure and, as a result, reducing the temperature to minus at the throttle 10, the gas enters the separator 2, in which the condensate is completely removed from the gas. Then, if necessary, the prepared gas is heated in the heat exchanger 4 to a temperature of (0-3)7C and goes into the main gas pipeline. av | The mixture of formation water and condensate from the separator 1 through the throttle 11 enters the wet condensate separator 5 to separate the condensate from the formation water. b The degassing gas from the wet condensate separator 5 is sent to the separator 2 for further purification, after which it is discharged into the main gas pipeline, and the condensate is discharged through the throttle 12 into the evaporator 6 of the condensate stabilization unit 8, where the condensate from the separator 2 is also discharged through the throttle 13. c In the evaporator 6, due to the reduction of pressure on the throttles 12 and 13 and heating, further separation of the gas used as fuel occurs, and the condensate through the throttle 14 is discharged into the second stage of the condensate stabilization unit 8 - the evaporator 7 with a pressure close to atmospheric, in in which the final 22 separation of gas from condensate takes place. Condensate is stabilized and sent to the storage capacity of the product. products (not shown in the figure), and degassing gas is absorbed by the ejector 9 and enters the separator 2 for further purification and supply to the main gas pipeline.

Thus, the degassing gas is not released into the atmosphere, but is completely disposed of.

Claims (1)

The formula of the invention An installation for preparing gas for transportation by the method of low-temperature separation, containing first and second-stage separators, heat exchangers, throttles, a wet condensate separator, an ejector and a condensate stabilization installation, which differs in that the condensate stabilization installation is made in the form of two evaporators, one of which it is connected by pipelines through chokes to the second-stage separator and the wet condensate separator, and the ejector is installed at the outlet of the degassing gas from the second evaporator and is connected to the second-stage separator. « «c) « (Se) «c) (Se) - with . and? (o) («c) (o) sh" (42) 60 b5