SU601302A1 - Low-temperature separator - Google Patents

Description

The invention relates to the purification of gases from liquid impurities and can be used in the systems for the preparation of gas for tra-sparta, in particular, in natural gas fields.

A known installation for “temperature-temperature separation of gas, including (in a chimney tube €” tangentially located nozzles and diaphragm), a cold flow pipeline, a separator, a hot flow pipeline and a low-temperature separator containing two one of which, peripheral, is connected to the pipeline of hot gas flow (separation line), and the other, central, to the pipeline of cold gas flow, and a straight line separator connected to the outlet of chamber 1.

In the chamber of a low-temperature separator, heat exchange takes place between the swirled separated gas and the cold gas swirling inside it in the same direction, n simultaneously.

In this device, in order to ensure the required degree of separation, your camera must be of sufficient length so that the heat transfer between the streams is complete. Such a chamber in order to insure heat exchange is a disadvantage of the known low temperature icen.apaTOpa.

The aim of the invention is to increase the intensification of heat exchange by streams and the elimination of the central core of the cold gas flow.

This goal is achieved by the fact that the camera has a heat-blender equipped with a drum, which is co-centric inside it with the possibility of enemy forces. In this case, the drum is provided with truncated cones fixed in the lower part.

The drawing shows praalagaemy separator. Longitudinal section.

Claims (2)

The low-temperature separator contains a heat exchange chamber 1, a pipeline 2 for supplying a hot gas stream (separated), a pipeline 3 for supplying a cold gas stream. The pipeline 3 is placed in the chamber 1 concentric. A swirler 4 is installed inside the pipeline 5, and a peripheral swirler 5 is located outside the chamber in the gap between the chamber. The chamber (with its lower part) is connected to a condensate collector 6, in the housing 7 of which is located the central pipeline 8. The upper end of the latter is located at the bottom of the chamber. The side surfaces of the pipeline 8 are fixed with baffle plates 9, under which holes 10 are made. The pipeline 5 is connected to a discharge pipe 11. A borehole 12 is installed above the baffle plates 9, which is designed to prevent upward flow along the pipeline 8 when the separator is in operation. Wiutri chambers 1 are concentrated. It is located on the right. Pa: 5an 13 with the Rotation capability in bearings 14, one of which (upper) is located in the i / 5 cowl 1Ts. Of the central swirl of body 4, and the other in the central pipeline 5. At the bottom of the drum is 13 sleep: bzhen truncated cones .16, installed, and large bases down. Low-temperature separator operates as follows. Separable -gas flow: supplied through pipeline 2, and cold - through pipeline 3. These flows then pass through the peripheral scavenger 5 and Central 4, respectively, resulting in a double-layer translational / rotational heat exchange chamber / CUT, the outer layer of which is a separated Gas, .a. inside - cooled h, nstoy gas. Tray when diving inside the chamber of the ter.it.it BO Sch.antation of the bar: ba.n, since the day after, the day is freely installed in the bearings 14. Due to the rotational movement and ensuring a sufficiently high ratio of the tangential component of the pulsation turbulence, does not have a significant effect There is no mixing of layers on the flow structure and in it. By rubbing, the velocities of the flow layers are equalized. Due to the difference in the temperatures of the layers, a rapid heat flux is formed, resulting in the temperature of the layers of the layers being equalized along its radius. The outer layers of the trap are cooled by transferring their heat to the inner layers.: As the outer layers of the gas cool down, suspended solids: ndate, and curling hydrocarbons and water fall out, under the action of "e) radioactive forces, they move to the walls of the condensate collector 6 and, being continuously enlarged, flow into the collection. The separation of the condenser is facilitated by the fact that part of the gas from the outer layers for separation of its condensate enters the collector 6, from which, in a cleaned state, through the openings JO under the plate 9, the outlet goes to the center pipe 8, mixing with the center of the purified layers of the stream that passed the chamber. The inside of the Drum Chamber prevents the formation of a central core in the double-layer flow, thanks to which the thickness of the heat exchanging layers is reduced, which intensifies their heat exchange. Truncated cones on the lower hour of the bar: the ban improves / the process of condensate separation from the stream, thanks. the cross section between the chamber and the drum is reduced, and therefore the gas is pr. io.trucks greater speed.The proposed separator should be used in gas preparation systems for transport when there are two streams ase with approximately equal pressure, some of which are hot and humid, and another cold. Separated, for example, resulting from the temperature separation of gas in the whirlpool chamber. Formula 1. 1. Low-temperature sepa-rato-p containing a heat exchange chamber with two swirlers, one of which, the peripheral one, is connected to the hot gas flow pipeline, and the other, the central one, to the HOLO pipeline. A separate gas flow, separate heat transfer chamber, tl and h and y shch. and with the fact that, with the purpose of the inte.noi | fika ii 1mezhdu potokam.i heat transfer by removing the central core h.olodnogo .poto.ka gas, heat-Enna. The chamber is equipped with a bar-baiom, installed in the center of the core, but inside it is rotatable. 2. The separator according to claim 1, of which is that the drum is equipped with truncated at the bottom of the truncated and zhanusy. The source of information taken into account in part for examination: 1. USSR Author's Certificate N ° 380923, cl. F; 25 B 43/00, 1973.  J JX V ;; Yu