SU1304845A1 - Apparatus for degassing liquid mixture - Google Patents

Abstract

The invention relates to devices designed to separate dissolved and finely dispersed free gas from a liquid by gravity separation, and can be used in the oil, gas, petrochemical, chemical industries, while simplifying the design of the device, facilitating the manufacture and installation of the degassing element. and improve the cleaning efficiency of the fluid. The degassing element 5 is made in the form of a set of flat inclined partitions 6 and 7 and vertical partitions 8. The oblique partitions, two extreme 6 and one middle 7, constitute a transverse row, which is successively repeated along the longitudinal axis of the chamber 1. The extreme partitions 6 form longitudinal rows, and partitions 7 — the middle row, located along the longitudinal axis of chamber 1. Vertical partitions 8, having a diamond-shaped perimeter edges, are installed tightly to the edges of inclined partitions 6 and 7 and completely block the passage th section between transverse rows in the transverse direction. 3 il. i (L / 7 18 oo o 4 00 Nj SP W Figure 1

Description

Izobrstsine o lJiocHTCH to devices designed to separate dissolved and finely depnergated free gas from the railway by gravity separation, and can be used in the oil, gas, petrochemical and chemical industries.

The aim of the invention is to simplify the design of the device, facilitate the manufacture and installation of the degassing element and increase the efficiency of the degassing of the liquid.

Figure 1 is a schematic representation of a device for degassing a liquid; figure 2 is the same, top view; FIG. 3 is an isometric image of two adjacent non-pointed rows of inclined partitions (conventionally moved apart along the longitudinal axis of the chamber).

The device consists of a horizontal cylindrical chamber 1, the internal structure of which is divided by an ilocular surface 2 of gas and liquid separation into a separation volume of gas 3 and a recovery volume of liquid 4. A degassing element 5 is fixedly located in the recovery volume 4 of liquid below a flat surface 2 of section made in the form of a set of flat, differently inclined partitions 6 and 7 and vertical partitions 8. Three inclined partitions: two extreme 6 and one middle 7 are composed in transverse row 9, which are successively The second section along the longitudinal axis of chamber 1. As a result, the extreme partitions 6 form longitudinal rows 10, and the spans 7 form the middle row P located along the longitudinal axis of chamber 1. The middle row 11 is composed of one-sidedly inclined partitions in the direction to the exit of fluid from chamber I, the extreme longitudinal rows 10 have an inclination of the partitions in the opposite direction. Vertical longitudinal partitions 8, having a diamond-shaped irrimeter, are installed tightly and without a gap to the edges of the inclined partitions 6 and 7 and completely block the flow area between the transverse rows 9 in the bore direction.

The inclined partitions 6 and 7 form with the plane of the vertical cross section of the chamber 1 a conditional continuous horizontal intersection line 12 and are joined to each other at the points of the 13 side edges.

On the body of the camera 1 is installed the pipe 14 of the inlet of aerated liquid and the nozzles 15 and 16 of the exit of gas and degassed liquid, respectively.

The movement of two pairs of fluid flows is carried out along current helical lines 17 and 18.

The device works as follows.

The flow of carbonated liquid enters the chamber 1 through the nozzle 14 and acquires a screw motion; the obstruction partitions 6 and 7 flow around. The total fluid flow is divided into two. pairs of screw lines 17 and 18 of current, each pair of which has a common longitudinal axis located under the flat section 2 surface and symmetrically to the vertical axis of chamber 1. Each pair of current helical lines 17 and 18 has the opposite direction of winding: left from the vertical axis of camera 1 - against the movement of the hour hand, and the right - by the movement of the hour hand.

In each pair, the helical current lines differ in the initial phase of the twist winding: one, for example, 17, begins in the flow section under the docking point 13 of the inclined partitions 6 and 7 and then rises from one side of the vertical septum 8, and the other current line 18 begins above point 13 and descends on the other side of the partition 8.

Thus, in the proposed device, the total fluid flow is divided in pairs into four streams. This reduces the distance from the deepest fluid layers to the interface 2 and improves the degassing process.

The flow section between the transverse rows 9 in the transverse direction towards the longitudinal chamber 1 is diamond-shaped, and within each transverse row 9 it has the shape of an isosceles triangle formed by the nloscopes and lateral edges of the inclined partitions 6 and 7 with a top at point 13 located either above the base of the base of the triangle or below it.

All elements of the proposed degassing device, in contrast to the known device, are flat parts with a straight edge configuration. Production of partitions does not require the use of tooling, equipment and the development of new manufacturing technology. The assembly of the degassing device during the installation of elements inside the gas-oil separators is distinguished by the simplicity of the connection of individual parts and can be carried out in field conditions.

Claims (1)

Invention Formula A device for degassing a liquid, comprising a horizontal cylindrical chamber with nozzles for the inlet of a gas-liquid mixture and an outlet for gas and liquid, a degassing element fixedly and rigidly installed in the chamber and partially protruding above the interface of gas and liquid in the chamber. simplify the design, facilitate the manufacture and installation of the degassing element and increase the efficiency of degassing; the degassing element is designed as a set of flat inclined partitions installed Racks along the longitudinal axis of the chamber, and vertical partitions arranged parallel to 18 12 10 9 9 9 81 1 parallel to the longitudinal axis of the chamber between the transverse rows, with each transverse row containing an odd number of inclined partitions, and the adjacent inclined partitions in each transverse row are inclined in opposite directions from the plane of the cross section of the chamber. d1 6 Phage.