RU87099U1 - DEVICE FOR SEPARATING A GAS-LIQUID FLOW - Google Patents

Abstract

1. A device for separating a gas-liquid stream, comprising a web with separation centrifugal elements placed on it, each of which is equipped with a swirl in the lower part and a droplet separator in the upper part, characterized in that the droplet separator of the centrifugal element is additionally equipped with a droplet separator. ! 2. A device for separating a gas-liquid stream according to claim 1, characterized in that the drop eliminators are made in the form of square webs in contact with each other with symmetrically located holes in which inclined plates are placed.

Description

The proposed utility model is intended for the separation of gas-liquid mixtures and can be used in the oil, gas, chemical and other industries.

A device for separating a gas-liquid stream, located in a gas-liquid separator (see RF patent No. 2162727, IPC ⁷ B01D 45/12, publ. 02/10/2001), comprising a sheet with separation elements placed on it with swirling elements in the lower part and droplets in the upper parts installed in the partition, while the centrifugal elements from the bottom are equipped with controlled valves, and the canvas is equipped with a drainage pipe.

Common features of the known and proposed devices are:

- the presence of the canvas with separation elements placed on it with swirls in the lower part and droplets in the upper part;

- the presence of a drainage pipe.

A disadvantage of the known device is the secondary ablation of liquid droplets with gas leaving the separation elements, and, as a consequence, the low separation efficiency of the gas-liquid stream.

The closest in technical essence and the achieved result to the claimed utility model is a device for separating a gas-liquid stream, placed in a gas-liquid separator (see RF patent No. 2153915, IPC ⁷ B01D 45/00, 19/00, publ. 10.08.2000), containing a web installed inside the distribution box with centrifugal elements and a drainage pipe, with each of the centrifugal elements equipped with a swirler in the lower part and a dropper in the upper part.

Common features of the known and proposed devices are:

- web with separation centrifugal elements placed on it;

- the presence of each separation centrifugal element of the swirler in the lower part and the dropper in the upper part;

- drainage pipe.

A disadvantage of the known device is the insufficiently efficient degassing of the separated liquid and, accordingly, the insufficient efficiency of gas and liquid separation, especially in cases of high liquid content in the separated mixture.

The technical problem is to achieve high efficiency separation of the gas-liquid stream by eliminating the secondary entrainment of liquid with gas.

The problem is achieved in that in a device for separating a gas-liquid stream, including a web with separation centrifugal elements placed on it, each of which is equipped with a swirl in the lower part and a droplet separator in the upper part, the dropper of the separation centrifugal element is additionally equipped with a droplet separator.

In addition, the drop eliminators are made in the form of square canvases in contact with each other with symmetrically located holes in which inclined plates are placed.

The claimed combination of features allows you to further separate the gas from the trapped liquid droplets in the interplate space of the inclined plates of the droplet eliminator, while eliminating the secondary ablation of aerosols with gas leaving the separation zone through the droplet eliminator, and thus, it allows to increase the efficiency of separation of the gas-liquid flow.

Figure 1 shows a section along AA of a device for separating a gas-liquid stream, and Figure 2 shows a top view of this device.

The device consists of a web 1, a separation of centrifugal elements 2, each of which is equipped with a swirler 3 in the lower part and a drier 4 in the upper part. The dropper 4 of the separation centrifugal element 2 is equipped with a droplet 5. The droplets 5 are made in the form of square canvases in contact (see Fig. 2) with symmetrically arranged holes 6 in which the inclined plates 7 are placed. On the canvas 1 there is also a drainage pipe 8.

The device operates as follows: the gas-liquid flow enters the separation centrifugal elements 2 through the swirl 3, where it is twisted, creating a centrifugal force. Under the action of centrifugal forces, the gas-liquid flow will separate. The purified gas is discharged through the central hole (not shown in the figure) of the dropper 4 of the separation centrifugal element 2, and the liquid is discharged along the inner surface of the separation centrifugal element 2 through the peripheral ring hole (not indicated in the figure). Moreover, along with the liquid, part of the gas is also discharged. The gas-liquid mixture formed between the separation elements is separated by gravity. The settled liquid is discharged through the drain pipe 8, and the gas is additionally separated from the trapped liquid droplets in the inter-plate space of the inclined plates 7, thereby preventing secondary entrainment of aerosols with gas, and then removed from the device.

Claims (2)

1. A device for separating a gas-liquid stream, comprising a web with separation centrifugal elements placed on it, each of which is equipped with a swirl in the lower part and a droplet separator in the upper part, characterized in that the droplet separator of the centrifugal element is additionally equipped with a droplet separator. 2. A device for separating a gas-liquid stream according to claim 1, characterized in that the drop eliminators are made in the form of square webs in contact with each other with symmetrically arranged holes in which inclined plates are placed.