RU174396U1 - DEVICE FOR INPUT REAGENT IN PIPE SPACE - Google Patents

Abstract

The invention relates to devices for introducing a chemical reagent into a stream flowing in a pipeline and can be used in the oil and other industries, in particular, when carrying out the process of oil dehydration by introducing a demulsifier into the oil and water stream. The essence of the invention is that in the device for introducing the reagent into the tube space, made in the form of a tubular probe equipped with outlet openings located at different levels along its height, according to a utility model the triad contains a receiving part, including a holder made in the form of a base having through holes distributed over its cross-sectional area, and an outlet part containing tubes open from the input and output ends, the input end of each of which is fixed in one of the through holes of the base, the tubes have different lengths, and the outlet openings of the tubes located at the outlet end serve as the outlet openings of the probe. The technical result achieved by the implementation of the claimed utility model is a more uniform distribution of the chemical reagent in the stream flowing through the pipeline. 1 s.p. f-ly, 2 ill.

Description

The invention relates to devices for introducing a chemical reagent into a stream flowing in a pipeline and can be used in the oil and other industries, in particular, when carrying out the process of oil dehydration by introducing a demulsifier into the oil and water stream.

A device for introducing a chemical reagent into the pipe space [RU 2418233].

The device under consideration is made in the form of a probe installed in the upper half of the pipeline through which reagent is introduced into the pipeline. Structurally, the probe is a rotating drum, on the side surface of which there are outlet openings. Impellers are installed on the outer surface of the drum. The drum is made with the possibility of connection with the reagent supply unit and is installed so that its axis is located in a plane perpendicular to the axis of the pipeline with an offset relative to its center.

This device is complex in design and installation, while due to the fact that it is located in the upper half of the pipeline, it does not ensure uniform distribution of the reagent in the stream flowing through the pipeline.

A device for introducing a reagent into the pipe space [RU 2308639], which is selected as the closest analogue.

The device in question is made in the form of a tubular probe equipped with outlet openings installed in a pipeline through which a stream flows. These holes are located on the lateral surface of the probe at different levels along its height. The diameters of the outlet openings are selected from the condition of providing an increase in the proportion of the supplied reagent from the periphery to the center.

This device is simple in design and allows you to adjust the amount of input reagent.

However, since the outlet openings have different diameters and are distributed in the pipe space only by its level, the device in question is not intended for uniform distribution of the reagent in the flowing stream through the pipeline.

Meanwhile, a more uniform distribution of the reagent over the volume of the flowing through the pipeline contributes to the intensification of the process carried out using the reagent, and also allows to achieve the desired result of the action of the reagent with a smaller amount.

The problem to be solved when implementing the utility model is to increase the uniformity of the distribution of the chemical reagent in the flow flowing through the pipeline.

The essence of the utility model lies in the fact that in the device for introducing the reagent into the tube space, made in the form of a tubular probe, equipped with outlet openings located at different levels along its height, according to the utility model, the device comprises a receiving part including a holder made in the form of a base having through holes distributed over its cross-sectional area, and an outlet part containing open tubes from the input and output ends, the input end of each of which is fixed in one m of the through-holes of a base, wherein the tubes are of different lengths and disposed at the downstream end of the outlet openings are tubes outlets probe.

In the particular case of the utility model, the outlet openings of the tubes have a beveled surface.

Due to the fact that the inventive device is made in the form of a tubular probe having a receiving part with through holes for connecting to the reagent supply unit in the pipeline and an outlet part located in the pipeline with outlet openings, it is possible to introduce the reagent into the pipeline using the inventive device along which the stream flows.

Moreover, due to the fact that the exhaust part of the claimed device contains a group of tubes distributed over the holder’s area having different lengths, the device’s outlet openings are located in different sections of the pipe space and at different levels along the height of the pipeline.

By introducing the reagent through the spatially spaced outlet openings, a more uniform volume distribution of the reagent in the flow flowing in the pipe in space in the installation zone of the device is achieved.

Accordingly, the zone of interaction of the reagent with the medium moving in the pipeline increases.

These effects contribute to the intensification of the process carried out using the reagent and allow to achieve the desired result of the action of the reagent with a smaller amount.

Thus, the technical result achieved by the implementation of the claimed utility model is a more uniform distribution of the chemical reagent in the stream flowing through the pipeline.

In the case when the outlet openings of the tubes have a beveled surface, the surface area from which the reagent is discharged increases, and when the openings are in the opposite position with respect to the flow, turbulence zones arise near the outlet ends of the tubes. This helps to increase the contact area and more intensive mixing of the reagent and the medium flowing in the pipeline, as well as to increase the distribution area of the reagent in the stream, which helps to increase the uniformity of distribution of the reagent in it.

In particular, it is advisable that the angle of inclination of these beveled surfaces relative to the horizontal surface is from 50 to 60 degrees, since at the indicated angle the area of the outlet openings increases significantly and the effects associated with the turbulence of the flow in the reagent discharge zone are clearly manifested.

In FIG. 1 presents a General view of the inventive device; figure 2 presents a General view of the inventive device in a perspective view.

The device is made in the form of a tubular probe intended for installation in the pipeline 1.

The device comprises a receiving part including a holder 2 made in the form of a base having, in particular, a disk-shaped shape having through holes 3 distributed over its cross-sectional area.

The device also contains an outlet part containing open from the inlet and outlet end of the tube 4. In particular, the device contains four tubes 4 of the same diameter, uniformly distributed around the periphery of the base 2. The input end of each of the tubes 4 is fixed in one of the through holes 3 of the base 2, in particular with a threaded connection.

The tubes 4 have different lengths. The outlet 5 of the tubes 4 serve as the outlet of the device.

In particular, the lengths of the tubes 4 are chosen so that their outlet openings 5 are evenly distributed along the length of the part of the device installed in the pipeline 1, which is comparable with its diameter.

The outlet openings 5 of the tubes 4 have a beveled surface, the bevel angle of which with respect to the horizontal surface, in particular, has a value from 50 to 60 °.

The device operates as follows.

Mount the device on the pipeline 1, in particular, fix the base 2 in the pipe (not indicated by the figure in the drawing) located in the upper part of the pipeline by its diameter.

In this case, the outlet 5 of the tubes 4 are located at different levels along the height of the pipe 1.

In particular, the base 2 is fixed in the specified pipe so that the holes 5 are opposed to the direction of flow in the pipe 1.

The base 2 is connected to a reagent supply unit (not shown in the drawing), in particular, to a pipeline of a reagent supply line including a reagent storage tank and a pump.

The reagent is supplied through tubes 4 to a flow of liquid or gas or gas-liquid medium moving through the pipeline 1, while the reagent is introduced through openings 5 into various zones distributed over the volume of the tube space and located in different sections of the pipeline 1 and spaced apart along its height.

Claims (2)

1. A device for introducing a reagent into a tube space made in the form of a tubular probe equipped with outlet openings located at different levels in height, characterized in that the device comprises a receiving part including a holder made in the form of a base having its distributed over the area cross-section through holes, and an outlet part containing open from the input and output ends of the tube, the input end of each of which is fixed in one of the through holes of the base, while the tube hav e a different length and arranged at the outlet end the outlet openings are tubes outlets probe. 2. The device according to claim 1, characterized in that the outlet openings of the tubes have a beveled surface.

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