RU2301700C1 - Dispergator - Google Patents

Abstract

FIELD: chemical industry; petrochemical industry; gas-and-oil producing industry; other industries; devices for improvement of the processes of production of the homogenous mixtures.

SUBSTANCE: the invention is pertaining to the means of the petrochemical process engineering operation in the liquid medium and may be used in chemical, oil-and-gas and other industries for improvement of the processes of production of the homogenous mixtures. The dispergator contains the body, the stud with the fixers, the impellers of the greater dimension, the impeller of the smaller dimension, the spring, the bushes. The vanes of the impellers have the sharp edges. The impellers are gyrated in the counter directions. The technical result of the invention consists in the increased efficiency for provision of the homogenization of the oil-and-gas stream in the oil-and-gas pipeline.

EFFECT: the invention ensures the increased efficiency for provision of the homogenization of the oil-and-gas stream in the oil-and-gas pipeline.

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Description

The invention relates to means of petrochemical technology operating in a liquid medium, and can be used in chemical, oil and gas and other industries to improve the processes for producing homogeneous mixtures, in particular to means for homogenizing oil and gas flows.

A device for controlling the flow of a homogenized oil and gas stream (RF certificate No. 26830 for utility model, class F16K 17/04, publ. 2002), containing an impeller and a spring.

The known device does not provide sufficient uniformity of oil and gas flow.

An object of the present invention is to provide a device devoid of this drawback.

The technical result is to increase efficiency to ensure uniformity of oil and gas flow.

The result is achieved in that additional impellers, a stud with clamps and bushings mounted on the stud between the impellers are introduced into the disperser containing the impellers and the spring, with two groups of impellers made larger and installed at the ends of the studs near the clamps, two other groups of impellers made smaller of size and are installed between the groups of impellers of a larger size, between the groups of impellers of a smaller size a spring is installed, the impellers of a larger size and the impellers of a smaller size full rotatable in opposite directions.

The design of the dispersant is shown in the drawing, which shows the casing 1 of the oil and gas pipeline, pin 2 with clips 3, two groups of impellers 4 of a larger size, two groups of impellers 5 of a smaller size, spring 6, blades 7 of the impellers 4, 5, bushings 8 installed between the impellers of all groups .

The blades of the 7 impellers have sharp edges. The impellers 4 of both groups rotate in one direction (for example, counterclockwise), the impellers 5 of both groups rotate in the other direction (for example, clockwise). The impellers are installed as follows: (from left to right) the first group of impellers 4, the first group of impellers 5, the spring, the second group of impellers 5, the second group of impellers 4.

Dispersant works as follows.

The dispersant is placed in the oil pipeline and start the oil and gas stream. The flow forces the impellers 4 and 5 to rotate. The impellers 4 have a blade diameter close to the inner diameter of the pipeline, rotate counterclockwise and serve to ensure the diametrical stability of the device in the pipeline and, in part, to grind foreign particles in the oil and gas stream. The spring 6 eliminates the backlash caused by the rotation and interaction of two pairs of groups of impellers 4 and 5. The impellers 5 have a blade diameter smaller than the diameter of the impeller blades 4 and rotate clockwise at a greater angular speed than the impeller blades 4. Since the blades 7 of the impeller 4 , 5 have sharp edges, then during rotation they crush all foreign particles (salt, paraffin, etc.) that are present in the oil and gas stream and pass through the device. It should be noted that the thicknesses of the bushings 8 are selected in such a way as to ensure dynamic interaction of the edges of adjacent impellers. By dynamic interaction, in this case, it is necessary to understand the creation of gaps between the edges of adjacent blades of 7 impellers 4 or 5, which ensure the minimum sizes of ground particles and prevent the edges of the blades of 7 adjacent impellers from touching. This interaction provides the best mode of grinding impurities in the stream. This homogenizes the flow and does not clog the subsequent metering mechanisms and valves of the pumps. Thus, the invention allows for high efficiency in the processing and homogenization of the oil and gas stream. This allows you to increase the operating time of the mechanisms.

Claims (1)

A dispersant comprising impellers and a spring, characterized in that additional impellers, a stud with clamps and bushings mounted on the stud between the impellers are introduced to ensure dynamic interaction of the edges of the blades of adjacent impellers, the edges of the blades are pointed, and two groups of impellers are made larger and mounted on the ends of the studs near the clamps, the other two groups of impellers are made smaller and installed between the groups of larger impellers, between the groups of impellers m A spring nshego size, the bigger the impeller and a smaller size impeller adapted to rotate in opposite directions, are made larger impeller diameter close to the diameter of the pipeline.