RU2097099C1 - Oil-gas separation apparatus - Google Patents

Abstract

FIELD: crude oil treatment. SUBSTANCE: inlet pipes of apparatus are provided with channels having hydraulic resistances. In one of the channels hydraulic resistance is in the form of a baffle labyrinth and in the other as nozzle opening. Both resistances in common with conical chamber form inlet scroll. EFFECT: facilitated separation process. 1 dwg

Description

 The invention relates to techniques for the preparation of oil, and in particular to devices for the separation of oil and gas mixtures and emulsions and can be used in the oil, oil refining and chemical industries.

Closest to the proposed device for the separation of oil and gas mixtures, comprising a housing, a conical chamber and tangential inlet nozzles [1]
The disadvantage is the low intensity of the process of separation of the oil and gas mixture, due to the insufficient temperature of oil heating.

 The objective of the invention is to increase the efficiency of the device by intensifying the separation process due to the presence of hydraulic resistance in the inlet pipes.

 This goal is achieved in that the inlet pipes are equipped with channels with hydraulic resistances, moreover, in one of the channels the hydraulic resistance is made in the form of a partition labyrinth, and in the other a nozzle hole, which together with the conical chamber forms an inlet cochlea.

 The drawing shows a General view of the apparatus in section.

The device contains two tangential inlet nozzles with channels 1 and 2, rolled into a spiral with a decreasing radius of twist, a conical chamber 3 of decreasing diameter and a separation housing 4. The first spiral channel with hydraulic resistance 5 and the second channel with resistance in the form of a nozzle hole, together with a conical camera form the input snail. In the figure, it is conventionally rotated with respect to the dividing body at an angle of 90 ^o . The separation housing includes pipe sections 6 and 7, the diameters of which are successively reduced, and an end pipe 8 with an end cap 9. The pipe sections are equipped with chambers for collecting wall layers of a rotating liquid-gas flow with outlet pipes 10 and 11. The pipe 12 is placed along the axis of the apparatus and serves to output light gas fraction in the opposite direction to the movement of the processed stream.

 The device operates as follows.

 Crude oil under pressure is sent to the apparatus in two streams. One oil stream is passed into channel 1 and forced through hydraulic resistance 5 in the form of a partition maze, as a result of which the oil temperature rises to temperatures at which the evaporation of light hydrocarbons approaches the maximum possible values, and the other oil stream passes through spiral channel 2 with a nozzle hole of less resistance. By changing the ratio of the number of flows entering the chamber 3, the heating of the working medium is regulated and the optimum phase separation temperature is selected at a given actual pressure in the conical chamber. Further, the working medium in the form of a rotating stream of a mixture of liquid and gas moves along the cone of the chamber and through the pipe 6, where the wall layer of oil is separated from the stream, which is removed from the apparatus through the collection chamber through the pipe 10. When the pipe 7 passes, the subsequent fraction of the liquid is separated through the chamber with the nozzles 11, and light hydrocarbons are removed through the Central pipe 12.

 Using the invention will allow not only to intensify the process of separation of the oil and gas mixture, but also to ensure the stability of the regime with the intensive nature of the process.

Claims (1)

 A device for separating the oil and gas mixture, comprising a housing, a conical chamber and tangential inlet nozzles, characterized in that the inlet nozzles are provided with channels with hydraulic resistances, moreover, in one of the channels the hydraulic resistance is made in the form of a partition labyrinth, and in the other in the form of a nozzle hole, which together with the conical chamber form the inlet snail.