SU1763791A2 - Device for collection and transportation of condensate in gas pipe line - Google Patents

Abstract

The invention: in the cavity of the ejector diffuser with a gap placed a cone, the angle of taper of which is equal to the angle of taper of the diffuser. The bottom of the cone is made in the form of a streamlined body of rotation. 1 silt

Description

This invention relates to gas pipeline transport, primarily from gas condensate fields.

The aim of the invention is to increase the efficiency of the device for collecting and transporting condensate on a gas pipeline.

To do this, a cone is placed in the cavity of the ejector with a gap, the cone of which is equal to the cone of the cone of the diffuser, and the bottom of the cone is made in the form of a streamlined body of rotation.

The drawing shows the proposed device, the cross section.

A device for collecting and transporting condensate on the pipeline I. contains a condensate collector 2, an ejector 3, the receiving chamber 4 of which is connected to the condensate collector 2 by a pipe 5; confuser 6 installed in the gas line 1 against the gas flow and connected to the working nozzle 7 of the ejector 3 placed in the gas pipeline 1. Displacement chamber 8 of the ejector 3 is connected to the diffuser 9, in the cavity of which the cone 10 is angled with a gap equal to the angle of taper diffuser 9. The bottom 11 is made in the form of a streamlined body of rotation - a paraboloid

The device works as follows.

Part of the gas moving through the pipeline 1 at high speed enters the confuser 6; the gas flow rate in the working nozzle 7 becomes greater than the gas flow rate in the gas pipeline 1.

The gas jet from the nozzle 7 creates a vacuum in the receiving chamber 4 of the ejector 3, and the gas pressure in the gas pipeline 1 acts on the condensate, as a result of which the condensate is sucked out of the condensate collector 2, and due to the fact that the ejector diffuser 3 communicates with the cavity gas pipeline 1, in the gas pipeline 1 from the ejector 3 enters the sprayed gas-condensate mixture. The sprayed condensate is carried away further by the gas stream. Since the ejector 3 operates continuously, while gas is transported through gas pipeline 1, the condensate is continuously pumped out of the condensate collector 2.

Due to the fact that the diffuser 9 and the cone 10 form an annular conical slit, the aerosol from this slit is directed to the peripheral part of the pipeline 1, where the gas flow has a maximum speed, since the ejector 3 is a constriction device. In this high-speed gas stream

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the aerosol is intensively mixed with the gas stream and carried along the gas line 1 further.

The presence of the bottom 11 in the form of a paraboloid prevents the ejector 3 from the formation of stagnant zones of reduced pressure and a reduced flow rate.

The application of the proposed technical solution makes it possible to increase the efficiency of the device due to the fact that the flow of aerosol from the ejector is directed to the zone of increased gas flow velocity, as a result, the conditions for mixing gas flows and aerosol are improved, and conditions of secondary dispersion of aerosol are also created in this zone. raising

the efficiency of the device is achieved by the fact that the stagnant zone is eliminated behind the ejector and, therefore, the possibility of condensate falling out is excluded.

Claims (1)

Claims of Invention A device for collecting and transporting condensate on a gas pipeline by bus. St. No 1665173, characterized in that, in order to increase the efficiency of the device, a cone is placed in the cavity of the ejector with a gap, the cone of which is equal to the angle of cone of the diffuser, moreover, the bottom of the cone is made in the form of a streamlined body of rotation. 77