RU2042376C1 - Gas separator - Google Patents

Abstract

FIELD: petroleum industry. SUBSTANCE: gas separator is an inclined pipe, whose gas- liquid mixture inlet connection is positioned on the top end of inclined pipe, and gas and liquid outlet connections are to be found on the bottom end, which is positioned above liquid level in outlet connection. EFFECT: effective separation of well products with employment of small-sized gas separators. 1 dwg

Description

 The invention relates to the oil industry and can be used in a system for collecting oil and gas.

 To increase the efficiency of measuring units for the flow rate of wells and oil separators before these units, small-sized tubular gas separators are used for preliminary separation of liquid and free gas in the production of wells.

 Known gas separator, including an inclined pipe and connected with it a U-shaped tubular elements mounted one above the other.

 However, this gas separator works in accordance with the filling of the entire system with liquid, with the exception of the uppermost gas pipeline, i.e. in this gas separator, gas floats through a liquid layer and a slow separation of gas and liquid occurs.

 The objective of the invention is to accelerate the separation of free gas and liquid and increase the efficiency of the gas separator.

 The goal is achieved by the fact that the gas separator is made in the form of an inclined pipe, at the upper end of which a hydrocyclone head is installed, through which a gas-liquid mixture is supplied, the gas and liquid separated in the gas separator are discharged separately from the lower end of the inclined pipe. On the nozzle, the exhaust gas is installed head with a chipper drops of liquid. The liquid is discharged through a vertical pipe, where the liquid level is maintained below the lower end of the inclined pipe, while the inclination of the pipe provides a thin layer of fluid movement in the pipe, i.e. the gas separator acts as a "dry separator".

 The required liquid level in the vertical nozzle is supported by the location of the gas separator above the upper liquid level in the subsequent apparatus (measuring device, separator, etc.), in front of which the gas separator is installed.

 The drawing shows a schematic illustration of a gas separator.

 The gas separator comprises a pipe 1 for introducing the mixture, a hydrocyclone head 2, an inclined pipe 3, a chipper 4 of liquid drops, and pipes 5 and 6 for discharging gas and liquid, respectively. The pipe 1 is located on the upper end of the pipe 3, the head 2 on the pipe 1. The bump 4 is located on the pipe 5. The pipes 5 and 6 are located on the lower end of the pipe 3, which is located above the maximum liquid level in the pipe 6.

 The gas separator operates as follows.

 The production of the well, the gas-liquid mixture through the pipe 1 through the hydrocyclone head 2 enters the inclined pipe 3. The hydrocyclone head promotes the separation of gas and liquid even when the gas-liquid mixture enters the inclined pipe. Liquid moves in a thin layer along the bottom of the inclined pipe, flows into the vertical pipe 6, from which the liquid is discharged. Gas is also discharged from the bottom of the inclined pipe through the head with a chipper 4 drops of liquid. Inclined pipe 3 is placed with a slope in the direction of fluid exit from it so that its lowest part is higher than the possible upper liquid level in the vertical pipe. Observance of these conditions allows the gas separator to operate in the "dry mode", i.e. without filling it with liquid. The fluid in the inclined pipe moves in a thin layer, while the gas and liquid are easily and quickly separated, the gas separator is efficiently operated at its small size.

Claims (1)

 A GAS SEPARATOR containing an inclined pipe with nozzles for introducing a gas-liquid mixture, a gas and liquid outlet, characterized in that the nozzle for introducing a gas-liquid mixture is located on the upper end of the inclined pipe and is equipped with a hydrocyclone head, the nozzle for discharging gas is equipped with a liquid droplet stopper, while nozzles for gas and liquid discharges are located at the lower end of the inclined pipe, which is located above the maximum liquid level in the liquid outlet pipe.

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