SU1642092A2 - Deep-well multinozzle jet pump - Google Patents

Abstract

The invention relates to inkjet technology. The purpose of the invention is to improve reliability by preventing clogging of the pump flow section. The downhole multi-jet jet pump comprises a housing 1, a supply pipe (T) 2, circumferentially active nozzles 3 with mixing chambers 4 corresponding to each active nozzle 3 and an axial channel 5 for supplying a passive medium. Channel 5 is made in the form of a pipe 9 with radial outlets 10. The pump is equipped with a cone-shaped grid 11, channel 5 communicates with T 2 and is provided on the T 2 side with a conical seat 12 with valve 13, and the grid 11 is installed in T 2 coaxially with channel 5 and Matched with a smaller base of the cone with a seat 12 valve 13. 1 sludge.

Description

The invention relates to inkjet technology, mainly to jet pumps for oil production, and is an improvement of the invention on the author. USSR iSfe 1525341.

The purpose of the invention is to increase reliability by preventing clogging of the flow path of the pump.

The drawing shows a jet pump, a longitudinal section.

The downhole multi-jet jet pump comprises a housing 1, a supply pipe 2, circumferentially active nozzles 3 with a mixing chamber 4 corresponding to each active nozzle 3 and an axial channel 5 for supplying a passive medium. The pump is equipped with a distribution spacer 6, located behind the output section of the mixing chambers 4 and forming a toroid-shaped chamber 7, in the housing 1 at the outlet of the latter tangential pressure channels 8 are arranged at an acute angle to the longitudinal axis of the pump and oriented upward, and the channel 5 for supplying a passive medium made in the form of a nozzle 9 with radial outlet openings 10. The pump is equipped with a cone-shaped grid 11, the axial channel 5 for supplying the passive medium is connected to the inlet pipe 2 and provided 2 boprovoda conical seat 12 with the valve 13 and the grid 11 is present in the inlet pipe 2 coaxially to the axial channel 5 and mates with the smaller base of the cone 12 of the valve seat 13.

During the period of preparation of the well for pumping oil during the descent of the tubing with the pump, valve 13 is absent, which allows speeding up the process of lowering the tubing to the borehole and performing the necessary investigations withOs -NOO

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bo (decrease temperature, formation pressure, etc.). Before starting the pump, the valve 13, which moves with a self-propelled motor and sends a cone-shaped grid 11, is directed into the saddle 12, inside the supply pipe. Thus, the cavity of the pipe 9 is isolated from the cavity of the pipe 2 and the jet pump is ready for operation.

The active gaseous medium through the supply line 2 flows through the grid 11 into the active nozzles 3 and, having flowed out of them, carries the passive medium (oil) into the mixing chamber 4, which enters the pump from the well through the pipe 9. From the mixing chamber 4 the gas-liquid mixture flows into the toroidal chamber 7 and from it through the pressure channels 8 flows into the tube space of the pump housing 1 and supply pipe 2 through which the gas-liquid mixture due to the kinetic energy obtained in the pump and the gas lift effect rises to the surface consumer of, and flowing out of the channels 8, a mixture of fluids swirl that reduces its leakage.

When the grid 11 is clogged, the pump does not need to be removed from the well to restore normal pump operation. For cleaning, it is sufficient to produce a reverse circulation in the well, as a result of which the valve 13 is removed from the seat 12 and the heating flow flushes the cells of the grid 11.

When the bottomhole survey is repeated, the axial pin 5 is released by removing the valve 13 with a gripping device or by restoring reverse circulation in the well.

Claims (1)

Invention Formula Borehole multi-jet jet pump No. 1525341, characterized in that, in order to increase reliability by preventing clogging of the pump flow section, it is provided with a cone-shaped grid, the axial channel for supplying the passive medium communicates with the supply pipe and is provided with a cone seat with a valve on the supply pipe side the grid is installed in the supply pipeline coaxially with the axial channel and is joined by a smaller base of the cone with the valve seat.