RU136507U1 - SUBMERSIBLE JET PUMP - Google Patents

Abstract

1. Submersible jet pump installed in the tubing after the submersible pump unit for oil production, containing a nozzle, a receiving chamber, a mixing chamber, a diffuser, a check valve, hydraulically connected to the receiving chamber, and a guide channel between the annulus and the valve, characterized in that the non-return valve is installed above the nozzle at the inlet of the receiving chamber, and a cavity is made in the guide channel for collecting mechanical impurities. 2. The pump according to claim 1, characterized in that at the inlet of the receiving chamber two or more check valves are installed, located at the same level.

Description

The utility model relates to the oil industry and can be used for mechanized oil production in conditions of high gas content or removal of mechanical impurities.

Known jet pump containing a nozzle, a receiving chamber, a mixing chamber and a diffuser. Such a pump works as part of a downhole pumping unit and is installed after the pressure line of the main pump [copyright certificate No. 954623, F04D 13/08, 08/30/08].

The disadvantage of this jet pump is the ability to flow produced fluid from the discharge line of the pump into the annulus through the openings of the receiving chamber of the jet pump, as a result of which it is impossible to bring the submersible installation to operating mode.

Closest to the claimed technical essence is a submersible jet pump, lowered into the well at the tubing and installed at the outlet of the submersible pump unit for oil production, which contains a nozzle, a receiving chamber, a mixing chamber, a diffuser and a check valve installed below the nozzle, while through the guide channels the space under the check valve is communicated with the annulus of the well, and the space above the check valve is communicated with the receiving chamber [RF patent No. 2295631, E21B 43/00, F04F 5/54, 03/20/2010]. The jet pump is part of a submersible pump installation and is made in the form of a module, lowered and removed from the well by means of cable technology.

A disadvantage of the known device is the increase in its length due to the additional installation of the valve below the nozzle, which leads to an increase in metal consumption.

The technical advantage of the proposed utility model is to reduce the overall length and metal consumption of a submersible jet pump.

This result is achieved by the fact that in a submersible jet pump installed in tubing after a submersible pumping unit for oil production containing a nozzle, a receiving chamber, a mixing chamber, a diffuser, a check valve hydraulically connected to the receiving chamber and a guide channel between the annulus and a valve, according to a utility model, a non-return valve is installed above the nozzle at the inlet of the receiving chamber, and the guide channel is provided with a cavity for collecting mechanical impurities.

To ensure the required flow rate of the liquid, several (two or more) check valves of a smaller diameter can be installed at the same level.

The submersible jet pump can be lowered into the well at the tubing, or descended and removed from the well by cable technology.

The essence of the claimed device is illustrated by drawings, where in FIG. 1 is a schematic illustration of a single valve jet pump; in FIG. 2 - pump with two valves.

Submersible jet pump contains a nozzle 1, a receiving chamber 2, a mixing chamber 3, a diffuser 5 and is equipped with a check valve 4 located above the nozzle 1 at the inlet of the receiving chamber 2 (Fig. 1, 2). On the one hand, the space under the check valve 4 is hydraulically connected with the annular space through the guide channel 8 and the hole 7, and on the other hand, with the receiving chamber 2 of the jet pump. To prevent clogging of the valve 4, the guide channel 8 is equipped with a cavity 6, designed to collect and accumulate solid particles, separated from the fluid coming from the annulus after its rotation by 90 degrees. The cavity 6 is placed under the ascending section of the guide channel 8 and can be made, for example, annular.

Possible versions of the jet pump with the number of valves two or more. If there are two check valves, they are installed at the same level in the diametrical plane symmetrically with respect to the axis of the jet pump (Fig. 2).

Submersible jet pump operates as follows.

In the process of bringing the well into operation in the receiving chamber 2 of the jet pump, vacuum is not created due to the low flow rate. At this time, the check valve 4 is closed and prevents the flow of working fluid through the openings of the receiving chamber 2 into the annulus. After the well is put into operation, the flow rate increases, due to the pressure drop, a vacuum is created in the receiving chamber 2, the valve 4 opens and the ejection process begins. The ejected mixture from the annulus through the hole 7 and the guide channel 8 enters the receiving chamber 2 of the jet pump and rises with the working fluid into the mixing chamber 3. When passing through the guide channel 8, the ejected mixture unfolds 90 degrees, while the solid particles contained in it under the influence of gravity settle in the cavity 6, which prevents clogging of the valve 4.

The use of the claimed design allows, by placing the check valve above the nozzle, to reduce the overall length and metal consumption of the jet pump, and also increases the reliability of its operation in the conditions of the content of solid particles in the ejected liquid.

Claims (2)

1. Submersible jet pump installed in the tubing after the submersible pumping unit for oil production, containing a nozzle, a receiving chamber, a mixing chamber, a diffuser, a check valve, hydraulically connected to the receiving chamber, and a guide channel between the annulus and the valve, characterized the fact that the check valve is installed above the nozzle at the inlet of the receiving chamber, and in the guide channel there is a cavity for collecting mechanical impurities. 2. The pump according to claim 1, characterized in that at the inlet of the receiving chamber two or more check valves are installed at the same level.

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