RU110146U1 - JET PUMP - Google Patents

Abstract

 A jet pump having a housing, an ejector, a mixer, a valve, which creates pressure and fluid flow in the internal cavity of the tubing, characterized in that the valve is made in the form of a ball, when moving into the housing of the jet pump opens the spool shutoff elements communicating the internal the cavity of the tubing with the injection cavity of the ejector, and the cavity of the sub-packer zone with the mixing chamber, and the sub-packer cavity cutting off the pump-compressor from the discharge line of the inner cavity of the column s boarding pipe valve seat.

Description

The utility model relates to the oil industry of the region and can be used to create depressions on the reservoir, cleaning the bottom-hole zone of the well.

Known jet downhole installation (RU 2129672 C1 06/19/1998), which includes a jet pump with a housing, an active nozzle, a mixing chamber, a diffuser and a shut-off element with a saddle.

There is a known method of operation of a pump ejector installation and a pump ejector installation for its implementation (RU 2199681 C1 November 22, 2001), which includes an ejector apparatus with a saddle for installing a shut-off element.

Known borehole jet installation for acid treatment of the formation (RU 2206800 C1 02.22.2002), which includes a jet pump, in the casing of which an active nozzle and a mixing chamber are coaxially installed, and also a channel for supplying an active medium, a channel for withdrawing pumped out of the well and stepped through passage with a seat between the steps.

The disadvantages of these installations is the need for additional operations for lowering and lifting into the well on the wire or cable of various elements to change the operating modes of the installations.

The closest in technical essence to the present invention is a jet unit for chemical treatment of the bottom-hole zone, comprising a housing with channels for injecting a chemical reagent, a nozzle, a mixing chamber, a check valve equipped with a two-position valve, in one position connecting the supply channels of a chemical reagent to the bottom-hole zone of the well in the second - connecting the annular space with the jet pump and the bottomhole zone with the jet pump and the tubing string, and the housing is equipped with a can scrap connecting the cavity of the tubing with the end of the spool, in which the channel for supplying the working fluid to the jet pump is made, and the diffuser of the jet pump is equipped with a shut-off valve.

However, the reliability of the on-off spool is insufficient, since it is possible to open it at low reservoir pressure during the pumping out of the chemical reagent by a jet pump. It is not possible to create corresponding, or major depressions, due to pressure limitations in the annulus. Process fluids are pumped through process tubing.

This design does not allow creating deep depressions on the treated formations in view of the limitations of the permissible pressure on the production string.

The objective of the invention is to develop a jet pump that allows you to make an unlimited number of switching operating modes without additional effort, to pump the chemical with pressure corresponding to the strength characteristics of the tubing and greater than the strength characteristics of the production string, holding high pressure in the reservoir for a certain time.

This object is achieved in that the jet pump having a housing, an ejector, a mixer, a valve, which creates pressure and fluid flow in the internal cavity of the tubing, where the valve is made in the form of a ball, when moving into the jet pump housing opens the spool shut-off elements communicating the internal cavity of the tubing with the ejection pumping cavity, and the sub-packer cavity with the mixing chamber and cutting off the sub-packer cavity from the discharge line of the inner cavity of the columns s tubing fit valve in the saddle.

Figure 1 shows a structural diagram (longitudinal section) of a jet pump in a chemical injection mode. Figure 2 shows a structural diagram in the mode of pumping out formation fluid.

The jet pump (Fig. 1) consists of a housing 1, a mixer 2, an ejector 3, a spool 4, a pusher 5, a spool 6, a cavity of the under-packer zone 7, a mixing chamber 8, an injection cavity of the ejector 9, an internal cavity of the tubing 10, a valve eleven.

The principle of operation of the jet unit is as follows.

Chemical injection into the reservoir, Fig. 1.

A packer is installed at the bottom of the jet pump. On tubing (tubing), the assembly is lowered into the casing above the level of perforation in the area of the reservoir.

After installing the packer, the chemical is injected into the formation through the internal cavity of the tubing 10. In this case, the liquid under pressure enters the formation. Injection can be made of any liquids and at any expense. Hydraulic losses are minimal. It is possible to produce hydraulic fracturing.

Formation fluid pumping mode, Fig. 2.

The working fluid under pressure is fed into the cavity 10 (the inner cavity of the tubing). The valve 11 lowered into the internal cavity of the tubing from the pressure of the liquid in the cavity 10 is pressed into the seat of the housing 1 and moves the pusher 5 to the leftmost position, which, in turn, moves the spools 4 and 6, communicating the cavity 10 with the cavity 9 and the under-cavity 7 s mixing chamber 8. At the same time, a negative pressure is created in mixing chamber 8, which is proportional to the velocity head of the process fluid flowing from the ejector 3. Switching the operating modes of the jet pump is done by washing the valve 11 by reverse circulation of the working fluid to erhnost.

Claims (1)

An inkjet pump having a housing, an ejector, a mixer, a valve working to create pressure and fluid flow in the inner cavity of the tubing, characterized in that the valve is made in the form of a ball, when moving into the jet pump housing, it opens the spool shutoff elements communicating the internal the cavity of the tubing with the injection cavity of the ejector, and the cavity of the sub-packer zone with the mixing chamber, and the sub-packer cavity cutting off the pump-compressor from the discharge line of the inner cavity of the column s boarding pipe valve seat.