SU1550121A1 - Device for pumping fluid from formation - Google Patents

Abstract

The invention relates to the mining industry, namely, devices for pumping fluid from a formation, used in conjunction with pipe testers. The goal is to increase the efficiency of the device by allowing the empty tube string to be launched into the well when used in conjunction with the formation tester. The device includes a housing 1, in which the radial channels 2 are blocked by a spring-loaded differential sleeve 7, and the radial channels 3 by a jet pump 4, made with an inlet 11, flow 5 and radial 12 into the injection chamber by channels. The sleeve 7 has a radial 8, 9 and 10 axial channels. During the descent into the well with the formation tester 13 of the tubing string, no liquid enters the pipes, since the channels 12 are blocked by the sleeve 7. When the tester 13 is opened, the fluid flows through the channels 5, 8 and 10 into the pipes. When a working fluid is pumped into the pipes, the sleeve 7 is displaced downwards, the working fluid through channels 9, 11 and 6 is ejected behind the casing, and the fluid from the reservoir through channels 5, 8 and 12 is sucked into the injection chamber and ejected with the working liquid. 2 Il.

Description

The invention relates to the mining industry, namely, devices for pumping fluid from a formation, used in conjunction with formation tests on pipes.

The purpose of the invention is to increase the efficiency of the device by allowing the unfilled tube string to be lowered into the well when used together with a formation tester.

FIG. 1 shows a diagram of the device during the descent into the well and the opening of the formation tester; FIG. 2 shows section A-A in FIG. one.

The device consists of a housing 1 with radial channels 2 and 3, blocked by a jet pump k with 5 flowing (Fig. 2) and 6 discharge channels and a differential sleeve 7, made with radial 8, 9 and 10 axial channels and installed in the housing 1 with shut off the inlet 11 of the pump channel k. The pump injection chamber k is made with radial channels 12, the differential sleeve 7 is spring-loaded and installed to allow the injection chamber to communicate through channels 12, 8 and 5 with the cavity under pump C when opening its input channel 11 in the lowest position of the differential sleeve, i.e. when combining channels 9 and 11.

The device works as follows.

When descending into the well with the formation tester 13, the pipe sleeves above the device are not filled with the wellbore fluid, since the test

Stop 13 is closed and the radial channels

12 chambers of injection of pump C are blocked by sleeve 7.

When the tester opens

13 liquid through channels 5, 8 and 10 enters the pipe string.

To activate the jet pump k, the working fluid is injected into the pipes. In this case, the differential sleeve 7 is displaced to the lowest position, the channels 9 communicate with the input channel 11, and the channels 8 - with the radial channels 12 of the injection chamber. The working fluid through the discharge 6 and radial 3 channels is ejected into the space behind the device body. Fluid from the reservoir, which is sucked through channels 5, 8 and 12 into the injection chamber, is discharged together with the working fluid. After the supply of working fluid to the pipes is stopped, the differential sleeve 7 returns to its upper position, the channels 11 and 12 overlap.

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Claims (1)

Invention Formula A device for pumping fluid from the reservoir, comprising a housing mounted on a pipe string with radial channels blocked by a jet pump with flow channels and a differential sleeve made with radial and axial channels installed in the body with the possibility of blocking the pump inlet channel, which is that in order to increase the efficiency of the solids by allowing the empty column of a pipe to be lowered into the well when used together with a formation tester, the jet pump injection chamber is made with radial channels, and the differential bushing is spring-loaded and installed to communicate the injection chamber with the cavity under the pump when opening its inlet channel in its lowest position differential sleeve. Phie.1