SU1352047A1 - Device for locating leak point in pipe string in well - Google Patents

Abstract

The invention relates to an oil producing plant m. And m. B. used to locate the well in the production string. The purpose of the invention is to improve the accuracy of determining the location of the leak. The device contains a cylindrical body 1 with a through axial channel (K) 2 connected with aperture 3 and a chamber 4, which passes into a through channel (L coil to O

Description

diagonal K 5. On the outer surface of housing 1 there are two annular sealing elements b located on opposite sides of K 5. Elements 6 are designed to form, together with the column tubes (QD) and housing 1 of the test chamber 9. At outlet K 2 is installed bypass knot. The chamber 4 is equipped with a fluid flow sensor in the form of a turbine (T) 22. The bypass assembly is made in the form of a cover 10 connected to KopnycoNf 1 with a through hole along the axis and bypass K 11 connecting the through hole with an axial stepped K 14 of the housing 1 and installed in the hole

one

The invention relates to the oil industry and can be used to determine the location of a defect in a production string by detecting fluid leakage through it without isolating the filter zone.

The aim of the invention is to improve the accuracy of determining the location of the leak.

The drawing shows the device, General view.

A device for detecting a leak in a pipe string in a borehole contains a cylindrical body 1 with a through axial channel 2 and a chamber 4 connected to channel 2 by openings 3, passing into radial through channel 5, two annular sealing elements 6, spring-loaded 7 on opposite sides of the radial channel 5 and intended to form, together with the column pipes 8 and the body 1 of the test chamber 9, mounted at the outlet of the axial channel 2 bypass unit in the form of a cover 10 connected to the body 1 a bore hole (not indicated in the drawing) along the axis and the bypass channels 11 connecting this hole with the axial channel 2 of the housing 1, and the spring-loaded spool 13 of the spool 13 with intersecting through axial channel 14 and the radial channel 15 installed in the opening of the cover 10, the axial canal 14 is made stepwise and its degree 16 before intersection with the radial channel 15 of the spool 13 has a smaller diameter. The sealing elements b are installed in the cups 17 and their cavities (not marked in the drawing) are connected to the axial channel 2 of the housing 1 through windows 18. The movement of the spool 13 under the action of the spring 12

the cover 10, spring-loaded 12 of spool 13 with intersecting through axial through axial 14 and radial 15 K. Step K 14 before crossing with K 15 has a smaller diameter. When the leakage of fluid through the CT enters between elements 6, the flow will partially flow through the openings 3, chamber 4, K 5. T 22 will begin to rotate and the electric current through the cable will go to the surface, indicating a leakage of fluid through the CT. At the beginning and end of the rotation T 22 and the depth counter, the upper limit of the leak is established. 1 3. Clause f-ly. 1 il.

limited by a nut 19.. The top 20 (according to the drawing) end (not marked in the drawing) of the housing 1 is screwed on the head 20 with through-holes 21. which jointly

with the cover 10, the throat encloses the preliminary spreading of the sealing elements 6 through the springs 7. In the chamber 4, there is installed a turbine 22 fixed on the axis 23, which is installed at one end (not shown in the drawing) in the subtitle (not shown in the drawing). ) on the support 24, which has flow-through holes 25, and the other on the lower end (not marked) of the sealed container 26 rigidly connected to the body (not shown 5) of the chamber 4. On the upper end (according to the drawing) the drawing is not indicated) axis 23 on the side of the container 26 fixed permanently rot (not shown), and in the container 26 there is a magnetically controlled contact (in the drawing

0 not shown), which is electrically connected to the cable lug 27 of the geophysical cable 28.

The device works as follows.

5 Using the pump of the cementing unit, evaluate the injectivity of the well and then select the spool 13, while the smaller injectivity of the well corresponds to a smaller diameter of 16 of its axial channel 14 so as to ensure the necessary pressure drop on the spool 13 even at a low flow rate of the fluid at low injectivity of the well. The rate of descent of the device is also determined, which should be somewhat less than the rate of flow of the fluid. Then a device suspended on the cable 28 is introduced into the pipe string 8, the wellhead is sealed (in the drawing is not

shown) and start pumping fluid, releasing the winch brake at the same time (not shown) with the geophysical cable 28, ensuring, by the sensor (not shown) of the tension, the allowable load on the cable 28 and the device’s uniform descent rate. In this case, the pumped fluid partially moves behind the device, and partly due to the velocity difference passes through the holes 21 of the head 20, along the axial channel 2 of the housing 1 and the axial channel 14 of the spool 13. The pressure drop is created mainly at the level 16 of the channel 14 having a smaller diameter. Test chamber 9.filled

fluid, after which the flow of the readings of the checks when the pressure drops into the test tube through the chamber 4 and the radial channel 5 of the core chamber, and also due to an increase in the trigger band 1, the impeller 22 does not pressure in the test chamber, which - koits. In the event of excess, it drops to an increase in the flow of fluid through the device on the calculated value of the defect of the tubing with simultaneous and the spool 13 moves down (through the black to ensure free flow of fluid), opening the flow of the fluid through 20 when lifting the unit by performing a bypass assembly with spring

the bypass channels 11, the radial channel 15 of the spool 13 and the stage (not shown in the drawing) of the axial channel 14 of the spool 13 having a larger diameter, which leads to a decrease in the pressure drop.

When fluid leakage 29 through pipe string 8 falls between sealing elements 6, liquid flow partially flows through openings 3, chamber 4 and radial channel 5 of housing 1. Tour 25

spool. The implementation of the axial channel of the valve step increases the latter effect in the case of low injectivity of the well.

Claims (2)

Invention Formula . A device for determining the location of a leak in the pipe string in the well, the cylinder 22 begins to rotate, and the electrified cylindrical body with a through signal from the magnetically controlled contact through the cable 28 goes to the 1; 1 surface, indicating a leak of fluid through the column. At the beginning and end of rotation of the impeller 22 and the counter (in the drawing) not shown) the depths are set respectively to the upper and lower boundaries of the spot 29. leakage (defect) of the pipe string 8 (taking into account the distance between the sealing elements 6). At the same time, the pressure in the test cavity 9 drops. 35 Now with an axial channel and a camera connected to this channel, which passes into the through radial channel, two annular sealing elements installed on the outer surface of the housing on opposite sides of the radial channel and intended to form together with the pipe column and the test chamber body at the output of the axial channel, the bypass node, characterized in that, in order to increase the accuracy, the axial channel and the camera connected to this channel, which passes into the radial through channel, have two annular channels sealing elements mounted on the outer surface of the housing on opposite sides of the radial channel and intended to form, together with the column pipe and the test chamber body, and the overflow assembly installed at the axial channel outlet, which in order to improve the accuracy dividing the leak, it is equipped with a sensor for sealing elements b to a column of liquid flow in the form of an impeller, pipe 8, brake device. 45 The housing installed in the chamber and the bypass assembly are made in the form of a lid connected to the housing with a through hole along the axis and bypass channels connecting this opening to the axial channel of the housing and mounted in the opening of the lid of the spring-loaded slide valve with intersecting through axial and radial channels. 2. A device according to claim 1, characterized in that the axial channel of the spool is stepped, and its degree before intersection with the radial channel of the spool has a smaller diameter. Compiled by Y. Lysenko Tehred I. VeresKorrektor .. T sc Circulation 533 Subscription VNIIPI of the USSR State Committee on Inventions and Discoveries P 3035, Moscow, Zh-35, Raushsk nab., 4; 5 Production and Printing Enterprise, Uzhgorod, ul. Project, 4 In order to clarify the results, the injection of liquid is stopped and the device is raised 2-3 m above the detected defect, followed by a repetition of the injection and determination of the leak. The descent of the device is then continued to determine other possible defects, up to the interval of the upper holes of the filter. Then the device is lifted to the surface. In the process of lifting, when a pressure drop occurs above the permissible value, the spool 13 moves down (according to the drawing), Editor T. Parfenova Order 5261/26 50 which leads to the flow of fluid through the bypass channels 1 krppk; iO, radial channel 15 of spool 13 and the stump of its axial channel 14, and my l; .. larger diameter. The effectiveness of the proposed uspoyostnaya is to improve the accuracy of determining the place of leakage due to the transmission to the surface of an electrical signal, formed during the rotation of the impeller installed in the chamber connected by a channel with the test chamber, in case of passing the last leak point, braking the device due to} the strength of the clamp to the walls of the pipe column sealing elements spool. The implementation of the axial channel of the valve step increases the latter effect in the case of low injectivity of the well. Invention Formula . A device for determining the location of a leak in a pipe string in a well, comprising a cylindrical body with buzzing cylindrical body with through Now with an axial channel and a camera connected to this channel, which passes into the through radial channel, two annular sealing elements installed on the outer surface of the housing on opposite sides of the radial channel and intended to form together with the pipe column and the test chamber body at the outlet of the axial channel, a bypass node, characterized in that, in order to improve the accuracy of determining the leakage location, it is equipped with a liquid flow sensor in the form of a turbine,