RU96915U1 - DEVICE FOR SIMULTANEOUS PRESSURE MEASUREMENT IN TUBE AND INTER-TUBE WELL SPACES - Google Patents

Abstract

 A device for simultaneously measuring pressure in the pipe and annular spaces of a well, comprising a borehole chamber with threaded connections at the ends and a remote deep dual-sensor pressure gauge with a cable lug fixedly mounted in the mount so that one gauge sensor is hydraulically in communication with the interior of the borehole chamber and the other the sensor is hydraulically connected to the outer surface of the borehole chamber, characterized in that the borehole chamber is made in the form of a cylinder having inside, an eccentrically located longitudinal through channel of circular cross section, the attachment unit is a longitudinal external groove fully accommodating the remote deep dual-sensor manometer assembly with a cable lug and having a bottom with a through mounting hole having a thread and oriented along the radius line of the borehole chamber, and a mounting bolt with hydraulic channels communicating one of the gauge sensors with the interior of the borehole chamber, and sealing elements, fixed a remote deep two-sensor pressure gauge in the attachment site, while the remote deep two-sensor manometer has a body with a two-sided flat on the end opposite the cable lug and a through hole matching the through mounting hole in the borehole chamber.

Description

The device relates to the field of oil and gas industry and is intended for the simultaneous piezometry of the pipe and annular spaces of the well, in particular during the operation of two development objects disconnected by the packer.

A known device for measuring the thermobaric parameters of a fluid in the pipe and annular spaces of the well [US Pat. RF №2323335, ЕВВ 47/06. A device for measuring the thermobaric parameters of a fluid in a pipe and annular space of a well. Publ. April 27, 2008], consisting of a pipe adapter with a container fixed on it, in which a two-sensor stand-alone measuring device is installed, with one sensor communicating through a special hole with the pipe space, and the other directly with the annular space. The disadvantage here is the impossibility of real-time piezometric observations.

A device for measuring downhole parameters is also known [Pat. RF №2249108, Е21В 47/00. Device for measuring downhole parameters. Publ. March 27, 2005], consisting of a landing socket in the form of a borehole chamber with an eccentric pocket having a hydraulic channel with a sealing element, communicating an eccentric pocket with a tube space of the well, and a removable remote deep two-sensor measuring device with a hydraulic channel, a sealing element and a latch.

A remote deep two-sensor measuring device is installed in an eccentric pocket of a landing socket during an independent tripping operation using a geophysical cable, the result of which is to fix a remote deep two-sensor measuring device in an eccentric pocket of a landing socket while ensuring that the sealing elements perform their functions.

The device fundamentally allows for independent piezometric observations in the pipe and annular spaces of the well in real time. The disadvantage of this device is the impossibility of forced fixation of the deep-seated measuring device in the landing socket, which can lead to a violation of the seals provided by the design and, as a consequence, the impossibility of an unambiguous interpretation of the piezometric data.

Closest to the proposed one is a device containing a remote deep two-gauge pressure gauge, a borehole chamber with threaded connections at the ends and a stationary mounting unit for a remote deep two-gauge pressure gauge such that one gauge gauge communicates with the borehole space and the other with the annulus [N. G. .Ibragimov et al. Improving the method of simultaneous and separate reservoir exploitation at OAO TATNEFT. “Oil industry” No. 7, 2009. P. 46.].

A disadvantage of the known solution is the impossibility of lowering the depth gauges down the elevator of the well below the installation mark of the borehole chamber due to its two-crankness.

The technical result of the proposed technical solution is the presence in the device of an end-to-end axisymmetric channel to ensure the possibility of descent of depth measuring instruments or instruments through the well chamber through the column of elevator pipes.

The technical result in a device for simultaneous measurement of pressure in the pipe and annular spaces of the well, containing a borehole chamber with threaded connections at the ends and a remote deep two-sensor pressure gauge with a cable lug, stationary mounted in the mount so that one gauge sensor is hydraulically in communication with the interior of the borehole chamber and another gauge gauge is hydraulically connected to the outer surface of the borehole chamber, achieved due to the fact that the borehole to Amer is made in the form of a cylinder having an eccentrically located longitudinal through channel of circular cross section, the attachment unit is a longitudinal external groove that fully accommodates the remote deep dual-sensor pressure gauge assembly with a cable lug and has a bottom with a through mounting hole having a thread and oriented along the radius line the borehole chamber, a mounting bolt with hydraulic channels communicating one of the gauge gauges with the interior of the borehole chamber, and a seal to the elements permanently fixing remote dvuhdatchikovy depth gauge in the attachment element, wherein the remote dvuhdatchikovy depth gauge has a body with a double-sided flattened on the end opposite to the cable lug and a through hole coinciding with the through hole in the fastening borehole chamber.

The drawing shows a longitudinal section of a device for simultaneous measurement of pressure in the pipe and annular spaces of the well.

A device for simultaneously measuring pressure in the pipe and annular spaces of the well contains a borehole chamber 1 with threaded connections 2 at the ends, a remote deep dual-sensor manometer 3, stationary mounted in the mount so that one gauge 5 of the manometer is hydraulically connected to the inner space of the borehole chamber 1, and another sensor 6 is hydraulically connected to the outer surface of the borehole chamber 1. The borehole chamber 1 is made in the form of a cylinder having an eccentrically located borehole inside circular longitudinal channel. The attachment site is a longitudinal external groove 4, fully accommodating the remote deep dual-sensor pressure gauge 3 complete with a cable lug 7 and having a bottom with a through mounting hole having a thread and oriented along the radius line of the borehole chamber 1, a mounting bolt 8 with hydraulic channels 9, 10 communicating the sensor 5 of the pressure gauge with the interior of the borehole chamber 1, and the sealing elements 11, 12, stationary fixing the remote deep dual-sensor pressure gauge 3 in the groove. In this case, the manometer 3 has a body with a two-sided flat on the end opposite the cable lug 7 and a through hole matching the through mounting hole in the longitudinal outer groove 4.

With the device they work as follows. A remote dual-sensor depth gauge 3, designed to simultaneously measure pressures in two disconnected media, is connected to the geophysical cable 13 through a cable lug 7, fixed with a bolt 8 in a longitudinal external groove 4. In this case, the sensor 5 is hydraulically communicated through the mounting bolt 8 s hydraulic channels 9, 10 with the inner space of the borehole chamber 1, and the sensor 6 is hydraulically connected to the outer surface of the borehole chamber 1.

The downhole chamber 1 complete with a remote deep dual-gauge pressure gauge 3 threaded connections 2 are inserted into the column of elevator pipes and lowered into the well to the desired depth mark above the disconnector packer. In this case, the sealing elements 11, 12 play the same role as the packer-disconnector, that is, they isolate the pipe and annular spaces of the well from each other. If necessary, the geophysical cable 13 is attached to the column of elevator pipes with a special clamp at a distance from the borehole chamber 1, which prevents the geophysical cable 13 from sagging.

The sensor 5 of the pressure gauge 3, hydraulically connected to the interior of the borehole chamber 1, senses the pressure of the medium in the borehole space, and the sensor 6, hydraulically connected to the outer surface of the borehole chamber, senses the pressure of the medium in the annulus.

After installing the borehole chamber 1 complete with a remote deep two-gauge manometer 3 at the desired depth mark from a remote deep two-gauge manometer 3 through real-time geophysical cable 13, real-time piezometric observation data begin to arrive in the pipe and annular spaces of the well.

In this case, an eccentrically located longitudinal through channel inside the borehole chamber 1 can pass through itself a downhole tool or tool of the corresponding diameter. Thus, the technical result of the present technical solution has been achieved.

Claims (1)

A device for simultaneously measuring pressure in the pipe and annular spaces of a well, comprising a borehole chamber with threaded connections at the ends and a remote deep dual-sensor pressure gauge with a cable lug fixedly mounted in the mount so that one gauge sensor is hydraulically in communication with the interior of the borehole chamber and the other the sensor is hydraulically connected to the outer surface of the borehole chamber, characterized in that the borehole chamber is made in the form of a cylinder having inside, an eccentrically located longitudinal through channel of circular cross section, the attachment unit is a longitudinal external groove fully accommodating the remote deep dual-sensor manometer assembly with a cable lug and having a bottom with a through mounting hole having a thread and oriented along the radius line of the borehole chamber, and a mounting bolt with hydraulic channels communicating one of the gauge sensors with the interior of the borehole chamber, and sealing elements, fixed a remote deep two-sensor pressure gauge in the attachment site, while the remote deep two-sensor manometer has a body with a two-sided flat on the end opposite the cable lug and a through hole matching the through mounting hole in the borehole chamber.