SU827764A1 - Device for monitoring deep-well apparatus - Google Patents

Description

one

The invention relates to geophysical studies in wells and can be used to monitor the metrological characteristics of downhole geophysical equipment.

A device for monitoring the reproducibility of the readings of geophysical equipment, made in the form of a control well, has basic formations with known electrical, acoustic and other properties of rocks 1.

The disadvantages of such wells include the possibility of destruction and wall collapses, leading to a change in the properties of the bearing beds over time.

A device for controlling downhole equipment is known, which includes a casing pipe made of a material that does not conduct electrical current and has through holes evenly distributed over its surface and equipped with metal plugs. Such a pipe is introduced into the construction of a well casing having supporting formations, and allows the investigation to be carried out electrically after squalice

2

This technical solution is the closest to the invention in its technical essence and the achieved result.

A disadvantage of the known device is that it does not allow to reproduce the electrical properties of rocks in a wide range of measured values,

i.e., it does not allow simulating changes in fecal impairments in the electrical resistivity of rocks when checking the metrological characteristics of the apparatus.

The purpose of the invention is to improve the accuracy of monitoring the reproducibility of indications by expanding the range of simulated apparent electrical resistivities.

This goal is achieved by the fact that in a known device, including a non-conductive electric current casing, in the wall of which holes are made, the latter are made on local pipe sections, and the area occupied by the holes in these areas has a different value corresponding to the simulated seemingly specific electric resistance m

The drawing shows a schematic depiction of the proposed device.

Through-holes 2 are made in the wall of the casing of the non-conductive electric current pipe 1, which are located on the local

3 pipe sections 1. Through holes 2

are uniformly distributed around the perimeter of the pipe so that the area occupied by the holes in the local areas 3 is different and is selected depending on the value of the simulated each electrical resistivity for a particular type of downhole probe and the electrical resistivity of the formation 4. To ensure electrical contact of the electrodes the probe with the rock of formation 4, the well is filled with water of known salinity, which through holes 2 penetrates to the walls of the formation.

The device works as follows.

On the logging cable 5, the downhole tool 6 is lowered into the well below the area of local sections 3 with through holes 2. Since the casing is made of a material that does not conduct electrical current, the electric field created by the current electrodes will be caused only by currents passing through filling the casing 1. In this case, in the case of measuring the resistivity by the method of stabilizing the current passing through the current electrodes, the readings of the equipment will be proportional to the potential difference I wait for the measuring electrodes and correspond to the maximum value of electrical resistivity reproduced by the control well for this (particular) probe type.

When moving the well of the device 6 up the wellbore and when the electric field created by the flow of current through the current electrodes hits the local area with holes, the resistivity of the medium in the field of this probe decreases due to the flow of current through the through holes into the rock formation 4, which leads to a decrease in the readings of the equipment as a result of a decrease in the potential difference at the measuring electrodes of the probe.

The larger the area occupied by the holes in the local sections of the casing, the smaller the resistivity of the medium in the field of the current electrodes of the probe of the downhole tool 6 and, accordingly, the smaller the instrumentation.

The logging data recorded in such a control well is a curve with pronounced peak deviations of various amplitudes, with curve ziki at the corresponding depth scale of the well marked opposite local areas with holes. The decrease in the amplitude of this curve is direct

proportional to the area occupied by the holes in the local areas.

The maximum value of electrical resistivity reproduced by the control well will correspond to the indications of the equipment in the casing at the section without through holes in the pipe wall, and the minimum - the indications of the equipment at the open hole site opposite the formation 4. In the absence of the unsampled sections in the test well the minimum resistivity will be reproduced by local

the portion of the casing in which the area occupied by the holes is maximum.

Thus, the implementation of through holes in the wall of a non-conductive electrical casing in local areas with different areas occupied by the holes, and the location of these areas at a distance of 1 to 10 m from one another (depending on the maximum

the length of the probe downhole tool) along the length of the casing allows to expand its functional and technical capabilities, namely:

to imitate in a wide range of reference formations for electrical logging equipment in the absence of those in rocks intersected by a well;

expand the dianazone of apparent electrical resistivity reproduced by the control well in the presence of supporting formations slightly differing from each other in their electrical properties.

Formula is invented and

A device for controlling downhole equipment, including a non-conducting electrical current casing, in the wall of which the through holes are made,

characterized in that, in order to increase the accuracy of monitoring the reproducibility of readings by expanding the range of simulated apparent electrical resistivity, through holes are made in local pipe sections, and the area occupied by the holes in these areas has a different value corresponding to the simulated apparent electrical resistance m

Sources of information taken into account in the examination 1. Petrophysics and geophysics. Issue 89, M., “Pedra, 1969, p. 115-121.

2. USSR author's certificate No. 206475, cl. E 21B 47/00, 1966 (prototype).

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Claims (1)

Claim A device for monitoring downhole equipment, including a non-conductive electric current casing, in the wall of which there are through holes, characterized in that, in order to improve the accuracy of control of reproducibility of readings by expanding the range of simulated apparent specific electrical resistances, through holes are made in local sections of the pipe, moreover, the area occupied by the holes in these sections has a different value corresponding to simulated apparent specific electrical resistivity otivleniyam.