SU115891A1 - Borehole resistimeter - Google Patents

Description

For measuring the resistance of a fluid column along the wellbore, downhole resistivity meters are used, consisting of one current and two measuring electrodes. However, the known similar devices have a number of significant drawbacks. They include: a significant influence of the environment on instrument readings, the occurrence of large faults due to poor circulation of drilling mud in the measuring part of the device and a large change in the resistivity meter as a result of the salinity of the measured solution.

In the described resistivity meter, in order to eliminate these drawbacks, it is proposed to perform one of the measurement electrodes with openings for access of the liquid inside the instrument, giving it a shape such that it covers the second measurement and current electrodes.

FIG. 1 shows a general view of the proposed resistivity meter in the first embodiment; in fig. 2 - two projections of its measuring part; in fig. 3 is a second embodiment of this device.

In the first embodiment, the measuring part of the device is located on an insulating plate 1, in the center of which is fixed the first measuring electrode 2, made in the form of a disk. Around it, in close proximity (the distance between the electrodes is 1 mm), the current electrode 3 is centered. The second measuring electrode 4 is a hemisphere with cut windows covering the 2 to 3 electrodes. The resistivity meter body consists of the upper 5 and lower 6 shanks connected by three straps 7. In the middle of the straps 7 there is a holder 8 for the measuring installation of the device. A candle bridge 9 and a safety cap 10 are mounted on the upper hull sub.

In order to reduce the mud flow around the device, the straps 7 are welded to the wings of the upper and lower device subs.

No. 115891

The use of the electrode 4 in the form of a hemisphere is intended to stabilize the electric field in the covered volume. Sufficiently large windows and the general form of the resistivity meter ensure free fluid access to the electrodes 2 and 3. In this case, some redistribution of the floor associated with the external environment through these windows is compensated by the fact that the potential drop between electrodes 2 and 4 remains constant.

In the second embodiment of the device, the main element of the measuring part is a central rod // with a spiral groove, which serves as a current electrode of the resistivity meter. A bare brass wire 12, insulated from the metal of the rod, which serves as one of the measuring electrodes of the resistive meter, is laid along the groove of the rod. The role of the second measuring electrode is performed by the instrument case, the surrounding current and the first measuring electrodes. Longitudinal cuts in the housing ensure free access of fluid to the resistivity meter.

The resistivity meter is equipped with two shanks: an upper 13 and a lower J4 with wings, to which three straps of rectangular section are welded. Such a combination of sticks with shanks reduces the resistance of the drilling fluid flowing around the device as it moves along the wellbore.

To maintain surface cleanliness and reduce the adhesion of clay particles, the instrument case, in both versions, is made of stainless steel and is nickel plated.

Subject invention

Claims (3)

1. A downhole resistivity meter consisting of one current and two measurement electrodes, characterized in that, in order to reduce the environmental impact on the measurement results, one of the measurement electrodes is made spatial with openings for access of the liquid inside the device and covers the second measurement and current electrodes. 2. The wellbore resistivity meter according to claim 1, about t and h and the fact that one of the measuring electrodes is made in the form of a hemisphere with holes, covering two concentric electrodes, of which the inner one serves as the second measuring electrode, and the outer one . 3. The downhole resistivity meter according to claim 1, wherein one measuring electrode is made in the form of a spiral embedded in the grooves of a cylindrical current electrode, and the resistivity meter surrounding it, provided with longitudinal notches, is a second measuring electrode. rip -i- ll ijV a Li