SU412570A1 - RESISTIVIMETER - Google Patents

Description

one

The invention relates to a technique for measuring the resistivity of electrolytes and can be used to measure the resistivity of stratal water and flushing fluids during well logging, as well as hydrogeological studies of rocks and soils.

A resistivity meter is known in which the vessel is in the shape of a hemisphere, the internal conductive surface of which is one of the current electrodes, and the second current and measuring electrodes, also in the form of hemispheres, are located on a non-conductive cover of the hemisphere so that the second current electrode is in center of the lid, and, consequently, hemispheres.

The known resistivity meter has large dimensions and weight. In addition, it is characterized by a large consumption of the measured electrolyte, the need for high voltages to obtain an acceptable sensitivity and structural complexity.

The purpose of the invention is to reduce the size and increase the accuracy of measurements.

This is achieved by the fact that the measuring vessel in it is made in the form of a rectangular parallelepiped, and the probe electrodes, having dimensions equal to the dimensions of the minimum normal section of the vessel, are installed in it parallel to the plane of this section, and the measuring electrodes are placed between the current electrodes .

Such a shape of the vessel, together with the specified shape and arrangement of the electrodes, completely eliminates the unevenness of the current density in the electrolyte and ensures low transient resistance of the electrodes. This eliminates the dependence of the measurement accuracy on the electrolyte resistance and allows the use of direct methods for measuring the difference and potentials on the measuring electrodes instead of compensation ones and provides greater sensitivity of the resistivity meter at lower probe supply currents.

FIG. 1 shows the proposed resistivity meter, schematic diagram; in fig. 2 - view of the measuring vessel with electrodes.

In the circuit of the proposed resistor, measuring vessel 1, containing a system of current 1 and 2 and measuring 3 and 4 electrodes, is connected to an alternator of low frequency alternating current 5 (about 50 Hz) through decade resistor 6 and through switch 7 with measuring device 8 having a mark approximately in the middle of the scale and connected in series with the sensitivity adjustment resistor 9. The measuring vessel (Fig. 2) is made in the form of a rectangular parallelepiped, and flat measuring 3 and 4 and current 1 and 2 electrodes having dimensions equal to the minimum normal cross section of the vessel are installed inside the vessel parallel to the plane of this section, and the measuring electrodes are placed between current and made in the form of grids.

The internal dimensions of the vessel and the distance between the measuring electrodes are chosen so that the coefficient of resistivity is 0.01.

The device works as follows.

The measuring vessel of the resistivity meter is filled to the brim with the electrolyte under test, the current generator 5 is turned on and using switch 7 the measuring device 8 is connected to electrodes 3 and 4. By adjusting the resistor 9, the arrow and the mushroom are set against the scale mark and then the switch 7 is connected to the decade resistor 6. By adjusting the resistor 6 when the resistor 9 is in its variable position, the arrow is set and opposite the mark on the scale.

With a sufficiently large input resistance of the measuring device 8, the electrolyte co-motive between the measuring electrodes 3 and 4 is equal to the resistance of a part of the resistor 6 connected to

device 8, which, taking into account the coefficient of resistivity, and is taken as a measure of the electrolyte resistivity.

Due to the design of a vessel in the form of an irregular parallelepiped and measuring electrodes in the form of grids with a large equipotential surface, the shape of the electric field created by the current electrodes in the vessel does not depend on the parameters of the measured electrolyte and the connected measuring circuits, resulting in the possibility of reducing the dimensions vessel, current generator and measuring device, which allows a considerable reduction in size and an increase in the accuracy of the resistivity meter.

Claims (1)

Invention Formula A resistivity meter for measuring the resistivity of electrolytes containing a measuring vessel with an electrode system, characterized in that, in order to reduce dimensions and improve measurement accuracy, the measuring vessel in it is made in the form of a rectangular parallelepiped, and electrodes having dimensions equal to the dimensions of the minimum normal cross section vessel, installed parallel to the plane of this section, and the measuring electrodes are placed between the current electrodes and made in the form of grids. ..2