SU109399A1 - A device for determining the mineral composition of sulfide ores in wells - Google Patents

Description

The known logging devices 5a do not allow determining the mineral composition of ores fixed by them, in particular, sulphide ores, in wells.

An onsized device for determining the mineral composition of sulphide ores in wells consists of two wells, one after another, one measuring electrode. The first of the electrodes is used to measure the electrode voltage watikina. It is made of metal defined hardness for these ores. While being pressed to the borehole wall, the electrode, while moving, leaves on the rocks with greater hardness a trait that makes up with the sulfides a galvanic couple forming an electric field. A second measuring electrode, placed at a distance from the borehole wall, is used to measure the magnitude of the indicated field.

If the hardness of the sulfide is greater than the hardness of the metal electrode sliding over its surface, the last one will abrade leave a line on the sulfide (thin metal film). If the hardness of the sulfide is less than the hardness of the electrode, there will be no features on the sulfide.

In the first case, a galvanic sulfide-metal vapor is formed on the sulfide surface, which in an aqueous medium creates an external electric field, which decays with time due to polarization processes and electrochemical dissolution.

This external electric field will be the more intense, the greater the difference in the electrochemical properties of the metal and sulfide. In the case of pyrite and zinc line, yole reaches a value of 600-700 millivolts.

By comparing the diagrams of electrode potentials and electroplating pairs, sulfide ores are reliably distinguished.

With the appropriate selection of electrodes, it is easy to separate pyrite from galena, graphite from iirit, galena from chalcopyrite, and so on.

The measurement of the field of the galvanic pair can be performed simultaneously with the registration of the diagrams of the electrode potentials.

The principle scheme of the device is shown in the drawing.

The device contains two measuring electrodes / and 2. The electrode / slides along the wall A of the well and is made of a metal of appropriate hardness. Electrode 2 is located at a distance from the wall A of the well and serves to measure the size of the field of electroplating pairs.

The third electrode 3 of the device is common and serves to compare the curves of the electrode potentials.

Subject and d o rn

A device for determining the mineral cocTaisa sulfide ores in wells, characterized in that it contains two successively installed measuring electrodes, the first of which, used to measure the magnitude of the electrode potentials, is made of metal with the appropriate hardness and is pressed to the well wall so that as it moves, it leaves the line that, with the sulfides, makes up the galvanic couple, which forms the electric field, and the second measuring electrode placed at some distance from the wall ekvazhnny, isnolzuets d, 1 measurement value of said nol.