SU308772A1 - ELECTROLYTIC 51CLAY - Google Patents

Description

This invention relates to electrical cells for measuring the acidity of molten salts at high temperatures.

It is known that the acidity of the melt is determined by the concentration of oxygen ion and {e-alloy. At present, a cell consisting of oxygen and silver chloride Nogo electrodes is used to determine the acidity of molten salts at high temperatures.

Usually, oxygen electrodes serve platinum or gold plates, sometimes graphite rods. In working condition, the electrode is immersed in the melt and continuously washed by gaseous oxygen. Such oxygen electrodes work in acidic and neutral melts. In alkaline melts, platinum and gold dissolve, emf values. reproduced poorly. The graphite electrode is stable in an oxygen atmosphere only up to 400-500 ° C. In addition, oxygen electrodes are unsuitable for measuring acidity in melts of iodides and bromides, since the latter decompose under the action of oxygen.

asbestos, or clinging tpy6KH, ending with a membrane. Inside the tube is the test melt with silver chloride and silver to the wire. An electrode of this design allows only a few experiments, since quartz and glass HefnphroiHbi for alkaline melts at high temperatures and quickly deteriorate, and silver on the wave above the melt Koppddiruet to complete burnout. A cell with such electrodes does not allow determining the acidity of the melts with high accuracy. At best, the accuracy is +25 mV. In order to improve measurement accuracy and

the extension of the field of use has been proposed for an electrolytic cell consisting of oxygen and chlorine-silver electrodes placed in a vessel with the molten salt under investigation.

The oxygen electrode is made in the form of a vacuum-tight tube with a bottom containing 85% zirconium dioxide and 15% calcium oxide, the inner surface of which is coated with platinum black. The tube is provided with a current lead made of platinum wire, to the end of which a platinum plate is attached, which is in close contact with the platinum mob. Through a platinum capillary tube inserted into the tube, the dry is continuously fed.

It is possible to measure the acidity of not only acidic and neutral, but also alkaline molten media, as well as unstable melts such as iodides and alkali metal bromides. A silver chloride electrode is made in the form of an a.tundum tube with a strictly defined porosity of 0.1–0.2%, at the bottom of which a silver ingot with a platinum core is placed under a layer of the electrolyte under study, which is a mixture of potassium chloride and silver.

An electrode of this design is more reliable in operation and allows for a large number of experiments.

FIG. 1 shows an electrolytic cell; in fig. 2 is a plot of emf. melt acidity cells.

The cell is made in the form of an alundum crucible 1, in which oxygen 2 and silver chloride 3 electrodes are placed.

A current lead 4 is placed in the tube of the oxygen electrode, to which is attached a spiral platinum plate 5 in contact with the platinum black 6 deposited on the inner surface of the tube and a platinum capillary 7 for supplying oxygen.

In the test tube of the chlorofrequency electrode, an silver ingot 8 is located at the bottom, which is connected to the collector 9.

The cell is placed in a quartz cover that protects the heating coil of the furnace from contact with potassium chloride, and also serves to create an inert atmosphere above the melt. In the melt of potassium chloride, which is in an alundum crucible at 8CS ° C, various amounts of Na2O and

measure emf using the proposed cell. Balance is usually established in 10-15 minutes. The resulting tangent of the angle of inclination for the dependence. E, c. from the concentration of NagO is equal to kV, which is close to the theoretical value for unbuffered melts. Accuracy achieved when measuring the acidity of KC1 melts is ± 10 mV.

The proposed cell allows to measure the acidity in a wide temperature range (600-1200 ° C), as well as to measure the acidity in alkaline melts and melts decomposed by the action of 1st oxygen gas. Such cells as sensors can be used in the system of automatic control of those processes for which processes are carried out in molten salt media.

Subject invention

An electrolytic cell for measuring the acidity of molten salts, consisting

From oxygen and chlorine-sulfur electrodes placed in a vessel with the molten salt under investigation, characterized in that, in order to increase the measurement accuracy and expand the field of use, the acid electrode is made in the form of a tube containing 85% zirconium dioxide and 15% calcium oxide whose inner surface is covered with platinum black and the silver-chloride electrode is transformed into an alundum test tube with a porosity of 0.1-0.2%, at the bottom of which a silver ingot with a platinum lead is placed under a layer of the electrolyte under study.