SU894537A1 - Method of oxygen content determination - Google Patents

Description

(B) METHOD FOR DETERMINING THE CONTENT OF OXYGEN

The invention relates to the measurement of gas content and can be used in determining the concentration of oxygen in a mixture and in solution and, in particular, in flotation pulp.

A polarographic method is known for measuring the oxygen content in various liquid and gaseous media. There are two varieties of the polarographic measurement method: an external voltage source method and an internal voltage source method, or galvanic, and in the first case it is possible to use mercury and solid electrodes, in the second case only solid tl.

Closest to the present invention is the determination of the oxygen content by measuring the current in the redox system. The limiting current of the electroreduction of oxygen on the indicator electrode of a noble metal, covered by a polymer membrane, is measured.

This method has sufficient reliability, reaction rate and can be used for the determination of oxygen in both liquid and gas mixtures 2.

However, due to the low rate of oxidation of oxygen, the sensitivity of the method is small, so most often the output signal of the sensor has to be amplified, which significantly complicates the measuring circuit, increases the measurement error and the analysis time. In addition, the manufacture of indicator electrodes of precious metals leads to the high cost of sensors.

The circuit of the invention is an increase in the express determination with the use of an indicator electrode from a non-precious metal.

The goal is achieved by the fact that in the known method of determining the content

oxygen by measuring the current in the redox system, the peak oxidation current of the passivating electrode is measured with a cyclically linear potential change from a value corresponding to the restoration of the electrode surface to a potential corresponding to oxidation and in the opposite direction.

The peak oxidation current of the lead electrode is then measured. In addition, the potential of the lead electrode is changed from -1.5 to 1.5 V at a speed of 50–100 mV / s and spasmodically in the opposite direction until the electrode surface is completely cleaned.

An example of the proposed method is measuring the concentration of oxygen in a solution of sodium chloride 50 g / l with a lead electrode with a working surface of 1 cm. Auxiliary test results indicate the correctness of the definitions proposed by the express method of analysis.

Claims (3)

1. The method for determining the oxygen content by measuring the current in the redox system, in particular, in order to increase the rapidity of the determination, measures the peak oxidation current of the passivating electrode with a cyclically linear potential change from the value corresponding to the restoration of the electrode surface potential corresponding to oxidation, and stepwise to the opposite. the side. The target electrode is graphite, the reference electrode is silver chloride, the pH of the solution is 10. A change in the potential of the lead electrode from -1.5 to +0.1 V at a speed of 80 mV / s is provided by means of the P-5827 potentiostat; and an oscilloscope C1-18. FIG. 1 is a plot of potential and current over time; Fig. 2 shows the dependence of the peak current values on the oxygen content in the solution. In parallel, the oxygen content in the electrolyte is determined by chemical and known polarographic methods. After constructing the calibration graph, the oxygen content in the samples of flotation slurries was measured, with verification by known methods. Measurement data is presented in the table. 2. The method according to claim 1, wherein the peak oxidation current of the lead electrode is also measured. 3. Method pop. 1 and 2, characterized in that the potential of the lead electrode is changed from -1.5 - {- 2) to + 1-1.2 V at a speed of 50-100 mV / s and in steps in the opposite direction until the electrode surface is completely cleaned. Sources of information taken into account in the examination 1.Alperin V.Z., Konnik Z.I., Kuzmin A.A. Modern electrochemical methods and apparatus for the analysis of gases in liquid and gas mixtures. M., Himi, 1975, p. 80-135. 2. USSR author's certificate number 29979, cl. G 01 N, 1968 (prototype).