SU1679346A1 - Method for determining concentration of substance in multicomponent solution - Google Patents

Abstract

The invention relates to the field of potentiometric determination of the concentration of substances in solutions, mainly waste and natural waters, and can be used to determine the concentration of substances in multicomponent solutions in the chemical, petrochemical and other sectors of the industry. The aim of the invention is to improve the accuracy of concentration determination by eliminating methodological errors. For this purpose, joint measurements of electrical conductivity and ph potential are implemented and the concentration of a substance is calculated by calculation using the found empirical relationship. 1 silt

Description

The invention relates to a potentiometric determination of the concentration of substances in solutions, mainly waste and natural waters, and can also be used to determine the concentration of substances in multicomponent solutions in the chemical, petrochemical and other sectors of the industry.

The aim of the invention is to improve the measurement accuracy while eliminating the methodological error by taking into account the solution activity coefficient.

The drawing shows a block diagram of a device that implements a method for determining the concentration of a substance in a multicomponent solution.

The method is implemented in the following sequence.

The analyzed solution is poured into the measuring cell, the emf is measured between

measuring electrode and reference electrode E.

The electrical conductivity is then measured.

solution x and the results of joint measurements determine the concentration of substance C according to the formula:

C JSC + AiE + A2EZ + Az

1 + A4E, (1)

HE

where C is the concentration of the analyte;

E is the measured value of the emf of the solution;

X is the measured value of the electrical conductivity of the solution.

Ao, A1, A2, Az, A4 are constant coefficients that are found in the standardized two-parameter calibration procedure previously implemented.

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about

The device contains a measuring cell 1 with the analyzed solution 2, about which the measuring electrode 3 is selective for the substance being detected and the reference electrode 4. The outputs of the electrodes are connected to the input of the converter 5. In the controlled solution 2 there is also noi measuring cell G of the specific conductivity of the solution. Its output is connected to the input of the second converter 7, p input to the output of the frequency generator 8, the outputs of the converters 5 and 7 are connected to the inputs of the 1 unit 9, the output of which is connected to the input of the recording device 10,

A measuring solution is drunk in measuring cell 1. An EMF occurs between measuring electrode 3 and comparison electrode 4 is proportional to the concentration of ions of the sensor and the activity of the solution. The EMF that has appeared is converted into an electrical signal at the input of the converter. 7, the signal from the measured cell 6 is proportional to the conductivity of the solution, measured at the frequency and the value of the alternating voltage given by the HP input 6 itelnoy cell frequency generator 8 converted into a current pre Ob zovatelem 7 is input signap

computing unit 9. In computing unit 9, the concentration of the controlled substance is determined according to the approximating relationship (1). The resulting signal is proportional to the concentration of the monitored substance, is fed to the input of the recording device 10.

Claims (1)

Claims The method of determining the concentration of a substance in a multi-component solution is that the solution is poured into the measuring cell, the emf between the measuring electrode and the reference electrode is measured, and the concentration is determined according to the measurement results, characterized in that, in order to improve accuracy by taking into account the coefficient activity of the solution, the electrical conductivity of the solution is additionally measured, and the concentration is determined by the formula With Ao + A1E + A2E2 + Az +, where C is the concentration of the analyte; E is the measured value of the emf of the solution; X is the measured value of the electrical conductivity of the solution; Ao, A1, A2, Az, A4 are the constant coefficients obtained during calibration.