RU1803830C - Method of determination of concentration of substance dissolved in liquid - Google Patents

Abstract

A method for determining the concentration of a dissolved substance in a liquid: the analyzed liquid is cooled locally, and acoustic radiation is used as the detected radiation. 3 silt.

Description

The invention relates to physicochemical methods of analysis, in particular, to methods of acoustic analysis of the concentration of liquid solutions.

 The aim of the invention is to increase the accuracy of the measurement, by eliminating the triboluminescent effect while simplifying it and expanding the range of test substances.

The method consists in the fact that when determining the composition of a substance by cooling the analyzed liquid and registering radiation, acoustic pulses are used as the latter and the concentration of the solution is judged by their intensity, and to exclude the triboluminescent effect, the process of cooling the studied liquid is carried out locally, by for example, the use of a pre-chilled body.

Figure 1 shows a device for implementing the method, where 1 is a vessel with a test liquid, 2 is a refrigerant, 3 is a waveguide, 4 is a receiver, 5 is an amplifier, 6 and 7 are recording devices; Figures 2 and 3 are graphs of the dependence of acoustic pulses during crystallization on the percentage of NaCI and KOH solutions, respectively.

The method for determining the concentration of the solution is as follows.

The analyzed liquid substance is poured into the vessel 1, then a waveguide 3 is placed in it, connected to the recording devices 6 and 7 through the receiver 4 and amplifier 5. After that, a metal or quartz cube, pre-cooled to nitrogen temperature, is lowered into the liquid under investigation, i.e. refrigerant 2,

To determine the concentration of various solutions, it is necessary to use; calibration graphs, where the dependence of the intensity of acoustic pulses on concentration is plotted in advance on the reference samples.

PRI me R 1. In a glass vessel 1 pour 100-150 ml of the investigated aqueous

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sodium chloride solution (NaCI). A waveguide 3 connected to the recording devices 6 and 7 through a receiver 4 and an amplifier 5 is lowered into the solution to a depth of 10-15 mm. Then, a metal cube 2 of 10x10 (mm3) stainless steel, pre-cooled to the temperature of liquid nitrogen, is lowered into the solution. Acoustic pulses resulting from crystallization of the solution on the face of the cube are recorded by counter 7. The resulting sum of acoustic pulses is plotted on the calibration curve (Fig. 2) and the corresponding concentration (C,%) of the NaCI solution is determined.

Example 2. The concentration determination was carried out analogously to example 1, only the analyzed solution was an aqueous solution of potassium hydroxide (KOH). In this case, the total number of acoustic pulses is plotted on the calibration curve (Fig. 3) and the concentration (C,%) of the KOH solution is determined.

The use of the claimed method for determining the concentration of a solution provides the following advantages over known methods:. simplicity of the method, due to the elimination of complex equipment, for example, PMTs, high-voltage source, etc .; security

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accuracy in determining the concentration of the solution; solution analysis can be used to control the purity of the growing crystal directly during crystallization.

Thereby, it is possible to quickly determine the quality of the growing crystal and by changing the cooling rate, select the optimal crystallization mode, control and timely influence its process.

Formula A method for determining the concentration of a solute in a liquid, including cooling the sample of the analyzed liquid and recording Radiation of the sample, the characteristics of which are analyzed, characterized in that, in order to improve accuracy determination by eliminating triboluminescent radiation, the analyzed liquid is cooled locally by placing in it a pre-cooled body made of a material that does not react chemically with the dissolved substance tion, as well as the detected radiation using spontaneous acoustic emission, the intensity of which is judged on the concentration of the solute.

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