SU1027596A2 - Method of determination of free gas concentration in liquid - Google Patents

Abstract

A METHOD OF OPTIMIZING THE CONCENTRATION OF FREE GAS IN A LIQUID on author.St. 584241, which is used in order to change the frequency of high-frequency acoustic oscillations in the range characterizing the resonance frequencies, to determine the frequency of puzzles for each frequency, in order to determine the density distribution of the concentration of gas pushes by size. and the density distribution of the concentration of bubbles in a given interval a 4er is determined by the difference in concentrations corresponding to the resonant frequencies of the bubble edge of the interval.

Description

The invention relates to the instrumentation engineering and can be used when monitoring low concentrations of gas in liquids. According to the main auth. No. 584241, there is a known method for determining the concentration of free gas in a liquid, which consists in executing the test medium by acoustic oscillations at frequencies below the resonant frequencies of free gas bubbles in a liquid, the travel time of a fixed distance, acoustic oscillations and these frequencies are measured determine the concentration of free gas 1 IB liquid i | according to the formula LY tH where t is the delay time of the low-frequency signal relative to the high-frequency signal t is the travel time of the low-frequency sound wave; A is a constant depending on the kind of liquid. The disadvantage of this method is the impossibility of determining the density distribution of the concentration of free gas bubbles by size ClM. The purpose of the invention is to determine the density distribution of the concentration and concentration of gas bubbles by size. This goal is achieved by changing the frequency of high-frequency acoustic oscillations in the range characterizing the resonant frequencies of the bubbles, determining the concentration of bubbles for each frequency, and the density distribution of the concentration of bubbles in a given size range is determined from the difference in concentrations corresponding to the resonant frequencies of the bubbles by the boundaries of the range of sizes. The total concentration of free gas bubbles in a liquid is determined by the limestone method. To determine the size distribution of the concentration of bubbles of free gas by size, the frequency of high-frequency acoustic oscillations is changed in such a way that its value is in the range of resonant frequencies of gas bubbles in a liquid. At the same time, the frequency of the low frequency signal remains unchanged. In this case, gas bubbles affect the propagation speed of the low and high frequency oscillations. The speed of propagation of low-frequency oscillations is affected by all bubbles, and the speed of propagation of high-frequency oscillations is affected by bubbles with resonant frequencies exceeding the frequency of the liquid sound signal. Gas bubbles with these frequencies reduce the phase velocity of sound in proportion to the total concentration of these bubbles. To determine the concentration of gas bubbles in a given size range, pre-calculate the resonant frequencies of the bubbles at the boundaries of this range, then determine the values of the concentrations of bubbles for these frequencies and find the concentration of bubbles of free gas in the liquid by the difference of concentrations. Thus, each time similar operations were performed, the total concentration of free gas in the liquid and the density distribution of the concentration of gas bubbles in the size are determined. The advantage of the proposed method for determining the concentration of free gas in a liquid in comparison with the known method is that it allows to determine not only the total concentration of free gas of a liquid, but also the density of the distribution of gas bubbles in size. The value of the density distribution of bubbles in size makes it possible to determine the law of change in the attenuation of sound for different frequencies, to study the real cavitational strength of the bones. The method makes it possible to determine the density distribution of free gas bubbles by the size directly in the flow of liquid, which is important for solving a number of science and engineering problems.

Claims (1)

METHOD FOR DETERMINING THE CONCENTRATION OF FREE GAS IN A LIQUID by ed. No. 584241, it is noteworthy that, in order to determine the density distribution of the concentration of gas bubbles by size, they change the frequency of high-frequency acoustic vibrations * in the range characterizing the resonant · frequencies of the bubbles, determine the concentration of bubbles for each frequencies, and the density distribution of the concentration of bubbles in a given size range is determined by the difference in concentrations corresponding to the resonant frequencies of the bubbles at the boundaries of the size range. 1027