SU1481660A1 - Method of measuring volumnar concentration of gas and vapour inclusions in fluid - Google Patents

Abstract

The invention relates to the measurement of the properties of porous liquid media, specifically to a method for measuring the volume concentration of vapor-gas inclusions in a liquid. The purpose of the invention is to increase the speed, reliability of measurements in the conditions of stationary and non-stationary gas content of the liquid. In the method, the reference and test volumes in the liquid are isolated, an alternating electric field is applied to them, the values of external hydrostatic pressure and the ratio of specific heat capacities for gas or vapor are determined. In the investigated volume of fluid excite acoustic pressure. The change in the electrical conductivity of the liquid volume under study is measured at a given acoustic pressure relative to the electrical conductivity of the reference volume. The volume concentration β of vapor-gas inclusions is determined from the ratio of measured values given in the claims. 1 il.

Description

The invention relates to the field of measuring the properties of porous liquid media and can be used in the fields of science and technology related to the processes of measuring or controlling the properties of such media, including gas-saturated water, boiling liquids, gas-saturated organic and inorganic solvents, liquids varying volumetric free gas content both in the laboratory and in the continuous process.

The aim of the invention is to increase the speed, reliability of measurements

under the conditions of stationary and unsteady gas content of liquid.

The method of measuring the volumetric concentration of vapor-gas inclusions in a liquid, including cavitating, consists in isolating the reference and investigated volumes of liquid, applying an alternating electric field to them, determining the external hydrostatic pressure and the ratio of specific heat capacities for gas or vapor. Acoustic pressure of a given amplitude and frequency is excited in the studied volume of liquid, the change in

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the electrical conductivity of the investigated volume of liquid at a given acoustic pressure relative to the electric conductivity of the liquid of the reference volume, and the volume concentration p of vapor-gas inclusions is determined by the formula

4.6 (&

f

de

 - is the ratio of the specific v of heat capacities for steam or gas at a given acoustic pressure and volume;

60 electrical conductivity of the reference fluid volume; P0 - external hydrostatic

pressure;

d6 (P) is the change in the electrical conductivity of the volume under study at a given acoustic pressure;

high frequency amplifier 3 voltage from r generator 4 oscillating frequency Because of the bridge supplying alternating current with a frequency higher than the frequency of the acoustic field, the voltage spectrum at the output of the bridge is obtained shifted by the frequency of the supply. Men last, shift the spectrum as a single field. In this way, we managed to avoid the effects of near-electrode effects on the measured electrical conductivity, and also get rid of interference, additionally using to measure the useful signal

5 is a narrowband selective amplifier 5. The spectral characteristic of the measurement of electrical conductivity is observed on indicator 6 and recorded on a recorder tape 7. Cavitation is carried out

0 in water by a magnetostrictive radiator 8 at a frequency of 23 kHz,

The acoustic pressure is measured by a hydrophone placed in place of the electrolytic cell. Change

P - the amplitude of the acoustic pressure of the conductivity is investigated. in from

laziness.

A miniature electrolytic check is placed in a vessel with the liquid under test at a predetermined external, for example, atmospheric pressure. A longitudinal acoustic wave of a given amplitude relative to the external pressure and a length much greater than the characteristic dimensions of the electrolytic cell is created using a liquid transducer. Excessive acoustic pressure causes a change in the bulk gas content and, consequently, the electrical conductivity of the fluid. The cell is included in one of the arms of the measuring bridge circuit.

The drawing shows the block diagram of the device for implementing the method

The device is designed to determine the free volumetric gas content of the cavitating fluid. To measure the electrical conductivity, two identical electrolytic cells 1 with titanium dotted electrodes are lowered into the liquid. The cells are included in the measuring bridge 2 in a differential circuit. One of the cells, the reference one, is placed in a sound-proofing screen, due to which there was no cavitation in the fluid between the electrodes of the cell.

The electrolytic cells and the measuring bridge were fed through you

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One hundred lice and fresh tap water at room temperature. In the described installation, the conductivities are measured from up to 10 against the background of the conductivity of water 10. This shows that the volumetric gas content of water is measured in the range of up to 10. This range can be expanded by increasing the sensitivity of the bridge. At the installation, the electrical conductivity spectrum of the cavitating region and, consequently, the variation spectrum of the volumetric gas content of the liquid during the order of the period of the sound wave are measured.

Thus, a change in the electrical conductivity of a liquid with vapor-gas inclusions relative to the electrical conductivity of a continuous liquid is a measure of the instantaneous free gas content of the medium.

Claims (1)

Invention Formula A method for measuring the volumetric concentration of vapor-gas inclusions in a liquid, which consists in separating the reference and investigated volumes in a liquid, applies an alternating electric field to them, I determine the values of external hydrostatic pressure and the ratio of specific heat capacities for gas or vapor, characterized in that, in order to increase the speed and reliability of measurement, an acoustic pressure is excited in the liquid volume under study, changes in the electrical conductivity of the liquid volume under investigation are measured at a given acoustic pressure relative to the electrical conductivity of the reference volume and according to the formula 2 -  h gr P6, Rv 6 external hydrostatic pressure for the separated fluid; WITH. C i - the ratio of the specific heat capacities of gas or steam; / (T (P). The absolute change in the electrical conductivity of the liquid volume under study at a given acoustic pressure; P is the amplitude of the acoustic pressure; 60- electrical conductivity of the reference fluid volume.