SU1147970A1 - Method of determination of free gas distribution in liquid - Google Patents

Abstract

A METHOD FOR DETERMINING FREE FLUID GASPARATION IN A LIQUID, according to which a shock wave pulse is triggered to the medium under study, the propagation velocity of this pulse is measured and the free gas-vapor content in the fluid is determined by the measured velocity, in order to improve the measurement accuracy by eliminating the effect of resonance the frequency of gas vapor bubbles, their size and their elasticity, trigger a long-wave impulse of a shock wave of finite amplitude, and its duration is determined by the formula. a: n & ". where QO is the average size of the bubbles; Hss is the thermal diffusivity of the gas (L in the case of gas bubbles or the thermal diffusivity of the liquid in the case of vapor bubbles.

Description

4 The invention relates to a non-destructive testing and can be used to determine the free g vapor vapor content in a liquid by measuring the velocity of pressure waves. The method of determining free gas content in a liquid is known, which means that the gas sample with the gas is first isothermally compressed, measuring The change in the volume and pressure in the liquid and from it the gas content in the liquid is calculated. However, it takes a long time to perform measurements by a known method. The closest to the invention in technical essence and the achieved result is a method for determining the free gas vapor content in a liquid, which means that a shock wave pulse is launched into the test medium, the propagation velocity of this pulse is measured, and the free gas vapor content in the liquid is determined from the measured velocity . However, the known method has a low measurement accuracy, since at a perturbation frequency equal to the resonant frequency of the bubble, the speed of propagation of the perturbation ambiguously depends on the concentration of gas in the liquid, and also depends on the size of the bubbles and their elasticity. The purpose of the invention is to improve the measurement accuracy by eliminating the influence of the resonant frequency of gas vapor bubbles, the size and their elasticity. The goal is achieved by the method of determining the free gas vapor content of a liquid, according to which a shock wave pulse is launched into the medium under study, the propagation velocity of this pulse is measured and the free gas vapor content in the liquid is determined by the measured speed, a long-wave shock wave pulse is started and its Duration is determined by the formula: 5t. .. where Do - the average size of bubbles; X 5 - gas thermal diffusivity in the case of gas bubbles or temperature permeability; liquids in the case of vapor bubbles. The method for determining the free gas vapor content in a liquid is carried out as follows. In the test medium, a shock wave pulse of a chosen duration is triggered using a shock wave generator, and the time it takes for a fixed distance to pass is measured. The propagation velocity of the pressure wave in the test medium is determined. Due to the selected pulse duration, the impact on the velocity of propagation of a shock wave in bubble two-phase media of bubble sizes and their elasticity is eliminated. Then, the gas content or vapor content in the liquid is calculated from the velocity distribution of the pressure wave in the test medium. The method of determining the free gas vapor content in a liquid allows an increase in the measurement accuracy,. since at the chosen pulse duration of the shock wave, there is an unambiguous relationship between the velocity of propagation of the pressure wave and the concentration of the gas or vapor.

Claims (1)

METHOD FOR DETERMINING FREE GAS AND VAPOR CONTENT IN LIQUID, by which a shock wave impulse is injected into the test medium, the propagation velocity of this impulse is measured, and the free gas and vapor content in the liquid is determined from the measured velocity, characterized in that, in order to increase the measurement accuracy by eliminating the influence of the resonant frequency of gas-vapor bubble size and elasticity longwave trigger pulse shock waves of finite amplitude, and its duration is determined by the formula where a is ₀ - medium posted p bubbles; х «с - thermal diffusivity of gas in the case of gas bubbles or • thermal diffusivity of liquid in the case of vapor bubbles.