SU1061039A1 - Method of determination of free gas and vapor content in liquid - Google Patents

Abstract

METHOD FOR DETERMINING FREEDOMS:. HYDROGEN CONTAINMENT IN A LIQUID consists in that a shock impulse is triggered into the medium under study ((waves, the propagation velocity of this impulse is measured, and the free gas-vapor content in the liquid is determined from the measured velocity, due to the fact that measurements by eliminating the influence of the resonant frequency of gas-vapor bubbles of size and their elasticity, trigger a long-wave impulse: shock waves of finite amplitude, and its duration is determined by the formula 5i4 Ld, where a | is the average size bubbles; x - in the case of gas diffusivity of the gas bubbles or the (L diffusivity of fluid in the case of steam bubbles.

Description

The invention relates to non-destructive testing and can be used to determine the free gas-vapor content in a liquid by measuring the velocity of propagation of pressure waves. A known method for determining the free gas content in a liquid is that the sample of a liquid with a gas is first isothermally compressed, the change in volume and pressure in the liquid is measured, and the gas content in liquid C is calculated from them. However, long measurements are required by the known method. time The closest to the invention to the technical essence and the achieved result is the method of determining the free gas steam generator; ) sleds in a liquid, which means that a shock wave pulse is launched into the test medium, the propagation speed of this pulse is measured, and the free gas-vapor content in the liquid 2 is determined from the measured velocity. The disadvantage of this method is that it has low accuracy when the frequency of the disturbance is equal to the resonance frequency of the puzka, the propagation speed of the 1 QFQ of the disturbance ambiguously depends on the concentration of gas in the dampness, and also depends on the size of the bubbles and their elasticity. The purpose of the invention is to improve the accuracy of the change over. by eliminating the influence of the resonant frequency of gas vapor bubbles, the size and their elasticity. This goal is achieved due to the fact that, according to the method for determining free gas vapor content in a liquid, which implies 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 by the measured velocity, the long wavelength impulse of a shock wave of finite amplitude, and its duration is determined by the formula, Chl where ZQ is the average size of the bubbles; x, is the thermal diffusivity of a gas in the case of gas bubbles or the thermal diffusivity of a liquid in the case of vapor bubbles. The method for determining free gas-vapor content in a liquid is carried out in a specular manner. 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 travel 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 speed of propagation of a shock wave in bubble two-phase media of bubble sizes and their elasticity is eliminated. Then, according to the velocity of the pressure wave in the test medium, the gas content or vapor content is calculated in the liquid. The method of determining the free gas vapor content in the gas content makes it possible to increase 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 gas or vapor.

Claims (1)

METHOD FOR DETERMINING FREEDOM OF GAS AND VAPOR CONTENT IN LIQUID, consisting in the fact that a shock pulse is launched into the test medium! waves measure the propagation velocity of this impulse and determine the free gas content in a liquid from the measured velocity, which is explained by the fact that, in order to increase the measurement accuracy by eliminating the influence of the resonant frequency of gas-vapor bubbles, sizes and their elasticity, they start the long-wave pulse of a shock wave of finite amplitude, and its duration is determined by the formula> where a *> "Βί> - the average size of the bubbles; - thermal diffusivity of gas in the case of gas bubbles or / thermal conductivity of the liquid case of vapor bubbles. SU „1061039