SU1133540A1 - Device for determination of two-phase steam and steam-liquid mixture parameters - Google Patents

Abstract

DEVICE Lt DEFINITIONS OF PARAMETERS OF A TWO-PHASE FERROUS AND GAS-LIQUID MIXTURE, containing a pipeline, sensors for measuring parameters of a shock wave, installed along the length of a pipeline, and a valve for blocking a pipeline propagation of the pressure wave, vapor and gas content of the mixture and the average radius of puffs; the valve is designed as perpendicular to the axis of the pipeline and dividing it two in pairs allele plates with holes coinciding with the cross section of the pipeline, a flat diaphragm with holes located between the plates, and a control electromagnet attached to the outer sides of the plates. 00 coded 4:

Description

The invention relates to non-destructive testing and can be used to determine the physical parameters of two-phase steam and gas-liquid mixtures using elastic waves. A device for determining the content of free gas in a liquid is known, comprising a pipeline, high-pressure shut-off valves, a compression chamber, a thermostatic jacket surrounding the compression chamber, and a plunger. When a liquid with free gas in the chamber is compressed, the initial gas content of the liquid cut off in the compression chamber jjj is determined by volume and pressure. However, this device does not measure the speed of sound in the medium and the average radius of the bubbles, and also takes considerable time for; measurements, which limits its use in production lines. The closest to the invention to the technical essence and the achieved result is a device for determining the parameters of a two-phase vapor-and gas-liquid mixture containing a pipeline, sensors for measuring parameters of a shock wave, installed along the length of the pipeline and a valve for shutting off pipeline 2. adjusting the duration of the water hammer, which limits the information content of the measurement. The aim of the invention is to increase the information content of the control by simultaneously determining the speed of propagation of the pressure wave of the vapor and gas content of the mixture and the average radius of the bubbles. This goal is achieved by the fact that, in a device for determining parameters of a two-phase vapor-and gas-liquid mixture containing a pipeline, sensors for measuring parameters of a shock wave, installed along the length of the pipeline, and a slide for closing the pipeline, are inserted as perpendicular to the axis of the pipeline and parallel plates separating it from dvz with holes coinciding with the cross section of the pipeline, a flat plate with holes located between the plates, and a control electromagnet fixed on the outer sides of the plates. The drawing shows the proposed device. The device consists of a pipeline 1, placed in a thermostatic jacket 2, and equipped with a valve 3 and pressure sensors 4 installed along the axis of the pipeline 1. The valve 3 consists of two parallel plates 5 installed perpendicular to the axis of the pipeline 2 and separating it into two parts. Inside the plates 5 there is a diaphragm 6, which has openings 7 and 8 on the edges. On the outer sides of the plates 5 a control electromagnet 9 is fixed. A device for determining the parameters of a two-phase vapor-and gas-liquid mixture works as follows. the control electromagnet 9 so that the hole 8 coincides with the lumen of the pipeline 1, Pump the fluid through the pipeline 1 and the thermostatic jacket 2 and achieve equal temperatures throughout the entire fluid flow. Then the electromagnet 9 is turned on, while the diaphragm 6 is sharply pushed out of it along the plates 5, which leads to the overlapping of the cross section of the pipeline 1, creating a hydraulic shock in the two-phase mixture under study. When the diaphragm 6 moves further between the plates, it opens the section of the pipeline 1 through the opening 8, and with the help of the control electromagnet 9 it ensures the speed of movement of the diaphragm 6 at which the flow in pipe 1 is blocked during the time calculated according to the dependence of the fluid density; static pressure in the mixture; Estimated Characteristic of Average Bubble Radius With amplitudes of the order of 0.1-1.0 atm and the indicated duration of flow overlap, the speed of signal propagation is equal to the equilibrium speed

sound in the studied environment. The evolution of the wave process in the test mixture is recorded by sensors 4 and the equilibrium sound velocity in the test medium and the attenuation of the signal, respectively, are measured by the time of signal propagation between the two sensors and the pressure value. Taking into account the measured velocity, the vapor and gas content of the mixture under study is determined by known formulas, and

the average radius of the bubbles is due to the attenuation of the signal.

The proposed device for determining the parameters of a two-phase vapor of a gas-liquid mixture makes it possible to increase the information content of the control by adjusting the speed of movement of the diaphragm and, accordingly, the time for blocking the mixture flow in the pipeline.

Claims (1)

(.57) DEVICE FOR DETERMINING THE PARAMETERS OF A TWO-PHASE STEAM AND GAS-LIQUID MIXTURE, containing a pipeline, sensors for measuring shock wave parameters installed along the length of the pipeline, and a valve for shutting off the pipeline, which is characterized by the fact that, in order to increase the information content of control, at the same time determining the propagation velocity of the pressure wave, vapor and gas content of the mixture and the average radius of the bubbles, valves, the valve is made in the form of perpendicular to the axis of the pipeline and two parallels separating it part plates with holes matching the cross section of the pipe, a flat diaphragm with holes located between the plates, and a control electromagnet mounted on the outer sides of the plates.