SU802841A1 - Method of determining specific surface of contact of phases of gas-liquid flow - Google Patents

Description

The invention relates to an analytical instrument and can be used to measure the parameters of gas-liquid systems. There is a known method for determining the specific surface area of the phase cycle cs from photographs of gas-liquid layer and their subsequent processing by the method of abandoned needles. This method is complicated, time-consuming in data processing and tfigodn only in optically transparent environments. The closest in technical essence to the proposed invention, 1BI is a method for determining the specific surface contact of the gas-liquid flow phases, consisting in measuring the electrical conductivity between a point measurement and reference electrodes placed in the medium under study, and using the received signals to calculate the specific surface of phase contact. In this method, the electrodes are supplied with short pulses and two closely spaced electrodes interfere with each other through piercing. This reduces accuracy when measured. The aim of the invention is to improve the accuracy of determining the specific super-contact of the phases. The goal is achieved by the fact that the measurement oscillates along the stream with two different speeds. The drawing shows a diagram of the device that implements this method. Device one measuring device 1, mechanism 2 of booster motion, electric helme 3, rev counter 4, switch 5, decisive block 6, pulse totalizer 7, pulse counter 8 and regulator 9 of the measuring electrode oscillation (movement) one . The measuring electrode 1 is placed in a gas-liquid flow with chafes in it crosses them as if moving towards

Claims (1)

Claim The method of determining the specific surface of the contact phase of the gas-liquid flow, which consists in measuring the electrical conductivity between point measuring and reference electrodes placed in the medium, and using the received signals to calculate the specific surface of the contact phase, characterized in that, in order to improve the accuracy of determination, the measuring electrode along the stream at two different speeds.