SU452779A1 - Condensing vapor sensor - Google Patents

Description

one

The invention relates to a measurement technique used in the study of condensation processes and to control the composition of the gas mixture in condensers.

A condensing vapor sensor is known, comprising cooled electrodes included in a conductometric circuit and a temperature meter. This sensor does not allow the detection of pairs of a chemically reacting system, since gas exchange and gas transportation in the capacitor volume and in the gap between the electrodes are different.

In the proposed sensor, this disadvantage is eliminated due to the fact that it is equipped with a suction tube installed at the point where the electrodes come together, i.e. at the point where the vapor condenses.

In the case 1 of the sensor, two water-cooled thin-walled tubes 2 3 (of the Field type), which are electrodes, as well as a tube 4 for sucking gas through the gap (of the order of O, O5 mm) between the tubes, are mounted. The tube 4 is installed at the point where the tubes 2 and 3 converge. One of the tubes 2 is electrically insulated from the body using fluoroplastic sleeves and gaskets. To measure the temperature of the water flowing through the pipes, ki, a thermocouple 5, connected to potentiometer 6, is inserted into the tube 2.

The tricking resistance of the gap between the tubes 2 and 3 is determined by means of a single bridge 7 connected to the flanges 8, 9. The sensor is made of stainless steel and is installed in the rear

This point of space on the housing 1O of the capacitor.

The sensor's operation is to fix the temperature of the water with the thermocouple (and, consequently, the temperature

tube) at the time of formation and evaporation of a condensate film in the gap between the tubes 2, 3, which causes changes in the electrical resistance of the gap. The true dew point temperature is the arithmetic mean value of all the water temperature values measured by the thermocouple during the closing and opening of the contact in the gap,. To reduce the measurement error

. dew point temperatures are required: minimum rate of decrease and increase in water temperature when determining the occurrence and disappearance of the condensate film, the maximum possible water consumption, equality of water temperatures in both tubes, the presence of gas mixture suction through the gap.

The fractional pressure of non-condensable gases is determined by the pressure difference — the pressure measured by the pressure gauge, the vapor inside the condenser, and the partial pressure of the condensing vapor are divided by the elastic curve of the saturated vapor.

The proposed sensor makes it possible to determine the partial, pressure of condensing vapors in a chemically reacting system of non-equilibrium composition at various points in the vapor space of a condenser using traditional measuring equipment. The sensor can be used for chemically reacting systems at temperatures that are low to saturation temperatures when the chemical relaxation time of the reaction is much longer than the diffusion time of the components in the boundary layers of the laminar flow, i.e. the composition; in space and on the surface of the sensor T is practically the same. This design can also be used to determine the composition of inert vapor-gas mixtures in condensation plants, in the final stages of turbines, in various chemical apparatus.

Subject invention

A sensor for condensing vapors containing cooled electrodes included in the conductometric circuit and a temperature meter, characterized in that, in order to detect chemical vapors of the reacting system, the sensor is equipped with a suction tube installed at the point where the electrodes come together.