SU197264A1 - DEVICE FOR MEASURING THE VISCOSITY OF STEAM OF ALKALI METALS - Google Patents

Description

The invention relates to physical devices for the investigation of substances.

Apparatuses for measuring vapor viscosity are known, comprising a capillary, a differential pressure gauge, a liquid-phase container, heaters and hydraulic cylinders.

A feature of the proposed device is that the capillary in it is made of metal with a work function higher than the vapor ionization potential, and the smallest transverse size of the internal channel of the capillary is less than the mean free path of charged particles relative to recombination.

This makes it possible to measure the viscosity of a surface-ionized homogeneous vapor composition.

Ia the drawing shows the proposed device.

The device contains a capillary p 1 surrounded by heater 2 and connected to transition flanges 3. Bellows chambers 4 with driven hydraulic cylinders 5 are welded to the flanges 3. Hydraulic cylinders 5 pump the vapor under test through capillary 1 by simultaneously compressing one chamber 4 and expanding another .

A capillary detector registers a differential pressure gauge with a sensing element 7. Heaters 8 prevent steam from condensing on the walls of the working cavity of the device. The destruction of the capillary and its heater, as well as the leakage into the working cavity, is eliminated by the protective chamber 9 filled with neutral gas. Nozzles 10 and // serve for pumping.

A device for measuring the viscosity of steam works as follows.

Pump out the working cavity and protective chamber and make the latter neutral.

gas, such as argon, to a pressure close to the operating vapor pressure. With the help of heaters 8, the temperature of the walls of the working CAVITY becomes higher than the bath temperature by 50 ° C. Then the heater is turned on.

baths and its temperature is displayed at a predetermined level. After that, heater 2 raises the temperature of the capillary to 2000– 2500 ° C, therefore, above the threshold of surface ionization FOR the vapor of any alkali metal, provided that the work function of the metal from which the capillary is made exceeds the ionization potential of the vapor. In hydraulic cylinders 5, which occupy an extreme and correspondingly the same position, P is given a hydraulic mixture, the volumetric flow rate of which determines the volumetric flow rate of steam through the capillary. The pressure drop across the capillary, recorded by a differential pressure gauge with sensor element 7, makes it possible to determine the coefficient of viscosity of the surface-ionized bore.

If the smallest internal size of the capillary channel, which can be both slit-like and circular, is less than the free path of charged particles relative to recombination, then the ionized vapor in the capillary channel is uniform in composition and, therefore, in the degree of ionization.

Subject invention

An apparatus for measuring the viscosity of an alkali metal vapor containing, its capillary, a differential pressure gauge, a thermostatic bath with a liquid alkali metal, heaters and actuating hydraulic cylinders, characterized in that, in order to measure the viscosity of a surface-ionized vapor of uniform composition, there is a capillary made of metal with a work function higher than the ionization potential of vapor, and the smallest but transverse size of the internal channel of the capillary is less than the mean free path of charged particles relative to recombination.

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