SU562757A1 - Apparatus for producing non-element gas adsorption isotherms - Google Patents

Description

(54) DEVICE FOR PREPARING ISOTRA D FOR ADSORPTION OF NEODIOELEMR-NTNS) GO G. DZA

The device contains a working cuvette 1, a cartridge with an adsorbent 2, a comparative cuvette 3, a gas evacuation and supply line 4, a modulator with a mirrored blade 5, a differential optical-acoustic receiver 6 with a receiver-type cameras 7, an indicator 8.

The device becomes operable if the cuvette unit 1-3 and the opto-acoustic receiver 6 are thermostatically controlled at various temperatures, respectively T and T. When performing adsorption measurements, only the T x T inequality makes practical sense, since the magnitude of adsorption a and the sensitivity of its determination oLcL / cCc increases sharply with decreasing T.

If there is an adsorbate in the cell, consisting of components A, B, C, and in a receiving cell, for example, component A, then a selective heat exchange will take place between the contents of the cuvette and the corresponding receiving cell A, and the integral heat flux F per unit of radiating surface, in the ideal case in which the radiation emanating from the cell falls entirely into the receiving chamber on the common axis, is a monotonically increasing function of the concentration It does not depend on the presence in the mixture sorbiruyuschihs other components, provided that the latter do not have to measured emym component overlapping bands pogls Exalt lying near the law determined by the wavelength of the wines. Otherwise, in order to exclude their effect on the integral flux Φ, between the cell and the radiation-receiving chamber, on the same axis with them, the same over the filter section, containing those of the components that have overlapping

absorption bands. At appropriate partial pressures of the components and the length of the filter chamber, it is possible to guarantee almost complete absorption of radiation in those parts of the spectrum that are in the region of overlapping absorption bands, and, thus, reduce the effect of the non-measurable components to F.

The described device works as follows

The adsorbate on supply line 4 enters the previously pumped cuvettes 1 and 3 at a constant, fairly low speed, so that adsorption equilibrium takes place in the working cell 1, and in the comparative cuvette 3 the concentration of the measured component c increases according to a linear law, i.e. concentration difference c - c is proportional to the magnitude of adsorption

a.T1ri execution of the device according to the non-compensated measuring circuit signal And given by the optical-acoustic receiver

b, is proportional to the difference of the integral fluxes Ф - Ф, lost by the receiver channels of the comparative and working channels.

Claims (1)

Invention Formula A device for the production of adsorption isotherms of a non-elementary gas containing geometrically identical comparative and working cuvettes, an adsorbate inlet system in cuvettes, indicators, characterized in that, in order to measure in the presence of other sorbing components, each cuvette is made as a mirror inside the cylinder with a face transparent in the infrared region of the spectrum, the window opposite to which is installed filled with the measured gas is the receiving chamber of the differential optical-acoustic receiver. eight