SU1203427A1 - Oxygen solion - Google Patents

Description

The invention relates to the field aiia. iii-tic at () Ostroi and can be used for continuous measurement of the oxygen content of gaseous media.

The purpose of the invention is its accuracy of measurement.

The drawing shows a sensor for determining the content of oxygen, and in gas x, a section.

The sensor contains a tubing 1 of tierdskoe oxide electrolyte, nar. electrode 2, internal electrode 3, external current: capacitor 4, internal current through the conductor 5, guide tube 6, sensor head 7, reference gas supply pipe 8, TiiyoKv 9 reference gas discharge, equipped with reference gas circulating exciter 10 an exchange gas chamber 11 with a reference gas, the tube 8 supplying the reference gas is not too far from the vertical axis of the sensor, and the discharge tube 9 of the standard gas is between the sensor axis and the wall of the tube 1. A heating gas can serve siiral. It is necessary to provide continuous local heating of the discharge tube. at a temperature of 50–100 ° C under the environment.

The sensor works in the following way.

Test tube 1 of solid oxide electrolyte nr01 is heated to a predetermined temperature by a heating element or washing its outer surface (concrete 1) with the analyzed gas. At the expense of times

0

five

Post the partial pressure of oxygen on the reference. Electrode 3 and in the analyzed m. It has a temperature that is unambiguously characterized at a temperature of 3 V of a l and a c d or a r d a n i s a n a and a and c and ru. Anal gas kzipuyemy wash. External e. Eltod 2. sensors. This e.ln; ng az tskrkulit) on a closed system: exchange chamber 1 1 - tube 8 nodachi reference aza - standard e; Electrode 3 --- tube 9 of discharge of reference gas --- exchange chamber 11, and. It has a constant narcotic value: 1 pressure; 1 dec of oxygen and provides a stable in time oxygen potential on the reference electro- e 3. Circulation of the reference gas in a closed system is due to the impact of the 10 \ d.rkrultion inducer (for example, thermal convection created by M (ni heating coil used as iO impeller)) and temperature gradient across the cross section of the tube 1 and the geometry of the location 8 and 9. The cutting Te.mpe |) Atur gas at the surface of tube 1 will be somewhat higher than the gas temperature in a.eptre tubes, whereby is created and doio.anitelny 1K) b turer gas exchange. In the absence of a thermometric gradient over the cross section of the nozzle 1, the gas volume will be carried out only by the circulation inducer 10. Hermeticity of the lock system: internal cavity of the sensor - exchangeable chamber 1 1, is provided by an elastic head 7 of the sensor.

Claims (1)

ELECTROCHEMICAL OXYGEN SENSOR containing test tube Of solid oxide electrolyte, closed with an elastic head, with the outer and inner surfaces of the tube placed, respectively, with measuring and reference electrodes with current collectors, as well as a guide tube located along the axis of the tube in its inner cavity. characterized in that. that, in order to increase the measurement accuracy, the sensor further comprises a chamber, which together with the supply and discharge pipes of the reference gas and the sensor cavity forms a closed system, and a reference gas circulation stimulator is installed on the sample gas discharge pipe. ί