SU779858A1 - Analyzer of oxygen dissolved in water - Google Patents

Description

(54) ANALYZER, DISSOLVED IN WATER The invention relates to a measurement technique and can be used in instruments for measuring the concentration of oxygen dissolved in water, primarily intended for use in thermal and nuclear power plants. The gas analyzer IKAR-68 is known, which contains a sampling pipeline for the sample being analyzed, which is connected to the stripper, and an electrochemical cell G1. The disadvantage of this gas analyzer is that the output current of the electrochemical cell depends not only on the oxygen concentration in the water being analyzed, but also on the rate of gas circulation through the electrochemical cell. The circulation rate can vary due to the dampening of the pump valves, changes in the force of the valve springs, etc. This leads to an increase in the error analysis. A known analyzer of oxygen dissolved in water, comprising a desorber, a 1 measuring cell with a buffer solution, connected with a gas outlet and a gas supply tube, on the last of which a pump 2 of the OXIDE is installed. The known analyzer also has a low accuracy of measurement for the same reasons as specified analog. The aim of the invention is to improve the accuracy of the angularization due to the constant rate of gas circulation through the measuring cell. The goal is achieved by the fact that the analyzer is equipped with an airlift tube connected to the upper part of the stripper using a gas outlet tube and a constant level vessel that communicates with the airlift tube and the lower part of the measuring cell. The drawing shows a simplified diagram of the proposed analyzer. The analyzer has a pipeline 1 for supplying the sample to be analyzed, connected to a desorber 2, with a trick pipe 3. The upper part of desorber 2 is connected to the inlet of an air-lift pipe 5 with a constant-level vessel 6 by means of a vapor pipe 4 connected to the measuring cell 7. The upper part of the vessel of constant level 6 and the gas inlet 8 of desorber 2 are connected by a gas supply tube 9 on which the pump 10 is placed.

The analyzer works as follows.

The analyzed water through pipeline 1 enters desorber 2. Water flows through small bubbles of pure hydrogen (not hydrogen generator), leaving the porous gas inlet nozzle 8 at the bottom of desorber 2. Owing to diffusion, oxygen dissolved in water passes into rising bubbles hydrogen. Hydrogen with desorbed oxygen enters the inlet of the airlift pipe 5 and captures the buffer solution, which continuously merges into the vessel of a constant level 6, enters the measuring cell 7. In the airlift 5, the gas mixture dissolves - in a buffer solution.

Under the action of the level difference h, a buffer solution circulates continuously through the measuring cell 7, and its circulation rate is always constant, since it depends only on the level difference and the hydrogen circulation is maintained by the gas pump 10.

Thus, the sensitivity of the measuring cell is independent of the variation in the gas pump performance, while the circulation rate of the buffer pump is

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the cell solution and electrodes do not depend on the gas circulation rate, which leads to an increase in the accuracy of the analysis.

Claims (2)

1.Libson S.I. Automatic feedwater and condensate oxygen meter. - Power system, № 3, 1971 2. The patent of England No. 858677, cl. 1 (1) c, 1961.