SU463040A1 - Automatic analyzer of concentration of substances - Google Patents

Description

one

The invention relates to automatic analyzers of the concentration of substances and is intended for automation systems for technological processes in the chemical industry, in particular in the production of soda from nepheline feedstock.

The known automatic analyzer of concentration of substances containing a diluent dispenser, a dispenser-mixer connected to a sensor with a gas separator, a command device and valves.

However, it is noted that the analyzer does not work reliably when analyzing concentrated liquids, which easily crystallize, as the released crystals clog the connecting lines of the device, disrupting its operation.

The purpose of the invention is to increase the reliability of the device when analyzing concentrated, easily crystallizing liquids. This is achieved by the fact that the dispenser-mixer is connected to the sensor in its lower part via two series-connected valves, between which the source of the analyzed liquid is connected via a third valve.

FIG. 1 is a schematic diagram of an automatic analyzer; in fig. 2 - the cyclogram of his work.

Automatic analyzer contains diluent dispenser 1, dispenser-mixer 2,

connected to the sensor 3 in its lower part via two series-connected valves 4 and 5. In the upper part of the sensor 3, a gas separator 6 is installed. A source 9 of the analyzed fluid is connected to section 7 of the connecting line between valves 4 and 5. Overflow pipes 10 and 11 of the dispenser-mixer 2 through the valves 12 and 13 are connected to a drain 14, to which also

connected via valve 15 overflow tube

16 diluent dispenser 1 and through valve

17 - overflow tube 18 dat1p; a 3. The diluent dispenser 1 is connected to the diluent source 20 via valve 19 and

21 with the lower part of the dispenser-mixer 2. The upper parts of the dispenser-mixer 2, the diluent dispenser 1 and the gas separator 6 through the throttles 22, 23 and 24 are connected to the source 25 of compressed air. If necessary, selection

An additional valve 26 is installed from the mixer 2 batcher of a diluted liquid, for example, to determine the total alkalinity concentration in it by potentiometric titration.

I cycle of the first cycle. Valves 8, 4, 12, 15, 17, 19 and 13 are open, and valves 5 and 21 are closed during time i. The analyzed fluid from the source 9 (see Fig. 1) through the valves 8 and 4 fills the volume of the dispenser-mixer 2, reaches its overflow tube 10 and through it the clanan 12 is removed to the drain 14. At the same time, the diluent from the source 20 through the valve 19 fills the volume of the diluent dispenser 1, reaches its overflow tube 16 and through it and the valve 15 is removed to the drain 14. Second cycle of the first cycle. Valves 8, 5, 21 and 13 are open, and valves 4, 12, 15, 17 and 19 are closed during time t. Under the action of compressed gas from the source 25, through the choke 23 into the diluent dispenser 1, the diluent from the latter enters the dispenser-mixer 2 through the valve 21, where the dose of the analyzed diluent is diluted. Further, through the throttle 23 and the valve 21, the compressed gas goes to the dosing mixer 2 and, bubbling in it, mixes the liquid and the diluent. The excess compressed gas is removed through tube 11 and claian 13 to the atmosphere. P1 cycle of the first cycle. Valves 4, 5, 17 and 21 are open, and valves 8, 12, 15, 19 and 13 are closed for a time / s. Under the action of compressed gas from the source 25 (see Fig. 1), which is flowing through the throttle 22 into the dosing mixer 2, from the latter the diluted liquid flows through the valves 4 and 5 into the sensor 3. Further, also through the throttle 22 and claianas 4 and 5 , the compressed gas enters the sensor 3, sparks into it, and the excess gas through the gas separator 6, the tube 18 and the valve 17 is removed to the atmosphere. Sensor 3 is filled with diluted fluid. In the first cycle of the subsequent cycles, the dosing-mixer 2 and the diluent 1 dosing device are filled with the analyzed liquid and condensate, respectively, as described in the first cycle of the first cycle, and, in addition, the concentration, for example, of potassium, by its natural radioactivity in the diluted liquid, is measured sensor 3. In the second cycle of the subsequent cycles, the diluent mixes with the liquid analyzed) 1) in the same way as in the P cycle of the first cycle. At the same time, the iodine, by the action of compressed air coming from source 25 through throttle 24 to sensor 3, is displaced from and subsequently diluted 1a analyzed liquid through claian 5 and 8 to source 9, which then also passes compressed gas through valves 5 and 8. In cycle III and the subsequent ix cycles, sensor 3 is filled with a diluted and analyzed liquid. Concentrated, easy to crystallize with the analyzed fluid in the cycle cycle forms a line connecting the source 9 with the dosing-mixer 2. Diluting the liquid in the dosing-mixer 2 in the second cycle of the cycles eliminates crystallization; it is fluid. The transfer of the diluted liquid in the third cycle of cycles through the dosing-mixer 2 - sensor 3 and its subsequent purging with compressed gas eliminates the crystallization of the liquid in the section of the dosing mixer 2 - the section of the connecting line 7 by flushing the specified section with diluted liquid and removing it with compressed gas. Transportation of the diluted analyzed fluid from sensor 3 to source 9 via clauses 5 and 8 in step II of subsequent cycles eliminates crystallization of section 7 of source 7 - source 9 by washing the specified portion of the line with diluted analyzed liquid and blowing it out with compressed gas. This increases the reliability of the device and the analysis of concentrated, easily crystallizing liquids. An invented and automated substance concentration analyzer containing a diluent dispenser, a dispenser-mixer connected to a gas separator sensor, a control device and valves, characterized in that, in order to improve the reliability of the analysis of concentrated, easily crystallizing liquids The metering mixer is connected to the sensor in its lower part via two series-connected valves, between which a source of the analyzed liquid is connected via a third claian.

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