SU439745A1 - Device for measuring the temperature coefficient of conductivity of solutions - Google Patents

Description

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The invention relates to devices that measure the physical properties of solutions, varying with composition and temperature, and can be widely used in solution analyzers.

The known devices for measuring and analyzing solutions according to their electrical conductivity consist of a primary transducer of an electrolytic cell included in a measuring bridge of a reading device.

The output signal of such devices is proportional to the conductivity of the measured medium; therefore, the measurement of the temperature coefficient of conductivity requires an additional measurement of temperature.

In order to automate measurements, a second cell with local heating is included in the adjacent shoulder of the measuring bridge, and the measuring bridge itself is switched off into the measuring diagonal of the second bridge containing thermal sensors located in the adjacent arms of the second bridge in the electrolytic cell area.

The proposed device allows direct measurement of the temperature coefficient of electrical conductivity.

The drawing shows a diagram of the device.

It consists of a measuring bridge 1 with electrolytic cells 2 and 3 immersed in the measured medium; heat sensitive bridge 4 with temperature sensors 5

and 6, located in the area of the cells, and the heater solution 7 in the area of cell 2.

The preheater serves to create a solution temperature difference in the measuring cells. The measuring bridge 1 at the same temperature of the solution in the cells is balanced with the help of resistance 8. The thermosensitive bridge 4 with the help of resistance 9 is set in such a way that when the heater 7 is turned on, the unbalance of the bridge decreases by increasing the temperature of temperature sensor 5. Thermal sensor 4 and measuring bridge 1 included in such a way that the current

unbalance of bridge 4 is the supply current of bridge 1.

When the preheater 7 is turned on, the temperature of the medium in cell 2 will increase compared with the temperature of the medium in cell 3.

This temperature increment will cause a change in the conductivity of the medium in cell 2 compared to cell 3, the value of which will be proportional to the coefficient of electrical conductivity of the medium.

The magnitude of the unbalance signal of bridge 1 is proportional to the relative increment of the electrical conductivity of the measured medium and the magnitude of the supply current.

The magnitude of the current supplying the bridge is 1, which

is the unbalance current of bridge 4, inversely proportional to the temperature increment between the cells. For DoDeityelbyb, the magnitude of current of this bridge is inversely proportional to the temperature increment. Therefore, the TOK of the unbalance of the bridge 1 is proportional to the temperature coefficient of conductivity of the measured medium. The subject of the invention is a device for measuring the temperature coefficient of electrical conductivity of solutions containing a measuring MOcf d cell at the junction cell included in its arm, characterized in that, in order to automate measurements, a second cell with a heater is included in the adjacent arm of the measuring bridge, and the measuring bridge itself It is included in the measuring diagonal of the second bridge, which contains thermal sensors located in the adjacent Shoulders of the second bridge in the zone of electrolytic cells.