SU1265574A1 - Ion-selective differential transducer - Google Patents

Description

The invention relates to a measurement technique, is intended to measure the concentration of ions and can be applied in the chemical industry. The aim of the invention is to improve the accuracy of measuring the ion concentration of ions by reducing the error associated with the non-identical characteristics of the measuring electrodes. Figure 1 presents the scheme of the sensor; figure 2 - section aa in figure 1; in fig. 3 is a variant of the forked sensor circuit; FIG. 4 - section BB in FIG. 3. The ion selective differential sensor contains an ion selective electrode 1 with a membrane 2, a flow cell 3 with a first reference electrode 4, cell 5 for a reference solution with a second comparison electrode 6. The flow cell 3 has an inlet 7 and an outlet 8 for connecting the test solution. The non-conductive partition 9 divides the volume of the sensor into two equal pressure cells Kti, and also divides the surface of the ion-selective membrane into two equal parts. The corresponding parts of the membrane are in contact with. reference and test solutions mi. 74 Длтчик раСмггас, - .. h -...l.uyushr-m oGra o-. A reference solution containing a detectable ion with an exact concentration is poured into the non-current cell of sensor 5. The electrochemical bond is provided by the right side of the surface of the membrane 2 of the ion-selective electrode immersed in the reference solution and by the reference electrode 6 in the same solution. In the flow cell 3 serves the test solution. The electrochemical connection in this cell is provided by the left surface of the membrane 2 of the same ion-selective electrode 1 and the reference electrode 4. From the output of Q-8 to the amplifier-measuring unit receives a signal with information about the content of the substance in the test solution. Output Q-6 receives a signal with information about the content of the controlled substance in the reference solution. The amplitudes of the measured signals are proportional to the logarithm of the activity of the monitored ions in the solution. Using the proposed ion-selective sensor, the concentration of fluoride and silver ions is measured and a comparative analysis of the results obtained is performed with data determined using a known device. The results are shown in the table.

Claims (1)

An analysis of the data in the table shows that the use of one common measuring electrode for two electrochemical cells makes it possible to increase the measurement accuracy. Invention Formula An ion selective differential sensor containing a flow-through electrochemical cell with a test solution and a flow-free electrochemical cell with a reference solution, separated by a common partition and 55 provided with reference electrodes, characterized in that, in order to improve the accuracy of ion concentration measurement by reducing the error associated with nonidentity characteristics of the measuring electrodes, the sensor is equipped with one measuring electrode, the membrane of which is divided by a common partition into two equal Asti having contact with the test and reference solutions, wherein the dividing wall is made of a conductive material neelektroprovod.