SU1689836A1 - Method of appliance of constant electric field to electrolyte of operating part of the cell - Google Patents

Abstract

The invention relates to the field of electrokinetic or electrochemical analysis processes or the production of substances. The aim of the invention is to maintain a constant value and direction of the electric field without changing the basic properties of the electrolyte of the working part of the cell. The method consists in periodically switching the polarity of the voltage on the supply electrodes. At the same time, p electrodes from common N, where N 3, an N-2, isolate the working part of the cell from the electrolyte, change the polarity of the voltage applied to these electrodes, and change the area of their contact with the electrolyte to the opposite (for example, from cathode to anode). Then the contact of the indicated electrodes with the electrolyte is restored and the entire sequence of operations with the following p electrodes is repeated periodically. 1 il. (Ls

Description

The invention relates to the field of analysis or the production of materials using electrical or electrochemical means and can be used in the field of electrokinetic (e.g. electrophoresis) or electrochemical (e.g., analytical electrolysis at a controlled potential) analysis processes or the production of substances.

The aim of the invention is to maintain a constant value and direction of the electric field and preserve the basic properties of the electrolyte of the working part of the cell when conducting electrokinetic and electrochemical processes.

The drawing shows a schematic diagram of an apparatus for carrying out the method.

The device contains the working part 1 cells for electrochemical or electrokinetic processes, connecting tubes 2, near-electrode volumes 3-5, separated from the working electrolyte by ion-permeable partitions 6, supply electrodes 7-9, controlled valves 10-15, constant source 16 voltage, switch 17, which allows to periodically change the polarity of the voltage on the electrodes 7-9 and control the valves 10-15 in conjunction with the voltage switching, and the supply wires 18.

The method is carried out as follows.

The working part 1 of the cell and connecting tubes 2 are filled with a working electrolyte, then the tubes 2 are connected to the electrode volumes 3-5 so that

ABOUT

with about

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WITH

contact of the working electrolyte with ion-permeable walls 6 was ensured. Electrode volumes 3-5 are filled with an electrode electrolyte and the supply electrodes 7-9 are immersed in it. In the initial position, all controlled valves are closed, except for two, which ensure the contact of two opposite supply electrodes with opposite areas of the working part 1 of the cell. Next, voltage is applied from source 16 through switch 17c with the help of lead wires 18 to electrodes I-V, applying an electric field to the working electrolyte. Suppose that for definiteness, at the initial time, valves 10 and 15 are opened, then the supply electrode 7 serves as an anode, electrode 9 - as a cathode, and electrode 8 isolated from the working electrolyte. Next, open the valve 11, close the valve 10, isolate the electrode 7 from the working electrolyte, change the polarity of the voltage applied to the electrode 7, open the valve 13, close the valve 15, isolate the electrode 9 from the working electrolyte (now the electrode 7 serves as a cathode, and electrode 8 - anode), change the polarity of the voltage on the electrode 9, open the valve 12, close the valve 11, isolate the electrode 8, change the polarity of the voltage on the electrode 8, open the valve 14, close the valve 13 (again isolate the electrode 7 from the working electrolyte, now el electrode 8 serves as a cathode and electrode 9 as an anode), changes the polarity of the voltage on the electrode 7, opens the valve 10, closes the valve 12, changes the polarity of the voltage on the electrode 9, opens the valve 15, closes the valve 14, changes the polarity of the voltage on the electrode 8 and then repeat the entire specified sequence of operations periodically throughout the process. At the same time, the polarity of the voltage applied to the working part 1 of the cell, and hence the direction of the electric field in the working electrolyte, remains unchanged.

Thus, the method makes it possible to maintain a constant value and direction of the working field in the electrolyte of the working part of the cell without changing its basic properties.

Claims (1)

Claims The method of applying a constant electric field to the electrolyte of the working part of the cell, including periodically switching the polarity of the voltage on the supply electrodes, characterized in that, in order to maintain a constant value and direction of the electric field without changing the basic electrolyte properties of the working part of the cell, isolating p of the supply electrodes from the total number N, where N 3, p N - -2, from the electrolyte, change the polarity of the voltage applied to these n electrodes, change the area of their contact with the electrolyte of the working part of the cell on the opposite one, then the contact of the above mentioned p electrodes with the electrolyte is restored, after which the said operations are periodically repeated with the following n electrodes. / V / L iji1