CS233223B1 - Equipment for galvanic cells electromotive force measuring - Google Patents

Abstract

The invention belongs to the physico-chemical department measurement and solves the measurement equipment electromotive galvanic voltage articles. The essence of the device is that in ferromagnetic shielding is located vessel, while in ferromagnetic age the ferromagnetic shielding cover is stored reference electrode and electrode so that their delicate ends are found in the container and passes through the ferromagnetic lid shafts' mechanical stirrer that extends into the container, leaving the outer the surface of the ferromagnetic shield a tempering jacket is placed.

Description

Author of the invention

POLAKOVIC JOZEF ing. CSo., POLAKOVICOVA JOZEFINA ing. CSe., BRATISLAVA (54) Equipment for measurement of electromotive voltage of galvanic cells

The invention belongs to the field of physico-chemical measurement and solves the device for measurement of electromotive force of galvanic cells.

The principle of the device is that a container is disposed in the ferromagnetic shielding cover, wherein a reference electrode and a measuring electrode are disposed in the ferromagnetic lid of the ferromagnetic shielding cover so that their sensitive ends pass in the container and pass through the ferromagnetic cover. extends into the vessel, wherein a tempering jacket is disposed on the outer surface of the ferromagnetic shielding cover.

Fig. No.2

The invention relates to a device for measuring the electromotive voltage of galvanic cells.

The currently used methods for measuring the electromotive voltage of galvanic cells do not limit the influence of external electric and magnetic fields on the measured system. Given that these fields are dependent on factors, while many of them are inextricably characterized, both the measurement results are influenced by variable and indeterminate factors. Thus, the measurement results are overwhelmed by influences for which the usual measurement method does not provide us with information.

The above drawbacks are overcome by the electromotive voltage measuring device of the galvanic cells of the invention, in which a container is placed in the ferromagnetic shielding cover, wherein the reference electrode and the measuring electrode are located in the ferromagnetic lid of the ferromagnetic shielding so that their sensitive ends are A mechanical stirrer shaft extends through the ferromagnetic lid and extends into the vessel, with a tempering jacket placed on the surface of the ferromagnetic shielding cover.

The advantages of this device for measuring the electromotive voltage of galvanic cells are that it eliminates the influence of external electric and magnetic fields and thus allows to obtain results that are not accidentally influenced, thus creating good prerequisites for the correct interpretation of the measured values. With the present invention it has been found that external electric and magnetic fields affect:

1. the electromotive voltage of the galvanic salt

2. the dependence of the electromotive force of the galvanic cell on the activity of the respective ions in the examined solution.

and

Ka fig. 1 shows the dependence of the electromotive voltage of the galvanic cell on the activity of the respective ion in the solution under investigation; FIG. 2 is a diagram of a device according to the invention.

In FIG. 1 shows the dependence of the electromotive voltage EMN of a galvanic cell on the negative decadic logarithm of iodide ion activity in a pi solution for a galvanic cell composed of an iodide ion selective electrode and a saturated calomel electrode.

In FIG. 1 shows the results for two measurement methods:

(a) normal without suppression of external fields

b) on the device of the invention.

In FIG. 1, the linear dependencies of EMN = E (1P) are indicated as k & - for measurements according to method a) and k - for measurements according to method b). The Directive is a theoretical value calculated from:

R.T.

F where

R - is an inverse gas constant,

F Paraday constant a T = 297.15

K is the system temperature.

In FIG. 2 is a diagram of a device according to the invention. The measuring electrode X and the reference electrode 1 are mounted in a base 2 by means of which the electric motor is mounted on the ferromagnetic lid 4 of the ferromagnetic shielding cover 2. The glass stirrer 2 is connected to the electric motor fi of the stirrer. Fig. 2, it will be appreciated that the measuring electrode X and the reference electrode fi are immersed, with their sensitive ends, in a solution 12 which is in the vessel JLLs located in the space in which the effects of external electric and magnetic fields are eliminated.

This effect is achieved when the ferromagnetic lid 2 and the ferromagnetic shielding cover 2 are made of a material with a minimum thickness of 0.01 m. The speed of rotation of the stirrer 6 is controlled by a transistor speed regulator g. The measuring electrode 2 and the reference electrode 2 are connected to the grounded measuring device 10 by means of shielded and grounded conductors 14 and 15.

The electromotive voltage of the galvanic cell consisting of the measuring electrode 1 and the reference electrode 2 and of the solution 12 is measured by a grounded measuring instrument 10 which is connected to the electrodes 1 and 2 by shielded and grounded conductors J2 ^and 15. which is controlled by a transistor controller g. The temperature of the system is kept constant by the tempering jacket 2.

Example

As an example of the influence of external electric and magnetic fields on the electromotive force of a galvanic cell, the results shown in FIG. 1 for a system in which the specific electrode 1 is an iodine ion selective electrode and the reference electrode 2 is a saturated calomel electrode. As from the results shown in FIG. 1 results from measurements in a conventional manner (a)) and from measurements in the apparatus of the present invention (b), results varying both in the electromotive voltage and in the guideline dependence of the electromotive voltage EMN from the negative decadic logarithm of iodide activity. ions pi.

This difference in measurements does not solve the question of which measurement is correct. This question m8že give answer value depending directive EMN = f (PI) for which the theoretical size thereof to _t = 58.4 mV. If this value compared to the values obtained experimentally for _a = 53.9 mV and 58.4 mV = KFC we see that the value obtained for the device that is the object of the invention is close to the theoretical value, which we express justifies the assertion that the active device eliminates the effects of external electric and magnetic fields.

Claims (2)

OBJECT OF THE INVENTION Apparatus for measuring the electromotive voltage of galvanic cells comprising a container in which a measuring and reference electrode and a stirrer are located, characterized in that a container (11) is disposed in the ferromagnetic shield (5), and in the ferromagnetic lid (4) of the ferromagnetic shield (5). ) the reference electrode (2) and the measuring electrode (1) are positioned such that their sensitive ends are located in the vessel (11) and pass through the ferromagnetic lid (4) through a mechanical stirrer shaft (6) which extends into the vessel (11), wherein a tempering sheath (7) is disposed on the surface of the ferromagnetic shielding cover (5). 2 drawings