SU107639A1 - Method and device for measuring sorption conductivity of powdered substances - Google Patents

Description

The described method has the peculiarity that, with an increase in the accuracy of the measurements, the electrical conductivity of the sorbent is measured in the process of absorbing water vapor or some suitable gas.

A feature of the device for carrying out this method is that, in order to enable comparative studies of various sorbents under the same conditions (under vacuum, atmospheric and elevated pressures, different temperatures, etc.), it has inside the vessel for the sorbent is located glass boat, designed to fill the test substance, provided with contacts for inclusion in the circuit of the indicator.

FIG. 1 shows the general scheme of the device; in fig. 2 - sorption tube; in fig. 3 - glass on the boat; in fig. 4 is a diagram of an equilibrium bridge.

The described method is based on measuring sorbtsponnoy electrical conductivity in quantitative dependence on the sorbtiv absorbed by the powder sorbent. As is known, powdered sorbents have a significant surface, capable of absorbing significant amounts of sorbtiv.

To improve the accuracy of measurements, the electrical conductivity of the sorbent is measured in the process of absorbing water vapor or some suitable gas, which play the role of active sorbents.

The electrical conductivity, according to the described method, is measured as follows.

First, the weight of the powder under test is weighed on a technical scale, then it is changed, put into the zone of action of a sorbite, such as water vapor, and then, at steady-state sorption equilibrium, the electrical conductivity of the substance is measured, for example, by an equilibrium electric bridge circuit.

A device for measuring sorption conductivity consists of a vessel / for sorption and a sorption tube 2. The vessel / has a valve 3 in the lower part for changing the sorbtiva weights, and in the upper part a vessel / has two neck with thin sections. One of the following n. 4 is connected to the mercury manometer 5, and the second is equipped with a cork valve 6. With this valve, you can disconnect the vessel / from the rest of the device, and also load the vessel with a new portion of the sorbtiv. The sorption tube 2 consists of a glass tube 7 with a closed end and a coupler with a tap 8. In the wall of the sorption tube, platinum contacts 9 are hollowed to turn on and off the contacts of the electrical network. In the front part of the tube 2 there is a thin section 10, into which a coupling sleeve connected by means of a second thin section // with a branch pipe connected to the sorption section is inserted, respectively, with its thin section. The device is diverted to a vacuum pump equipped with a tap 12. Between the vacuum pump and the sorption apparatus, there is a column for the water-falling of water vapor (not shown in the drawing). A glass boat made of a glass tube is inserted into the sorption tube. The boat has platinum electrodes 13 with contact shanks 14. The use of this boat in the described device provides uniform access of vapors to the vested matter.

To maintain a constant temperature of the sorbent, wear a thermostat jacket 15 on the sorbent tube. Thermostat 15 is fixed in the instrument stand with the help of the bracket 16.

On the opposite side of the tripod of the device, two resistances 17 and an electrolytic rheostat 18 are strengthened.

The electrolytic resistor, with the aid of which the sorption conductivity is measured, is in the form of a glass tube, at the end of which is a platinum electrode connected to terminal 19, worn on the end of the tube, the other electrode 20 is pressed into the thick-walled capillary and is in a suspended state with the help of two lived from a flexible telephone cord. One end of this conductor (conductor) is sealed to the electrode 20, and the other is attached to the shknva, worn on the axis of the limb with u 21 aloi 21 and connected to the electrical circuit. The electrolytic rheostat is filled with an aqueous solution of calcium chloride, and to maintain its constant temperature, it is equipped with a jacket-thermostat 22. The device has a tripod stand with an I-23 with a clamp to connect it to an audio frequency generator and amplifier. An equilibrium bridge circuit is used for measuring sorption conductivity, on one side of which resistors 17 are located, and on the other side there is a measured resistance 24 (a test substance), i.e. a sorption boat with a sorbent and an electrolytic resistor 18. sound frequency generator.

Subject invention

Claims (2)

1. A method for measuring the sorption conductivity of powdered substances, distinguished by the fact that, in order to increase the accuracy of measurements, the conductivity of the sorbent is measured in the process of absorbing water vapor or some suitable gas. 2. A device for carrying out the method according to claim 1 using glass containers for sorbtiv and sorbent, an indicator - measuring bridge, a vacuum pump and thermostat jackets, characterized in that, in order to enable a comparative study of different sorbents under the same conditions ( under vacuum, atmospheric and elevated pressures, different temperatures, etc.).