CS266759B1 - Device for simultaneous thermochemical and potentiometric quantitative analysis - Google Patents

Abstract

Equipment for the current thermochemical and quantitative quantitative analysis It consists of a duplicator container stored in thermal insulation material. Flaštěm dupllkátorové the liquid flows from the container thermostat and in the duplicator vessel Insulation mass placed at least reaction vials and storage vials, which They are placed in it and touching the cover plate. They are Teflon on the underside of the cover plate reaction vessel covers in which Temperature sensors are mounted, calibrated. resistance bodies, sample dispensers and agitators. Quantitative thermochemical equipment analysis can be used in all chemical fields, pharmacy, biochemistry, clinical analysis, metallurgy and technology building materials.

Description

The invention relates to a device for simultaneous thermochemical and potentlometric quantitative analysis, which consists of reaction vessels with lids, in which temperature sensors, stirrers and calibration resistors are placed, and the reaction vessels are placed in a thermostatic bath.

Known devices for thermochemical quantitative analysis consist of one or two reaction vessels which are stored in a thermally insulating container (Dewar vessel) which is placed in a bath with a thermostated bath. Reaction vessels They are equipped with a lid in which temperature sensors, stirrers and calibration resistors are placed. The disadvantage of these devices is usually single-purpose, allowing you to work with either the calorimetric technique or the titration technique. In addition, for single vessel devices, it is necessary to ensure that the reaction solution and the feed reagent have the same temperature, which is very difficult. It is necessary to ensure accurate measurement of the temperature of both reaction solutions and to make corrections. Corrections should also be introduced to the heat supplied to the reaction solution by stirring and heating the temperature sensor itself. exothermic and endothermic and correction for the increase in heat capacity of the system. By using your own thermostated bath, the whole device becomes considerably more expensive, as maintaining a constant ambient temperature must be perfect. All known devices then do not allow simultaneous potendometric monitoring of ongoing reactions. Significant problems are present in duplicate devices, where known solutions use one motor to mix both vessels, which does not allow to adjust the speed of the stirrers in both vessels to influence the pre-reaction process of the calorimeter.

These disadvantages are substantially reduced by the device for simultaneous thermochemical and potentiometric quantitative analysis formed by reaction vessels which are stored in a thermostatic bath, according to the invention. Its essence lies in the fact that the thermostatic bath consists of a duplicator vessel, which is placed in the thermal insulation material, while in the duplicator vessel the insulating material is placed at least up to the height of the reaction vessels and storage vessels which are placed in it and touches the cover plate. on the underside of which are Teflon covers for reaction vessels in which temperature sensors, calibration resistors, sample dispensers and stirrers are mounted. Thermal insulation material It consists of expanded polystyrene or foamed phenol-formaldehyde resin. Calibration resistor It is a glass combined electrode for monitoring acldobasic reactions or a pair of electrodes for monitoring redox reactions. Agitators They are connected to separate motors with the possibility of regulating their speed. Each reaction vessel is equipped with its own sample dispenser with a piston mechanism.

The advantage of the device according to the invention is that by using a double arrangement of the calorimeter it is possible to achieve more accurate results of analyzes by compensating a number of non-chemical processes 1 without the use of computer technology. By using commercial laboratory thermostats, which are available in every laboratory, to temper the calorimeter, production costs are significantly reduced. The double arrangement does not place such demands on the same temperature of the reaction solutions and reagents, which speeds up the measurement. The possibility of simultaneous thermometric and potentiometric monitoring of reactions brings a number of advantages: These are two completely independent methods that we can monitor during a single experiment. The heat of reaction is linearly dependent on the concentration of the reactants, while the dependence of the electrode potential on the concentration of the reactants is logarithmic.

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An example of a possible arrangement of the device according to the invention is shown in the accompanying drawings, in which Fig. 1 shows the device in an overall view, Fig. 2 a cross-section of the device in side view and Fig. 3 a device with the lid raised.

As can be seen from Figs. 1, 2 and 3, the device for simultaneous thermochemical and potentlometric quantitative analysis consists of a metal vessel X and a lid 2, which are provided with a thermally insulating material 3. The duplicator vessel £ is placed in a thermally insulating material 3 and is filled Insulating material 5 up to the height of the reaction vessels 6 and the storage vessels 7 which are stored therein. The insulating material 5 contacts the cover plate 8, on the underside of which there are Teflon covers 9 of the reaction vessels 6, in which the stirrers 11 and the sample dispensers 10 are mounted. The agitators 11 are connected to the motorbikes 12. The sample dispensers 10 are provided with a piston mechanism 13. On the lid 2. The busbars 14 of the cables and the passages 15 are located.

An exemplary embodiment is a device for simultaneous thermochemical and potentiometric quantitative analysis, consisting of a metal container 6 with dimensions of 46x35x29 cm and a lid 2 with a height of 11 cm. The metal container 6 and the lid 2 are provided with a thermally insulating material X made of expanded polystyrene or made of foamed phenol-formaldehyde resin. Duplicator vessel 4 It consists of a metal vessel measuring 28x19.5x21 cm, through the jacket of which water flows from a laboratory external thermostat. The duplicator vessel 4 is 7 cm higher than the height of the thermal insulation material 5 and thus a constant temperature of the air space above the reaction vessels 6 is perfectly ensured.

In the cover 2 with thermal insulation material 3, the passage of cables from temperature sensors, motors 12, stirrers 11 of resistance calibration bodies and combined electrodes and bus 14 of cables is ensured. This ensures that the ambient temperature of the device according to the invention is kept constant.

On the lid 2 there are two passages 15 for the connection of aeration motors for the injection of immersion pipettes in the method of direct injection enthalmetry. When using the device according to the invention for simultaneous thermometric and potentlometric titrations, the tubes for dosing the reagent into the reaction vessels e from the automatic burette are passed through these passages. A suitable combined pH electrode or platinum indicator electrode with a calomel reference electrode for monitoring redox reactions is placed in the reaction vessels, which allows to monitor 1 potentiometric curve simultaneously with the thermometric titration curve.

Both motors 12 for driving the stirrers 11 have separate speed control, which can be influenced by setting the optimal course of the pre-reaction period. Using the technique of a double device, where the temperature of the sensors in the reaction vessels 6 are connected to a derivative odor bridge, a number of non-chemical effects / mixing, self-heating of thermistors, evaporation of solvent, mixing of solutions, unequal temperature of reaction solutions and reagents , the unequal heat exchange between the reaction vessels 6 and the surroundings being compensated either by regulating the speed of the stirrers in the reaction vessels 6 or by slightly heating or cooling the reaction solution in the reaction vessel 6.

Syringes were used as 10 sample dispensers, which are emptied together by a piston mechanism. When replacing temperature sensors, resistors, electrodes or sample dispensers 10, the cover plate 8 can be folded down, as indicated in Fig. 2.

The device according to the invention can be used for simultaneous thermochemical and potentlometric quantitative analysis in all chemical fields, in pharmacy, biochemistry, metallurgy and building materials technology.

- 2 266759 The device for simultaneous thermoonemlical and potentiometric quantitative analysis works as follows. The solvent with the test substance is placed in one of the reaction vessels 6 and the solvent is metered into the other reaction vessel 6. The contents of both reaction vessels (i) are tempered in a laboratory external thermostat. A suitable positive coupling component is used as the test substance, and a simultaneous recording of the thermochemical and potentiometric curves can be registered on the connected recording device after the reagent has been introduced.

Claims (6)

PREDICTION OF THE INVENTION 1. Apparatus for simultaneous thermochemical quantitative analysis. which is placed in the thermal insulation material / 3 /, while in the duplicator vessel / 4 / the insulation material / 5 / is placed at least up to the height of the reaction vessels / 6 / and storage vessels / 7 /, which are placed in it and touch the cover plate. / 0 /, on the underside of which there are Teflon covers / 9 / of reaction vessels / 6 /, in which temperature sensors, calibration resistance bodies, sample dispensers / 10 / and stirrers / 11 / are mounted. 2. Device according to claim 1, characterized in that the thermal insulation material (3, 5) consists of expanded polystyrene or foamed phenol-formaldehyde resin. 3. The device according to item 1, characterized in that the calibration resistance body is a glass combined electrode or a pair of electrodes. 4. The device according to item 1, characterized in that the stirrers (11) are connected to separate motors. 5. The apparatus of claim 1, wherein each reaction vessel / 6 / It is equipped with its own sample dispenser / 10 / with a piston mechanism / 13 /.