SU725003A1 - Method and device for determining the concentration of substance in a solution - Google Patents

Description

Heating the analyte under pressure creates conditions; at which it does not evaporate, but only heats up to a certain temperature and a unit mass of the solution is given a certain amount of heat (internal energy), the value of which is determined by the heating temperature that is controlled and the specific heat capacity of the solution, which is constant for each case, the concentration of the substance in the solution. When the pressure of the solution decreases to atmospheric, the solution becomes superheated and boils weakly without an external source due to the internal energy given to it during heating under overpressure, and its temperature decreases to the boiling point at atmospheric pressure. From the solution, a slight evaporation of the solvent occurs, but the evaporation of the solvent per unit mass of the solution consumes a firmly established amount of heat (equal to the product of the temperature difference of the solution, located below

pressure, and the boiling point of the solution at atmospheric pressure on the specific heat capacity of the solution), which is taken into account when measuring the boiling point of the solution at atmospheric pressure.

Such a sequence of operations, namely, heating the solution under excessive pressure to a certain temperature, then lowering it to atmospheric pressure, allows to obtain a solution temperature (boiling point), the value of which depends only on the concentration of the solution entering the analysis and does not depend on it. parameters (flow rate and temperature), which will provide the possibility of 40 determining the concentration of a substance in a solution with high accuracy. . Heating the solution under pressure to a temperature of 0.5-5 ° C above the maximum expected boiling point 45 of this solution at atmospheric pressure creates the conditions for the normal determination of the concentration of a substance in a solution over the entire measured range. The lower limit of 0.5 ° С ensures that the solution boils at atmospheric pressure with a concentration close to the maximum expected value. Heating above the upper limit of 5 ° C is undesirable, since when the minimum expected concentration is measured, solution overheating increases, which reduces the range of the measured temperature in the concentration range resulting from an increase in evaporation of part of the solvent, with an increase in this limit. The drawing shows schematically a device for carrying out the proposed method .. The analyzed solution from the source.

maintained by a constant pressure regulator 8.

Steam enters the heater through an adjustable valve 9.,

Claims (2)

Using the proposed method for determining the concentration of a substance in a solution provides, as compared with known methods, an increase in the accuracy of determining the concentration of a substance in a solution 60. The overpressure of Line 2 continuously enters the coil of heater 1, flows through the throttle element 3, enters the boiling vessel 4 and, through the upper edge of the choke, is discharged to the casing 5. is heated under pressure to a predetermined temperature, the specific value of which is chosen in the range of 0.5–5 ° C above the boiling point at the atmspheric pressure of the solution, its highest concentration equal to entratsii E tmaksimalnoy point of the scale. In addition, with the atmosphere of the boiling vessel 4, the pressure of the solution decreases to atmospheric pressure and the solution boils. The temperature sensor 6, washed with the solution, measures this temperature, and the secondary device 7 registers and indicates on a scale the value of the concentration of the solute. The test solution in the coil is heated with saturated steam, the pressure (and therefore the temperature) of which is automatically analyzed by the solutions. Claim 1. The method for determining the concentration of a substance in a solution, including measuring the boiling point of a solution, characterized in under pressure to a temperature of 0.5-5 ° C above the maximum expected boiling point of this solution at atmospheric pressure, reduce the pressure of the thief to atmospheric and measure the boiling point of the solution, which determines the desired value ..., 2. The device for carrying out the method of claim 1, comprising a boiling vessel placed in an enclosure connected to the atmosphere, a heater, a pressure regulator and sensors temperatures are different from the fact that the device is equipped with a choke installed between the heater and the boiling vessel. Sources of information taken into account in the examination 1. Semishin V., I. Practicum in general chemistry M.-L., “Chemistry, 1964, p. 57, 113. 2. USSR author's certificate number 257849, cl. G OSH 25/08, 1967 (prototype).