PL150989B2 - System for measuring content of calcium compounds in solutions - Google Patents

Description

^THE REPUBLIC PATENT ^DESCRIPTION 150 989

POLAND OF THE PROVISIONAL PATENT

Provisional patent additional to patent no. Applied for: 88 04 20 (P. 271991)

Precedence —Int. Cl. ⁵ G01N 27/416

OFFICE

PATENT

RP

Application announced: 89 01 23

Patent description published: 1990 10 31

READING ROOM

Potential Office hlstiti tZWMMP- «I Lw» * i |

Creators of the invention: Marek Ludwicki, Stanisław Wawro, Jacek Wajs

Authorized by a temporary patent: Lodz University of Technology, Lodz

Enterprise of Design and Delivery of Complete Industrial Facilities "CHEMADEX", Warsaw (Poland)

System for measuring the content of calcium compounds in solutions

The subject of the invention is a system for measuring the content of calcium compounds in solutions of products or semi-finished products in food, pharmaceutical and chemical industry technologies. The content of calcium compounds is one of the important criteria for the degree of purification of the product, and it is also one of the basic indicators of the quality of water supplied to high pressure steam boilers.

So far, the content of calcium compounds has been determined practically only in laboratory conditions, using manual weighing, titration, spectrophotometric and electrochemical measurements of the concentration of these compounds. The gravimetric determination of calcium compounds requires the quantitative precipitation of the insoluble salt and weighing of the precipitate after drying it in a dryer, which is time-consuming and very labor-intensive. The titrimetric determination of calcium compounds, currently the most common, consists in adding a reagent from a burette to the test solution and optically checking the end of the reaction using an appropriate colorimetric indicator. Such determination is also time-consuming, burdened with subjective errors and not very accurate when making determinations in colored solutions. Spectrophotometric determinations require the use of specialized optical devices and are of little use in industrial conditions. Electrochemical measurements of calcium compounds using polagraphs are of limited use due to the necessity to use a mercury drop electrode, while the potentiometric one, using ion meters and ion-selective electrodes, is troublesome due to the necessity to frequently calibrate the measuring cell.

The system for measuring the content of calcium compounds in the solutions according to the invention, equipped with a measuring sensor in the form of an electrochemical cell with a calcium ion-selective electrode immersed in the tested solution, is characterized by the fact that the output of the measuring sensor is connected through a measuring transducer to the logic, one output of which is connected to a reagent dispenser, and the second output is connected to a conversion circuit, the output of which is connected to a digital display. Before starting the solution analysis, the logic compensates for the sensor imbalance signal due to cell instability

150 989 electrochemical and then starts the dosing of the reagent through the dispenser. Upon completion of the chemical reaction, the logic stops the dosing unit, whereby the volume of added reagent is converted by the conversion system to the content of calcium compounds in the test solution, and the result of the calculation is shown on the digital display.

The system according to the invention provides automatic, periodic determination of the content of calcium compounds in solutions, also of significant color, especially in the sugar industry. The system uses complexometric analysis with automatic electrochemical identification of the reaction equivalence point. This allows for the elimination of manual operation during the measurement, as well as elimination of the instability of the electrochemical cell with the ion-selective electrode and of subjective errors caused by the presence of colored substances in the tested solutions.

The subject of the invention will be explained in more detail in an embodiment in a schematic drawing.

The system for measuring the content of calcium compounds in the solutions according to the invention is equipped with a potentiometric sensor 1 placed in the reactor 2, into which the tested solution is introduced. Reactor 2 is equipped with an agitator 3. Sensor 1 output is connected via a measuring transducer 4 to the input of logic 5, one output of which is connected to the reagent dispenser 6, connected to the reagent container 7. The second output of logic 5 is connected to the input of the conversion circuit 8, the output of which is connected to the digital display input 9.

The test solution with an excess of the compensating reagent is placed in the reactor 1 and the sensor 2, being an electrochemical cell with a calcium ion-selective electrode, is immersed. The output from sensor 1 is fed through the measuring transducer 4 to the logic 5 which initially, before starting the analysis, automatically compensates for the imbalance signal of the measuring sensor 1, which eliminates the disturbing influence of electrochemical cell instability. The logic then starts reagent dispenser 6 containing the specified concentration of calcium ions. At the moment of reaching the equivalence point of the chemical reaction, the level of the signal from sensor 1 changes, which, after processing in the converter 4, stops the dosing of the reagent by the feeder 6 via the logic system 5. the proportional content of calcium compounds in the tested solution, and the calculation result is given on the digital display 9.

Claims (1)

Patent claim A system for measuring the content of calcium compounds in solutions, equipped with a measuring sensor in the form of a potentiometric cell located in the reactor with the tested solution, characterized in that the output of the measuring sensor (1) is connected through the measuring transducer (4) to the logic circuit (5) of which one output is connected to the reagent dispenser (¢), and the other output is connected to the input of the conversion circuit (8), the output of which is connected to the digital display (9).