SU436997A1 - Device for measuring the surface tension of liquids - Google Patents

Description

one

The invention relates to the field of construction, particularly to devices for measuring the surface tension coefficient.

The known devices for measuring the surface tension coefficient, containing a cuvette with the test liquid, a cuvette reference solution, calibrated capillaries forming gas bubbles, a photoelectric system for measuring the frequency of gas bubbles following the secondary device, do not allow measuring the surface tension coefficient of the liquid in the flow at not stabilized gas consumption.

The proposed device provides a measurement of the surface tension coefficient of liquids in a stream at a pestabilized gas flow rate. This is achieved by the fact that in the proposed device the cells are connected to each other in series.

The drawing shows the proposed device.

The device includes a measuring cuvette 1 with a thermostatic jacket, a calibrated capillary tube 2 immersed in the test liquid 3, a drain tube 4 with a solenoid valve 5 and an inlet tube b with a solenoid valve 7 connected to line 8 of the test fluid flow From opposite sides of the cuvette 1 size 2

The source of light 9 and the photocell are 10. The capillary tube 2 is connected to a thermostated cuvette 12 containing the reference solution 13 in which the calibrated capillary 14 is immersed by means of a connecting tube 11 for gas. On opposite sides of the cuvette there are 12 times the source 15 lights and a photocell 16. The photo cells 10 and 16 are connected to a frequency division block 17. The output value of the frequency division block is supplied to the computing device 18, which is equipped with a digital indicator 19. The operation of the electromagnetic valves 5 and 7, the frequency division block 17 and the computing device 18 is controlled by the software control block 20. The device works as follows. When the power is turned on, the solenoid valve 5 opens and the liquid 3 in the measuring cuvette is removed through the drain tube 4. After the time required to completely drain the liquid 3 from the cuvette 1, the valve 5 closes, the valve 7 opens, and the cuvette 1 through the inlet the tube 6 is filled with the test liquid coming from the line 8. After the time required to fill the cuvette 1 with the liquid 3, the valve 7 is closed and the liquid 3 is thermostatically controlled. Valve control. 5 and 7 produces a block

20 software management 5g. It also turns off the block 17 for dividing the frequencies by the time the measuring cell is filled with the test liquid. Through the solution 13 and the liquid 3, gas bubbles constantly pass, which intersect the light fluxes from the sources 15 and 9 of the light, respectively, causing thereby the appearance of voltage pulses in the photocell 10 and 16 circuits proportional to the gas flow, passing through the solution 13 and the liquid 3, and inversely proportional to the volume of bubbles formed in them. Since the gas flow rate through the reference solution 13 and the test liquid 3 is the same, the surface tension coefficient of the test liquid 3 is determined by the ratio of the frequency of the bubbling through the reference solution and the test liquid, respectively.

Subject invention

A device for measuring the surface tension of liquids, containing a cuvette with a test liquid, a cuvette with a reference solution, calibrated capillaries forming gas bubbles, a photovoltaic system for measuring the frequency of gas bubbles and a secondary device, characterized in that it measures surface tension liquid in the stream with unstabilized gas flow, the cuvettes are connected to each other in series.

/ Liquids