SU832423A2 - Device for determining temperature coefficient of liquid surface tension - Google Patents

Description

the capillary 3 lies in the cut-off plane of the tailbones of identical communicating capillaries 4 and 5, which are lowered into the supply of heaters 6 and 7 and the differential thermocouple 8, each cylindrical vessels 1 and 2, which, in turn, are communicated with the tube 9. The fluid injection into the device is carried out through the opening 10, which is then closed. The device works as follows. The device is placed in a thermostat 11 with a horizontal axis of rotation 12 and a microscrew 13 and is rigidly fixed in it. It is then connected via taps 14 and 15 to the pumping system 16 and an inert gas cylinder 17, the Sample is heated to the desired temperature, and a working atmosphere (vacuum or inert medium) is created in the device. After that, the device is reset to its original position, in which the capillaries 4 and 5 are arranged vertically and immersed in the same depth h. With the help of a needle cartridge 17 by means of capillaries 4 and 5, through the process of passing slowly the inert gas bubbles (He, Ar). At the same time, by adjusting the immersion depth of the capillaries 4 and 5 in the liquid using micro screw 13, a position is reached where the gas bubbles at the same temperature at the tips of the capillaries detach from them simultaneously. At this moment the cannals are immersed in the liquid to the same depth h. Then the fixed position of the microscrew and the heater raise the temperature of the liquid in one of the vessels 1 or 2 per DT, leaving the temperature of the liquid in the second vessel at the same time. Despite the expansion of the heated vessel and the liquid in it, the hydrostatic equilibrium at the tips of the capillaries 4 and 5 is maintained due to the presence of the capillary 3, and the equilibrium pressure of the capillary flow disrupts. As a result, gas bubbles begin to escape through that capillary, at the cut of which the capillary pressure of the forces became lower. Using the law telling vessels and changing the depth of the capillaries 4 and 5 in the liquid, by turning the screw 13 at a certain angle D you can achieve this position when the bubbles exit through both capillaries simultaneously. this moment takes place. -M ,, - fl || Biq-lV H where h. —the depth of immersion of the capillary in a liquid with a temperature T + DT / p and Р-- the density of the liquid at temperatures T and T + dT, respectively; l is the change in h with a corresponding change in h by Db, as a result of which the bubbles begin to separate again from both capillaries simultaneously. Based on the laws of communicating vessels,; pq Ali - p q, Aliv, e. (i e. / uMiio -), - (4) (where is the distance between capillaries 4 and 5: HQ is the micro-screw pitch 13: R is the distance from the axis of rotation 12 to the hinge point 18. If the device is made of quartz 10) or molybdenum glass (d.), And the surface tension of the test fluid SG-U-SO din / cm, then taking into account the thermal expansion of the capillary corrects -in only the fifth or sixth digit after the comma, does not represent a practical of interest. Taking this into account and having in mind the equations (2) - (), equation (1) can be rewritten as,... O V KR L dT 2u.T which allows to calculate the temperature coefficient of the surface tension of the liquid. With a more rigorous consideration of the issue, under r in Eq. (5), one should understand some f-dependent effective capillary radius. However, the error introduced by neglecting this dependence does not exceed 10 dyn / cmgrad. The error in measuring the temperature coefficient of the surface tension of liquid substances on the device is less than 1%.

In addition, the proposed device is simple in design and significantly expands the range of the investigated substances.

Claims (1)

Invention Formula A device for determining the temperature coefficient of surface tension of liquids, according to the ed. Ev. No. 744282 is different in that, in order to simplify the design and improve the measurement accuracy, the vessels with the test liquid are connected by an additional capillary, whose axis lies in the cutting plane, informing the capillaries. Sources of information taken into account in the examination I. USSR Copyright Certificate No. 744282, cl. Q01 N 13/02, 1977, ...