SU1827605A1 - Method for determination of evaporation and gasification rates of liquid substances - Google Patents

Description

The invention relates to thermophysical studies, in particular to determining the kinetic parameters of thermal decomposition of substances and gasification characteristics.

The aim of the invention is to improve the accuracy and simplification of determining the rate of evaporation and gasification of liquid substances.

A diagram of a device for implementing the method for determining the rate of evaporation and gasification of liquid substances is presented in the drawing.

The device comprises a heat-insulated housing 1, a heating element 2, a bath housing 3 with a heat-transfer fluid 4, a drop of a test liquid 5, a unit for supplying drops of a test liquid (automatic dropper) 6, electrodes 7, a unit for recording the lifetime of a drop of a test liquid 8, a control unit for supplying drops

1827605 A1 | with the test fluid 9, block 10 maintaining and registering the specified temperature of the coolant with thermocouple 11, the power supply unit 12 of the device.

The device operates as follows.

The power supply unit 12 and the heating element 2 are turned on. Then, with the help of the unit 10 and the thermocouple 11, the predetermined temperature of the heat carrier 4 is established and maintained constant. At the same time, using the control unit 9 for supplying drops of the test liquid (which sets the time interval between the moment of the next drop and the moment of supply subsequent drop) a signal is sent to an automatic dropper 6, which delivers a drop of the test liquid to the surface of the liquid coolant along the vertical rod of electrode 7. Getting on the turn the coolant 4, a drop of the source fluid 3 bending by its weight bends the surface of the coolant 4 and opens the electric circuit between the electrode 7 and the electrically conductive coolant 4, since the studied fluid is non-electrically conductive. In the absence of k? Or under the electrode 7 surface; of the coolant does not bend, and therefore, there is an electrical contact between the Electrode 7 and the coolant 4, while the electric circuit between the electrodes 7 is closed and holds the unit for recording the lifetime of a drop of the test liquid in the off state. In this case, block 8 is turned on and the countdown of evaporation of a drop of the test liquid begins. As the liquid droplets evaporate, the curvature of the surface of the coolant is eliminated, the electrical contact between the electrode and the coolant is restored, and the registration unit is activated, measuring the time; life drops.

The obtained experimental data are processed according to a known technique.

Claims (1)

Claim A method for determining the rate of evaporation and gasification of liquid substances by applying the test substance to the surface of the coolant, characterized in that, in order to improve the accuracy and simplify the determination, the test liquid in the form of a drop is placed on the surface of the liquid coolant or melt of the substance with which the test liquid should not be mixed , dissolve, wet, or enter into a reaction, and record the time of evaporation or gasification in isothermal conditions, which determine the desired value.