SU281865A1 - - Google Patents

Description

ISOTESHESCOPE

The invention relates to devices for physico-chemical studies and, in particular, to isotenyscopes, designed to determine the pressure of a saturated vapor of various liquids.

A number of isoteniascopes are known, the principle of action of which is that the saturated vapor in a closed volume above the surface of the test liquid is separated from the pressure measurement and control system with an X-shaped manometer, which performs the function of a zero-point device.

However, due to the influence of the partial pressure of extraneous gases, the data on the pressure of saturated vapors of a number of liquids in a wide range of temperatures, obtained by the static method using known isotenyscopy, are insufficiently accurate.

The purpose of the present invention is to improve the accuracy of measuring the pressure of saturated vapors of liquids.

This is achieved by the fact that the null-device of the isoteniscope is made

1 as a hollow transparent cylinder coaxially placed inside the body, the lower edges of the cylinder being lowered into the liquid and not reaching the bottom of the body, and the upper part filled with a ferromagnetic base supported on the shoulder, inside the body

Such a structure ensures that extraneous gases are removed from the test liquid directly into the izotenikopvv

The drawing shows a schematic diagram of the described prioor.

The isoteniscope contains a cylindrical transparent case I, which is partially filled with the test liquid 2 and equipped with a tap 3 for connection to the measurement and adjustment system. Pressure (not shown) e

The housing I can be filled with the test liquid 2 through the outlet 3 or through the capillary 4 mounted in the lower part of the housing. Inside the housing I there is a hollow transparent separation cylinder 5 that performs the function of a null device. Lower edges

hydrade 5 is lowered into liquid 2 and does not reach the bottom of hull I, and the upper part is provided with a ferromagnetic base b supported by oartika 79 formed inside the hull.

The ferromagnetic base b serves to lift the cylinder 5 with the absorption of the zincite when ozgazhivanii studied liquid 2. The inner cavity of the cylinder 5 and the annular gap between the cylinder 3 and the housing I orazuetsya connected capacity, by equality of levels, / h; inside the cylinder and in the pressure measurement and control system. Work with the izotvniskopom is carried out as follows. Through the outlet 8 or the capillary outlet, fill with the test liquid 2 and connect it to the measurement system and adjust the HMfi and occurrences

using a magnet, the cylinder 5 is raised to the upper part of the body, with the combat surface of the liquid H communicating with the pressure measurement and control system. Then the liquid is degassed in a known manner using a vacuum pump and a crane (not shown in the drawing}

After that, the cylinder 5 is lowered to the lower position. Thus, the pure saturated steam in the inner cavity of cylinder 5 is separated from the pressure measurement and control system.

The isotenyscope is thermostatically controlled at the desired temperature and, after equilibration has been established, a pressure and pressure control system is applied to ensure that the levels of the test fluid 2 in the inner cavity of the cylinder 5 are equal and in the gap between it and the housing I.

At the same time, the pressure in the measurement and control system is equal to the pressure of pure saturated vapor of the test liquid in

BACKGROUND OF THE INVENTION

An isoteniscope containing a cylindrical transparent body provided with taps for filling the test liquid and for connecting to a pressure measuring and regulating system, and a zero-fit wipe and which teMj that, in order to improve the accuracy of measuring the pressure of saturated vapors , the null device is made in the form of a hollow transparent cylinder coaxially placed inside the body, the lower edges of the cylinder are lowered into the liquid and do not reach the bottom of the body, and the upper part is provided with a ferromagnetic base supported on the shoulder, made inside the case.