SU480915A1 - The method of measuring the volume of containers - Google Patents

Description

Veinos with an internal diameter of the capillary less than 2 mm, and wetting the walls with a dose device. The error in measuring volumes of 0.5-3.0 ml according to a known method is at best a few percent.

The aim of the invention is to improve the accuracy of measuring the volume of containers.

This goal is achieved by the fact that, but the proposed method, the measured capacitance is filled with a volatile liquid, and the displacement is carried out with an inert gas until complete evaporation of the liquid from the reservoir. After trapping the liquid vapors by the difference in mass of the vessel after and before the trapping, the mass of the liquid is calculated and, taking into account its density, the volume of the dosing device is determined.

The drawing shows a device for implementing the method using volatile liquid CCl-i and inert gas helium.

The device includes a cylinder 1 with compressed inert gas (helium) connected by pipeline 2 of stainless steel through a reducer 3, a pressure regulator 4, a stop valve 5, an adjusting throttle 6, a filter absorber 7, with a metering device 8 and a vessel 9 for trapping SSTs-vapor The exemplary manometer 10 is connected to the pipeline 2 between the pressure regulator 4 and the shut-off valve 5. The measuring tank 11 of the metering device 8 is filled with carbon tetrachloride from the tank 12 through a two-way valve 13.

The bores are as follows.

The inert gas (helium) is passed from the cylinder 1 under a certain pressure, controlled by a manometer 10, with the valve 5 open, through the metering device 8 into the vessel 12, and the mass of the vessel 12 is determined on an analytical balance. The measuring tank 11 of the metering device 8 in the "purge with open valve 13" position is filled from the tank 12 with a volatile liquid, for example, pure carbon tetrachloride with a known density. The valve 13 is closed and the dosing device 8 is switched to the dosing position, 5 tetrachloride carbon is completely evaporated from the measured capacity by helium in the vessel 9. The weight of the carbon tetrachloride with a known density is calculated from the mass difference of the vessel without SCC, and then determined are

0 volume of the metering device at the temperature of the experiment.

The work done on measuring the volumes of various types of dosing devices showed that the four-chlorine carbon completely evaporated from the measured capacity in the flow of helium at room temperature for 1-3 minutes, and the variation of weighing did not exceed 0.1-0.2 mg. Time spent on measuring the volume of the dosing device

0 according to the proposed method, is almost equivalent to the time that is required to measure the volume according to a method previously known and is 40-50 minutes. The relative measurement error of the dosing devices with a volume of 0.03-3.0 ml, taking into account the random and systematic components is an order of magnitude smaller than the errors of measuring the volumes of the dosing devices by a known method.

Subject invention

A method for measuring the volume of containers, for example, metering devices for gas analyzers, by filling the container with liquid, followed by displacement and measuring its mass, which is used to judge the volume of the container, characterized in that, in order to increase the accuracy of measurement, a volatile liquid is used as a filler, displacement is carried out with an inert gas until complete evaporation of the liquid from the container.

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