SU1139998A1 - Device for determination of gas content in liquids - Google Patents

Abstract

A DEVICE FOR THE DETERMINATION OF GAS CONTAINMENT IN LIQUID, including a metering device, a gas tank with a pressure measurement sensor, supply and discharge pipelines to the metering device and a tank and pipeline for evacuation: so as to simplify the determination while maintaining a high degree of accuracy, it is equipped with an additional dispenser placed in the fluid supply pipeline and connected to the gas tank.

Description

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The invention relates to a measurement technique, in particular, to devices for determining gas content in liquids.

Determination of gas content in liquids is necessary to study the gas regime of natural waters in biology, to evaluate the performance characteristics of fuels of thermal machines in technology, to study the metabolic processes of living organisms in medicine, in many other areas of science and technology.

A device for determining the gas content in liquids is known, comprising a dosing vessel, an evacuated container, a pressure measurement sensor and pipelines with jaws 1J

However, the pressure change in the known device is due. not only by introducing the dissolved gas into the vacuumized capacity, but also by evaporating the liquid under study. Thus, the measured pressure change is the sum of the pressures of evolved gas and vapor of the test liquid.

Р-Рц Р (, + Р; Pg - pressure of saturated liquid vapor.

The use of measured pressure drop in the calculation leads to a decrease in accuracy (especially for liquids with a high saturated vapor pressure),

The closest to the proposed technical entity is a device that includes a metering device, a gas tank with a pressure measurement sensor, supply and discharge pipelines to the dispenser and a container, an evacuation pipeline, simulates a saturated vapor pressure with a sample of the test liquid, made in the form of a sealed vessel f

The drawbacks of the device are the difficulty of determining, due to the operation of filling the simulator with the test fluid, its degassing, thermostating, evacuating the simulator to the pressure of the liquid, the evacuation of the container to a pressure of not more than 1 mm Hg, and the need to use more complex differential pressure sensor.

The purpose of the invention is to simplify the determination of gas content while maintaining a high degree of accuracy.

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This goal is achieved by the fact that the device, which includes a metering device, a gas tank with a pressure measurement sensor, supply and discharge pipelines for the dispenser and a container and an evacuation pipe, is equipped with an additional dispenser located in the liquid supply pipeline and connected to the gas tank.

The drawing shows a device for determining gas content in liquids, a longitudinal section.

The device includes a dosing vessel 15 1, an evacuated gas tank 2, a pressure measurement sensor 3, supply lines, a drain, evacuation with shut-off bodies 4-6, an additional metering unit consisting of 20 plunger spool 7 located in the housing 8, with a measuring cavity 9 made in the form of a radial channel connecting the pipeline. supply of the test liquid 10 with a co-vessel-dispenser 1, or connected by pipe 11 to a vacuum tank 2.

The device works as follows.

0 The compressed gas is supplied to the cavity A of the metering valve and set to the position in which the measuring cavity 9 connects the pipeline 10 to the vessel doser 1, opens the valve 4 and fills the dosing vessel with the test liquid, and the valve 4 is closed.

. Compressed gas is fed into cavity B of the metering valve, simultaneously releasing pressure from cavity A. Under the effect of overpressure, the valve 7 moves in the housing and disconnects the pipe 10 from the vessel 1, connects the measured cavity 9 with the dose 5 in it under test liquids through the pipeline 11 and the evacuated gas tank 2. The implementation of an additional dispenser in the form of a plunger valve with 0 radial channel as a measuring cavity ensures that the free volume of the evacuated tank remains unchanged and after you enter and in it the test liquid. The valve 5 is opened and the tank 2 is evacuated; in this case, first, the dose of the test liquid is degassed, then the tank is filled with liquid vapor as a result of its evaporation into vacuum until an equilibrium state between the liquid and the vapor. The pressure is monitored by sensor 3. After the pressure has stabilized, valve 5 is closed and the evacuation is stopped. In the container 2, as a result of the equilibrium of the evaporation and condensation processes, the saturated vapor pressure of the liquid under test is established, which is fixed by the sensor 3. The valve 6 is opened and the dispenser 1 is connected to the container 2. The dissolved gas is released into the container 2, increasing the pressure in it. The change in pressure is recorded by sensor 3. Substitute the measured pressure drop into the calculated form and determine the gas content. The use of the proposed device allows to simplify the determination of gas content by combining the preparation of a simulator of saturated vapor pressure of the test liquid and evacuated tank, as well as evacuation of the tank to saturated vapor pressure, for example, for kerosene (approximately 36 mm Hg instead of 1 mm Hg pressure), by supplying the known device with an additional dispenser with a dimensional cavity, made in the form of a plunger valve located in the housing with a radial channel and installed in the pipe oprovode supplying the sample liquid, and a conduit connecting said measuring chamber to the vacuum vessel, for inputting therein the calibrated doses of the test liquid, and also by using a simple vacuum equipment such as an ejector, and a conventional pressure sensor, instead of a more complex differential.

Claims (1)

DEVICE FOR DETERMINING GAS CONTENT IN LIQUIDS, including a dispenser, a gas tank with a pressure measuring sensor, pipelines for supplying and discharging liquid to the dispenser and a tank and pipeline for evacuation, characterized in that, in order to simplify the determination while maintaining a high degree of accuracy, it is equipped prefabricated dispenser located in the fluid supply pipe and connected by a pipeline to a gas tank.