RU2622833C2 - Wet gas generator - Google Patents

Abstract

FIELD: tool engineering.

SUBSTANCE: wet gas generator, which is a hollow metal cylinder with inlet and outlet nozzles for intaking and offtaking the analyzed gas. Inside the cylinder there is a hollow metal capsule with pneumatic resistances with calibrated holes at the ends of the cylinder. Inside the hollow capsule there is a moisture source, i.e. water. The capsule is fixed in the center of the metal cylinder using aligning gaskets made of fluoroplastic with transverse holes for the gas passage. All this is a simple design, small dimensions, easy to manufacture and simple to operate.

EFFECT: with the help of such a generator you can set the necessary moisture level to determine the component of the hygrometer error, and the change in the set moisture level can be controlled by changing the total gas flow through the hygrometer to be checked.

1 tbl, 1 dwg

Description

The invention relates to the field of analytical instrumentation and is intended to determine the components of the error by the consumer during operation during mandatory routine maintenance and before periodic calibration of hygrometers to measure the volume fraction of moisture of pure neutral gases specified in the technical conditions for a particular type of hygrometer.

Known mass-produced wet gas generator "RODNIK-4M", designed for calibration and calibration of immersion and flow-type hygrometers at enterprises operating hygrometers and calibration laboratories.

The principle of operation of the generator is based on the two-pressure method. Its essence consists in saturating the gas at a certain pressure in the saturation chamber P ₁ and its subsequent isothermal expansion to pressure in the working chamber P ₂ , as a result of which the partial pressure of water vapor changes in proportion to the total gas pressure and their relative humidity in the working volume is determined by the ratio

The error in the relative humidity of the gas obtained in the generator based on this method is determined by the measurement errors of the pressures P ₁ and P ₂ and the temperature inequality between the saturation chamber and the working chamber.

The generator has the following specifications:

ranges reproduced by the generator:

- the relative humidity of the gas mixture at a temperature of +7 to + 80 ° C - 10 ... 98%;

- the volume fraction of water vapor mixture - 10 million ... 46000 ^-1.

Known commercially available wet gas generator SEVER-1, designed for calibration and calibration of natural gas hygrometers of submersible and flowing types, and can be used to verify the calibration of hygrometer dew point and volume fraction of moisture of clean, neutral gases and air.

The generator is based on the method of mixing wet and dry gas flows with its subsequent supply to the working chamber for immersion hygrometers or to an outlet to an external flow hygrometer.

The generator has the following specifications:

- generator reproduces ten volume fraction moisture values uniformly spaced in the range from 23000 to 4.9 million ^-1;

- the outlet pressure of the vapor-gas mixture is not more than 20 kPa;

- air, nitrogen are used as a working gas.

The disadvantage of this generator is that it does not allow the consumer to determine the component of the error of the hygrometer during its operation and before periodic verification according to the requirements of clause 5.9 of GOST R 8.758-2011, since it has a limitation on the outlet pressure and requires an additional source of dry gas.

The technical result is the creation of a wet gas generator, which is based on a method of mixing wet gas with the analyzed gas, operating at the working pressure of the analyzed gas and wet gas without an additional source of dry gas, which will allow the consumer to determine the error components of the hygrometers during its operation and before periodic verification according to the requirement of clause 5.9 of GOST R 8.758-2011.

The generator is (Figure) a hollow metal cylinder (1) with inlet (2) and output (3) fittings for the inlet and outlet of the analyzed gas, inside the cylinder there is a hollow metal capsule (4), at the ends of which are mounted pneumatic resistors (5) with calibrated holes (6), inside the hollow capsule there is a moisture source - water (7), and the capsule is secured in the center of the metal cylinder using centering gaskets (8) of fluoroplastic with transverse holes.

The generator works as follows: the metal cylinder is first disassembled and the hollow metal capsule is taken out. The metal capsule is filled with water, closed with bushings into which the pneumatic resistors are hermetically sealed, installed back into the metal cylinder and fixed in the center of the metal cylinder with the help of centering gaskets. The metal cylinder is closed by bushings. The generator is ready to go.

A hygrometer designed to determine the component errors is disconnected from the analyzed gas by a valve, which is provided for each hygrometer in accordance with the operating instructions, disconnect the inlet tube from the inlet of the hygrometer and connect it to the inlet of the generator, and the outlet of the generator with an additional tube (from the set of spare parts ) are connected to the inlet fitting of the hygrometer.

The valve is opened and the analyzed gas is fed through the generator to the inlet fitting of the hygrometer, while the metal cylinder of the generator is filled with the analyzed gas under its working pressure, and since the generator is connected to the inlet of the hygrometer, the analyzed gas passes through it creating a pressure drop across the hollow metal capsule. Under the influence of this pressure, moisture is released from the hollow capsule, which is immediately mixed with the analyzed gas and fed into the hygrometer that measures it. The moisture content that is released from the hollow capsule is determined by calibrated resistance and the total flow rate of the analyzed gas through the generator. Moisture supplied in this way to the inlet of the hygrometer enables the consumer to check the error component of the hygrometer, namely to check the completeness of moisture extraction from the analyzed gas in the measurement mode, which requires clause 5.9 of GOST R 8.758-2011.

This type of generator can be used to create gas mixtures with moisture volume fraction (EFA) over 100 million ^-1 at a rate of the sample gas through the hygrometer and an overpressure of 190 to 959 cm ³ / min. To confirm the proposed method for creating gas mixtures, experiments were carried out, the results of which are given below at various pressures. The tests were carried out using a Baikal-MK hygrometer. The results of measuring the volume fraction of moisture B and the flow rate of the analyzed gas Q at various pressures are shown in the table.

Claims (1)

A wet gas generator, which is a hollow metal cylinder with inlet and outlet fittings, with a metal capsule located in it, at the ends of which are mounted pneumatic resistors with calibrated holes, and inside the capsule there is a moisture source - water, the capsule with the help of centering spacers made of fluoroplastic with transverse holes are fixed in the center of the metal cylinder, this allows you to determine the components of the error of the hygrometer during its operation and before periodic calibration, using analyzed gas at its working pressure.

Images