RU2573883C2 - Apparatus for preparing multicomponent control gas mixtures - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: apparatus for preparing multicomponent control gas mixtures (CGM) includes cylinders, valves, gas pressure regulators, pulse tubes and a mixing chamber. The cylinders, the number of which and the content of a single-component CGM in each of which are selected based on the required composition of the multicomponent CGM to be prepared, are connected in parallel to a suction device through the pulse tubes. The pulse tubes are fitted with gas pressure regulators. The suction device is connected through a pulse tube to the mixing chamber, which is connected to a system for controlling and feeding a multicomponent CGM, consisting of a gas pressure regulator and a rotameter.

EFFECT: wider range of equipment.

1 dwg

Description

The invention relates to the field of metrology, in particular to devices intended for the preparation of multicomponent gas mixtures for the purpose of calibration of gas analyzers.

Gas analyzers require systematic periodic verification using calibration gas mixtures (hereinafter referred to as PGS). Such verification, as a rule, is carried out using reference multicomponent ASG in the form of state standard samples (hereinafter - GSO), which, in turn, must be purchased on a paid basis. Due to the high cost of GSOs, and also due to the lack of the possibility of long-term storage of some types of multicomponent ASGs due to the mutual reaction of the components, the task of self-preparation of ASGs, close to the GSO in metrological characteristics, but of lower cost, is relevant.

A device for preparing ASG in dynamic mode is known, which comprises a gas mixer, at least one channel for supplying the target gas to the gas mixer, at least two channels for supplying diluent gas to the gas mixer and a channel for discharging the gas mixture from the mixer gases. In each channel for supplying gas to the gas mixer, a gas mass flow regulator and an electromagnetic valve are sequentially installed (see RF patent No. 114528, publ. 03/27/2012).

A device is known comprising a vessel with span gas connected to a common channel, equipped with a reducer, a vessel-mixer and a sensor-gas analyzer placed in the outlet channel. In the device, these elements are connected to the common channel through separate valves, and the mixing vessel is equipped with a pressure sensor; in addition to the common channel, the compressor, vacuum pump and gearbox with valve in the bypass channel are connected through separate valves, the gearbox output is connected to a set of separate vessel valves for the removal of the prepared ASG, and the gas detector is connected to a set of vessels equipped with separate valves with standard ASG of various concentrations (see RF patent No. 2383007, publ. 02.27.2010).

A device for preparing multicomponent gas mixtures is known, which contains cylinders with reducers containing diluent gas and reference gases, valves, a mixing chamber, a mixing chamber vacuum gauge, a mixing chamber pressure gauge, and a fore-vacuum pump. Between the cylinder containing the diluent gas and the mixing chamber, a compensation chamber is introduced with inlet and outlet valves and a differential pressure gauge, one input connected to the compensation chamber, and the other to the mixing chamber (see RF patent No. 2446005, publ. March 27, 2012) .

The main disadvantage of the technical solutions implemented in the devices listed above is the presence in them of elements associated with the need to use a diluent gas, such as air.

In connection with this drawback, the objective of the claimed invention is the creation of an inexpensive and easy to manufacture device for the preparation of multicomponent ASGs, operating on the principle of diffusion of portions of one-component ASGs in a closed volume, supplied at the same pressure and at the same speed, and, as a result, not having in its the design of the elements necessary for the supply of diluent gas.

The technical result consists in realizing the purpose of the claimed invention, that is, in expanding the arsenal of technical means.

The problem and the technical result indicated in the device for the preparation of multicomponent ASG, including cylinders, valves, gas pressure regulators, impulse tubes and a mixing chamber, are solved and achieved accordingly by the fact that the cylinders, the number of which, as well as the content of one-component ASG in each of them are selected proceeding from the required composition of the multicomponent ASG to be prepared, they are connected in parallel to each other to the aspirator by means of impulse tubes, on which, in turn, are installed gas pressure regulators, while the aspirator is connected through a pulse tube to the mixing chamber, which is connected to a multicomponent ASG control and supply system consisting of a gas pressure regulator and a rotameter.

The claimed invention is illustrated by graphic materials, where the drawing shows a schematic diagram of a device for the preparation of multicomponent ASG.

A device for preparing multicomponent ASG contains cylinders 1, valves (not shown in the drawing, but, as a rule, are a structural element of cylinders 1), gas pressure regulators 2, impulse tubes 3, aspirator 4, mixing chamber 5 and a system for regulating and supplying multicomponent ASG consisting of a pressure regulator 6 and a rotameter 7.

The number of cylinders 1, as well as the content of one-component ASG in each of them is selected based on the required composition of the multi-component ASG to be prepared.

The cylinders 1 are parallel to each other connected to the aspirator 4 by means of impulse tubes 3.

On the impulse tubes 3, used to connect the cylinders 1 to the aspirator 4, pressure or gas flow controllers 3 are installed.

The aspirator 4 is connected via a pulse tube 3 to the mixing chamber 5, which is connected to a multicomponent ASG control and supply system, consisting of a pressure regulator 6 and a rotameter 7.

The claimed device operates as follows.

For example, for calibrating a gas analyzer, a multicomponent ASG is required, composed of equal parts of the following prepared in accordance with TU 6-16-2956-92 “Gas calibration mixtures — standard composition samples” of one-component ASG: CO ₂ / N ₂ , SO ₂ / N ₂ , NO / N ₂ and NO ₂ / N ₂ .

Based on this condition, assemble the device according to the circuit diagram shown in the drawing. Moreover, in the general case, the number of cylinders 1 and the content of one-component ASG in each of them are selected based on the required composition of the multi-component ASG to be prepared.

Gas pressure regulators 2, for example, of the RDB-2-0,6 brand manufactured by CJSC SKB Khromatek, are set to equal pressure (0.1 MPa), while the gas pressure regulator 6, for example, also of the aforementioned brand, is closed.

Set up an aspirator 4, for example, PU-4E with a modified feed and selection system to feed 5 equal portions of one-component ASG to the mixing chamber, i.e., at the same feed rate (1 l / min).

Moreover, mixing chamber 5 is a cylinder with a capacity of up to 10 l, designed for pressure up to 20 MPa and manufactured according to TU 1411-001-03455, TU 14-3R-08-94 or TU 7551-002-23204567-99.

Open the valves on the cylinders 1 and by means of an aspirator 4 through impulse tubes 3 through the gas pressure regulators 2 supply one-component ASG to the mixing chamber 5.

After equalizing the pressure and, as a consequence, the diffusion of portions of one-component ASG in the mixing chamber 5, open the gas pressure regulator 6 of the control system and supply the multicomponent ASG and feed into the calibrated gas analyzer a multicomponent ASG with a speed of 20-40 l / min, which, in turn, regulated by a rotameter 7, for example, PM-A-0,063G-U3.

Claims (1)

A device for the preparation of multicomponent calibration gas mixtures (hereinafter referred to as ASG), including cylinders, valves, gas pressure regulators, impulse tubes and a mixing chamber, characterized in that the cylinders, the number of which, as well as the content of one-component ASG in each of them, are selected based on the required the composition of the multicomponent ASG to be prepared are connected in parallel to each other to the aspirator by means of impulse tubes, on which, in turn, gas pressure regulators are installed, while the aspirator connected via a control line to the mixing chamber, which is connected to the regulation system and supplying a multicomponent ASG consisting of a gas pressure regulator and rotameter.