RU2591228C1 - Method of gas chromatography in conditions of space flight - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to column chromatography and is intended for chromatographic analysis of substances on board of spacecraft in conditions of space flight. Method of gas chromatography in conditions of space flight involves input of the sample into the carrier gas flow and transfer to it through a separating chromatographic column followed by detection at the outlet of separated substances. Output of a separating chromatographic column are connected by crane or valve with tender space vacuum, and at the inlet of the separating chromatographic column gas-carrier is represented by air mixture, located on board directly in spaceship cabin.

EFFECT: technical result is cheapening of method of gas chromatography in conditions of space flight.

1 cl, 1 dwg

Description

The patented method of gas chromatography in space flight according to the International Patent Classification (IPC) as amended on 01.2015 (2015.01) refers in section G - physics to class G01 - measurements, where it can be attributed to subclass G01N - research or analysis of materials by determining their chemical or physical properties, and here in group G01N 30/00 - analysis of materials by separation into components (components) using adsorption, absorption or similar chromatographic processes to subgroup G01N 30/02 - column chromatography .

The method is intended for chromatographic analysis of substances on board a spacecraft in space flight conditions.

Known my analogue - "Method of Gas Chromatography" (. Application for RF invention №98106963, IPC ⁷ G01N 30/00, published 27.10.2000), consisting in passing the sample to be analyzed with a flow of carrier gas through the chromatographic column (which create standing waves ) and registration after the chromatographic column of the separated components of the sample.

A prototype is also known - another “Gas Chromatography Method” (RF Application for Invention No. 99104917, IPC ⁷ G01N 30/68, publ. 01.20.2001), according to which products (in the form of a sample) intended for analysis are blown (introduced) by injector and separated by transfer in a carrier gas in a separation (chromatographic) column, and the detection of separated products (substances) is carried out by means of a detector.

The disadvantages of such methods of gas chromatography include the fact that their implementation in flight on a spaceship requires the lifting into space of an additional mass of carrier gas in the form of a cylinder with compressed gas, or an electrolyzer with water. And it increases the cost of the implementation of gas chromatography.

The patented new method of gas chromatography in space flight conditions, as in the prototype, consists in introducing a sample into the carrier gas stream and transferring it through a separation chromatographic column with subsequent detection of separated substances at the outlet.

New in the patented method is that the outlet of the carrier gas from the separation chromatographic column is connected using a faucet or valve with an outboard space vacuum, and at the inlet of the separation chromatographic column, the air mixture used on board directly in the spacecraft cabin is used as the carrier gas .

The technical result of the new method is its cost reduction by using an outboard vacuum to create a carrier gas stream from the airborne mixture.

The figure schematically shows the implementation of the patented method.

It consists in introducing sample 1 into the carrier gas stream 2 and transferring it through a separation chromatographic column 3 with subsequent detection of 4 separated substances at the outlet, which is connected via a crane 5 to an outboard space vacuum 6.

As the carrier gas 2, an air mixture is used, located on board directly in the spacecraft cabin. Using an outboard vacuum allows you to create a flow of carrier gas directly inside.

Claims (1)

The method of gas chromatography in space flight, which consists in introducing the sample into the carrier gas stream and transferring it through a separation chromatographic column with subsequent detection at the output of the separated substances, characterized in that the outlet of the carrier gas from the separation chromatographic column is connected using a crane or a valve with an overboard space vacuum, and at the inlet of the separation chromatographic column, an air mixture is used as the carrier gas on board directly NGOs in the cabin of the spacecraft.

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