SU1376011A1 - Portless cell for spectral gas-chr omatographic detection - Google Patents

Abstract

The invention relates to a gas chromatographic analysis, in part by CSpoc laser, I DopedAl body (inert gas to devices for spectral detection of separate components. The purpose of the invention is to expand the temperature range and reduce the parasitic gas volume of the cuvette. Compound cell with output of matrices columns 3 are made directly from the middle of the central channel 2, and restrictive washers 6 with light holes and two nozzles 7 and 8 for additional parts are mounted at the ends of the cuvette Inert gas purging. Such a cell design reduces the parasitic gas volume and at the same time has a sufficiently high chromatographic separation even with capillary gas chromatographic columns. This design expands the temperature range of the cell and improves reliability. f-ly, 1 il. Gas-nsagpem ta - fpOfKffnoep & ipweC g. column i if /% 00 O) Aopvnlitelma npadt / S-ka inert gazdm

Description

The invention relates to gas chromatography analysis, in particular to devices for spectral detection of separated components.

The aim of the invention is to expand the temperature range and reduce the parasitic gas volume in the cuvette.

The drawing shows a diagram of the device.

The device consists of a metal case 1 with a central light channel 2. The vysod-chromatic column 3 is connected to the central light channel 2 by means of a connecting nut 4, which seals the column 1 with the metal seal 5. The ends of the cell are fitted with restrictive washers 6 with an opening mi for light and tube 7 and 8 for additional purging with an inert gas. end; volumes. The cuvette is heated by an electric heater 9

The device works as follows.

The carrier gas from the outlet of the chromatographic column 3 enters the middle part of the central light channel 2, where it divides into two streams going to different ends of the cuvette. The end volumes of the cuvette are continuously flushed with a stream of inert gas entering through the tube 7 and the restrictive jaw 6 into the tube 8.

The components to be analyzed are recorded at the exit of the gas chromatography column in the spectral detector by measuring the absorption of light in the working cell.

In the proposed device, the design of the tubular cell is significantly modified compared with the known flow photometric cells used for spectral gas-chromatic detection.

Attaching the output of the chromatographic column directly to

Editor S. Pekar

Compiled by S. Golubev Tehred L. Oliynyk

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The central part of the light channel of the cuvette significantly reduces the parasitic gas volume of the connecting device, which makes it possible to work even with highly efficient capillary gas chromatographic columns of conventional diameter (0.2-0.3 mm) without significant deterioration in the degree of chromatographic separation.

The installation of restrictive washers with holes for light at the ends of the cuvette and additional blowing of the ends of the cuvette through the tubes with an inert gas reduces the effective parasitic gas volume of the ends of the cuvette and prevents external optical components of the spectral gas chromatographic detector (source and receiver of light) from contamination by materials eluting from columns.

Claims (2)

Invention Formula I. A coconut-free cuvette for spectral gas chromatographic detection, consisting of a tubular heated body, with a central light channel, containing in the middle part a connecting device for introducing gas, and at the ends. two restrictive washers with holes for the passage of light and a two-pipe nipple installed with one of. Each of the washers, characterized in that, in order to expand the temperature range and reduce the parasitic gas volume in the cuvette, two additional nozzles are inserted into the cuvette, installed at the ends of the cuvette, each of which is located on the other side of the washers. 2. The cuvette according to claim 1, characterized in that the output of the connecting device is installed in contact with the central light channel of the cuvette. Corrector I. Muska