SU1392501A1 - Gas chromatograph - Google Patents

Abstract

The invention relates to gas chromatography, in particular, to chromatographs for the analysis of microarrays. The goal is to increase the reliability of work and reduce the consumption of energy and carrier gas. A second purification filter TOHKOII, a two-position switch, an additional low-pressure gas line were introduced into the gas chromatograph. The pressure regulator is made with 2 outlets, one of which is connected to the main gas line, and the second to the second fine filter through an additional gas and comparative detector chamber. At the same time, the two-position switch is periodically connected so that one of the filters is connected to the main gas line, and the second to the additional line. I zp f-ly, I il. with (L

Description

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The invention relates to ha; i) chromatography and redi: (11acheno for analyzing microscopic and basic components in inert gas mixtures, for example for analyzing the Hj, O:, (O, CO, (, Ht in a mixture of argon with nitrogen, n sms si krypton with nitrogen and t, e. The aim of the invention is to HOBijiineHHe the reliability of the chromatograph and the reduction of the flow rate:, 1 ectro: energy and carrier gas.

The drawing shows a diagram of a gas () chro matograph.

The gas x) omagraph contains inlet 1 of a carrier gas, a pressure gauge 2, a catalytic unit 3, two identical filters 4 and 5, a non-switch valve 6, a regulator 7 yes 1RD, regulated by other () sse. 1–8, metering crane 9, |) separating columns K), bit detector 11, detector 12 of 1 l conductivity with comparative 13 and measuring 14 cells, outputs 15 of the pressure regulator, pressure gauge 16, two adjustable droplets 17, input 18 analyze (1G () | -аа, control air inlets 19, 20, reset 21 ana, inspect () gas, outputs 22 of the thermal conductivity detector, iiopB Kj additional carrier gas line 23, throttles 24 and the second dobrodigigel | | UK) gas line 25, locking dross. 1 26.

The gas chromatography system works as follows.

Carrier gas at inlet 1, enters cagaltic unit 3, in which the reaction () method | The mixtures, for example, hydrogen and oxygen, interact on the catalyst, and yes, 1e through the connecting channel of the switch-switch.plate 6 enters the filter 4, which is entrapped by the adsorbent, for example, activated yi; ieM and molecule: 1 rn-sieves. In filter 4, no. 1LO1.The impurity and impurities and reaction products formed in bblock 3 are detected. The pressure in filter 4 is equal to the input pressure controlled by pressure gauge 2. From filter 4, the impurity-free gas carrier flows through a non-switch valve 6 in pressure regulator 7, at the outlet of which the pressure of the carrier gas is reduced to a set value and stabilized. From the regulator 7, the pressure of the main note of the gas-1 of the carrier is directed through the choke 8, with which the flow of carrier gas is adjusted, to the metering valve 9, separation columns 10, discharge detector 1, and to start measuring cells 14 of the detector 12 tenon conductivity and output 21.

Part of the gas from the pressure regulator 7 through one of the outlets 15 flows into one of the adjustable chokes 17, through which the required flow in the low pressure line is established, and through the tap-switch 6 is fed to the filter 5 in the reverse direction, washing out the adsorbents accumulated in the non-soul cycle of impurities

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From filter 5, gas is supplied through valve 6 to comparative cells 13 of thermal conductivity detector 12.

A part of the pechiphenny carrier gas from outlet 1 is removed by a pin regulating valve 26 and, however, the additional line 25 is also fed through the adjustable choke 24 to the filter 5. The pressure in the latter is almost equal to the atmospheric pressure. According to the program, inlet 19 is supplied with control-air, 1eni, which switches the tap-switch 6 to another position, changing the operating mode of filters 4 and 5. Filter 4 is switched to regeneration mode, and filter 5 is switched to

cleaning mode. The operation of the entire system does not change with VTOM.

The analyzed gas through the inlet 18 enters the metering valve 9, flushes the dosing net and is discharged to the outlet 21. When control air is supplied to the inlet 20, the an-metering device 9 is switched to the position in which the sample is introduced into the separation columns 10 by carrier gas. , from which the separated components come in time |) one detector 11, and then in the measuring cells 14 of the detector 12 of thermal conductivity.

The process of cleaning the carrier gas from impurities and regenerating the 9 filters is carried out at room temperature, i.e., without additional heating of the carrier gas. This is due to the fact that the adsorption of impurities on the adsorbents is carried out at high m. Pressure, and their desorption is carried out at relatively low pressure.

By passing a low pressure carrier gas through the filter, impurities are removed, 11. I-1P) Ie earlier, to a new equilibrium value with the concentration of these impurities in the carrier gas.

The chromatograph does not require the use of high purity carrier gas and bulky and energy-intensive purification systems. The carrier gas used is technical argon, produced by industry,

Claims (2)

Invention Formula I. Gas chromatograph containing a source of high-pressure carrier gas sequentially installed in the main gas line, a cleaning filter installed on the high-pressure line, a pressure regulator, a metering unit, columns, a heat detector. Comparative and measuring cell conductivities and a discharge detector, characterized in that, in order to increase the reliability of the chromatograph and reduce the flow of carrier gas, it is equipped with an additional gas line with a second filter, d. 1 gas purification, the pressure regulator is made with two outputs, the first of which is connected to the chromatographic column and the metering device and the measuring chamber of the detector, and the second to the additional gas line connected to the comparative chamber of the katharometer and a two-position switch that connects both filters alternately with main and additional gas lines. four 2. The chromatograph according to claim 1, differs by the fact that it is equipped with a second gas line from the source of the carrier gas through the choke with the first additional gas line. i6