SU1088486A1 - Gas chromatograph - Google Patents

Abstract

A gas chromatograph containing a series-connected source of carrier gas, a pressure regulator, a sample probe device, an i-column installed in a thermostat, and a detector, characterized in that, in order to increase the accuracy of the analysis by stabilizing the volume of gas carrier through the chromatographic column programming its temperature, a five-membrane comparison element is introduced into it, and a gas-tight container filled with gas, the input of the five-membrane comparison element being connected to the line the source of the carrier gas, one of the plus chambers of the 5membrane element is connected to the outlet of the pressure regulator, the other to a sealed container filled with gas, which is installed in the thermostat of the chromatographic column, and the output of the 5th membrane-based comparison element is connected to the inlet of the probe-side device. 00 QO "00 Od

Description

The invention relates to gas chromatography and can be used in chromatographs that use the programmed mode of changing the temperature of a column thermostat during analysis. A gas chromatograph is known, a content control unit and a serially connected source of carrier gas, an input pressure regulator, a sample introduction unit, a separation column, pneumatic resistance, detector as well as valves, thermostatically controlled tank and pneumatic repeater, the outlet of the column through a normal saMKriy valve is connected The thermostatted tank associated with the control input of the repeater, the output of which is connected through the normally open valve to the outlet of the column. The valves are controlled by the control unit 1. The disadvantages of the known chromatograph are the long analysis time and the low separation efficiency of the analyzed mixtures during operation programmed temperature change, since the separation of all components of the mixture being analyzed is carried out at a single, pre-determined volumetric flow rate de carrier gas, the value of which varies somewhat with increasing column temperature. A gas chromatograph is also known, containing a serially connected source of carrier gas, a pressure regulator, a probe device, a chromatographic column installed in a thermostat, and a detector 21. This gas chromatograph is chosen as a prototype. I The disadvantage of such a gas chromatograph is that when programming the temperature, the volume flow rate of the carrier gas in the column varies in steps. At the same time, during high-speed temperature programs (the heating rate of the columns is more than 10 degrees / min) in transient conditions from one stage to another, the weight flow rate of the gas flowing through the column and the detector is not maintained. Changing the gas flow rate in the detector causes a significant drift of the zero line of the instrument and reduces the accuracy of the interpretation by the chromatraff. In addition, with different methods of separation of the analyzed mixture, taking into account the speed of programming the column temperature, in each case it is necessary to adjust the optimum volumetric flow rates of the carrier gas for (different) specific time phases. analysis., and the number of parallel branches must be equal to the number of controlled components. Consequently, the well-known chromatograph in operation is complex, analytical and functional capabilities are limited, which cannot ensure the maximum possible separation efficiency of the analyzed mixture when operating in the temperature variation mode. Other disadvantages include low accuracy and reproducibility of the analysis due to the large number of controllers and the complexity of the connection scheme of individual nodes of the chromatograph. The aim of the invention is to improve the accuracy of the analysis by stabilizing the volumetric flow rate of the carrier gas through the chromatograph column. This goal is achieved in that a gas chromatograph containing a carrier gas source connected in series, a pressure regulator, a sample probe device, a chromatographic column installed in a thermostat, and a detector are additionally equipped with a five-membrane comparison element and a sealed container filled with gas, the inlet A five-membrane comparison element is connected to the carrier gas supply line, one of the plus chambers of the five-membrane element is connected to the output of a pressure regulator, the other with a sealed The tank filled with gas, which is installed in the thermostat of the chromatographic column, and the output of the five membrane element. The comparison element is connected to the inlet of the probe input device. The drawing shows the scheme of the proposed chromatograph. The chromatograph contains a source of carrier gas 1, a pressure regulator 2, a five-membrane comparison element 3, a probe output device 4, a chromatography column 5 and a constant tank 6 placed in a programmable temperature thermostat 7, a detector 8 placed in a thermostat 9

Claims (1)

A gas sequentially connected source of carrier gas, a pressure regulator, a sampling device, a chromatographic column installed in a thermostat, and a detector, characterized in that, in order to increase the accuracy of the analysis by stabilizing the volume flow of the gas carrier through the chromatographic column when programming its temperature temperature, a five-membered comparison element and a sealed container filled with gas are introduced into it, and the input of the five-membered comparison element is connected to the line of the carrier gas source, about the bottom of the positive chambers of the five-membrane element is connected to the outlet of the pressure regulator, the other to a sealed container filled with gas, which is installed in the thermostat of the chromatographic column, and the output of the five-membrane comparison element is connected to the input of the probe device.