SU1323947A1 - Gas chromatograph - Google Patents

Abstract

This invention relates to gas chromatography. The aim of the invention is to improve the measurement accuracy. In the gas chromatograph, between the pressure regulator and the sample inlet unit, a controlled pneumatic resistance is switched on, the value of which varies according to the error signal from the output of the comparison element, proportional to the difference between the actual and set values of the gas flow. Compensation for changes in the flow rate of the carrier gas is made taking into account changes in atmospheric pressure and ambient temperature. 1 il. Co Is5 CO Co N4 ::

Description

The invention relates to an analytical instrumentation, namely gas chromatography.

The aim of the invention is to increase

magnitude. The voltage from the output of the adder 12 is applied to one of the inputs of the comparison element 10, to the second input of which the voltage is supplied from the output of the chromatograph by providing the 5 distributor 9 pressure-voltage proportional to the actual value of the pressure drop at the pneumatic resistance 7. Output signal Comparison element 10 is fed to the input of amplifier 11. The signal from the output of the amplifier is fed to the control

cost of carrier gas flow through the separation column and detector when the column conductivity, pneumatic resistance and atmospheric pressure are changed.

The drawing shows the structural input of the control actuator - the scheme of the proposed chromatograph. Pneumatic resistance 4, the value of the co-chromatograph consists of the control unit 1 changing in proportion to the voltage and connected in series to the source input carrier gas 2 , an inlet pressure regulator 3, a controllable resistance of resistance 4, a sample inlet 5, a separation column 6 placed in a thermostat with a programmable temperature, a resistance 7 and a detector 8, placed in a common thermostat, the temperature of which is selected depending on the accelerator pressure drop across the pneumatic resistance of the analysis, the transducer 9 - pressure 7 becomes equal to the specified one.

When using the proposed gas chromatograph, the gas flow rate through the chromatographic column and detector is ensured during operation in the isometric mode and in the column temperature programming mode. The device provides the ability to quickly set and control

Tenso modules D2, 5А1 or ТО, Т1, Т2 can be used as a pressure-voltage converter.

Thus, the error signal from the output of the comparison element 10 changes the value of the pneumatic resistance 4 to a value, with kneeling voltage, comparison element 10, amplifier 11, adder 12, flow setting unit 13 and atmospheric pressure-voltage converter 14.

works as follows

25

Chromatograph way.

The carrier gas from the source 2 through the pressure regulator 3 and controlled pneumofactual flow rate of the carrier gas at

resistance 4 is supplied to device 5. Q. This eliminates the influence of the atmospheric pressure of the sample, and from it through the separation column 6 and the pneumatic resistance 7 to the detector 8. The flow rate of the carrier gas flowing through the separation column 6 and detector 8 will be constant in the case of maintaining a constant pressure drop of 35 on pneumatic resistance 7 and a constant viscosity and density of the gas, which depend on the temperature of the pneumatic resistance and atmospheric pressure. According to the analysis conditions, the flow rate of galeny and the ambient temperature per gas flow rate is required; the actual flow rate does not depend on the temperature of the detector, which may vary widely depending on the conditions of the analysis.

Claims (1)

Invention Formula A gas chromatograph containing a control unit and series-connected source of carrier gas, inlet pressure regulator, sample inlet unit, carrier separator is specified by the operator in block 13 40 column, pneumatic resistance and flow rate detector. Here, a voltage is formed, characterized in that, in order to increase the measurement accuracy, a pressure-voltage converter connected to the output of a separation column is introduced into it, This corresponds to the value of the pressure drop across the pneumatic resistance 7, which provides the specified flow rate. if the temperature of the pneumatic resistance is 7. with controlled pneumatic resistance, it is equal to 20 ° C, and the atmospheric pressure is equal to - but 760 mm Hg. Art. This voltage is applied to one of the inputs of the adder 12, to the other input of which a compensating voltage is applied from block 1 controlled between the pressure regulator and the sample introduction unit, the atmospheric pressure-voltage converter, the flow reference unit, the adder, the reference element and the amplifier, the first, second and trunks, proportional to the change in temperature, the inputs of the adder are connected to the pneumatic resistance 7, and at the output of the converters, the input voltage is applied to compensate for the change in atmospheric pressure. Fernie pressure. At the output of the adder 12, a voltage proportional to the pressure differential is formed, at which (taking into account the influence of the reference element at- 55, the output of which is the co-pressure and temperature, is pneumodyne with the input of the amplifier, and the output of the resistor 7) the coil is connected to the control input 7 that will correspond to the set controlled pneumatic resistance. atmospheric pressure, flow setting unit and control unit, the output of the adder and the output of the pressure-voltage converter are connected to the inputs magnitude. The voltage from the output of the adder 12 is applied to one of the inputs of the comparison element 10, to the second input of which the voltage is supplied from the output of the pressure 9 converter, the pressure 9 generator, the proportional voltage 9 proportional to the actual value of the pneumatic resistance 7. The output signal of the comparison element 10 is fed to the input of the amplifier 11. The signal from the output of the amplifier is fed to the control . the input of the actuator of the controlled pneumatic resistance 4, the value of which varies in proportion to the voltage supplied to the control input, the torus differential pressure across the pneumatic resistance 7 becomes equal to the specified one. Tenso modules D2, 5А1 or ТО, Т1, Т2 can be used as a pressure-voltage converter. Thus, the error signal from the output of the comparison element 10 changes the magnitude of the pneumatic resistance 4 to a value at a co-factual flow of carrier gas, at This eliminates the effect of atmospheric pressure and ambient temperature on gas flow; the actual flow rate does not depend on the temperature of the detector, which may vary widely depending on the conditions of the analysis.     - between the pressure regulator and the sample introduction unit, the atmospheric pressure-voltage converter, the flow reference unit, the adder, the reference element and the amplifier, the first, second and third inputs of the adder are connected respectively to the outputs of the converter of the comparison element, the output of which is It is connected to the input of the amplifier, and the output of the amplifier is connected to the control input of the controlled pneumatic resistance. atmospheric pressure, flow setting unit and control unit, the output of the adder and the output of the pressure-voltage converter are connected to the inputs