RU64782U1 - DIFFUSION-MEMBRANE ANALYZER OF MOLECULAR MASS OF LIQUID MEDIA - Google Patents

Abstract

The utility model is aimed at improving molecular weight analyzers for liquid media based on diffusion through a porous membrane. Molecular mass analyzer of liquid media, containing the analyte and carrier gas chambers with inlet and outlet channels separated by a porous membrane, the analyte and carrier gas lines, a device for introducing a liquid sample, the output of which is connected to the analyte line, divider flow at laminar chokes, automatic gas detector with signal output, integrator, computing divider, quadrator, the output of which is connected to the input of the recorder. The analyzer uses an automatic differential gas detector with measuring and comparative cameras, and the analyzer additionally contains three columns, a tee, an electric switch and two computing memories, while the input of the flow divider is connected to the output of the analyte line, one of its outputs is connected through the first column and a tee with the input of the measuring chamber of an automatic differential gas detector, the output of which is connected to the atmosphere, another output of the divider the outflow is connected through the second column to the input channel of the analyte chamber, the output channel of which is connected to the atmosphere, the input of the comparative chamber of the automatic diffusion gas detector is connected to the carrier gas line, the output to the input channel of the carrier gas, and the output channel

of this camera through a third column is connected to a tee, the signal output of an automatic diffusion gas detector through an integrator is connected to the input of an electric switch, the outputs of which are connected to the inputs of two computing storage devices, the output of one of which is connected to the input "divisible", and the output of the other to the input A “divider” of a computing dividing device, the output of this device being connected to the input of a quad. 1 ill.

Description

The utility model relates to the field of analytical technology, namely to means for measuring molecular weight.

A known analyzer of the molecular mass of liquid media (RU No. 1541 G01N 30/00, 1996), which allows to determine the molecular weight of the compounds and containing the chamber of the analyte and the carrier gas with inlet and outlet channels, separated by a porous membrane, the lines of the analyte and the carrier gas and two identical automatic gas detectors with signal outputs, in which the carrier gas line is connected to the input channel of the carrier gas and the output channel of this camera is connected to one of the gas automatic detectors. The analyzer is based on measuring the time of vapor diffusion of an analyte through a porous membrane, which is carried out using two signal differentiators of the detectors and an electronic time counter. In addition, to obtain information about the molecular mass, the measured time interval is squared.

The disadvantages of this analyzer include the use of two automatic gas detectors, the complexity of the device, the need to measure very short time intervals (0.5-2 s) and the operation of signal differentiation, which, as you know, does not have high noise immunity.

The closest in technical essence is the analyzer of the molecular mass of liquid media (RU No. 45533, G01N 30/00, 2004), containing the chamber of the analyte and the carrier gas with input

and output channels separated from each other by a porous membrane, lines of the analyte and carrier gas, a device for introducing a liquid sample, the output of which is connected to the line of the analyte, a flow divider on laminar chokes, an automatic gas detector with a signal output, an integrator, computational fission device, a quadrator, the output of which is connected to the input of the recorder. The analyzer also uses an additional automatic gas detector to receive a signal of measurement information after the diffusion process. The analyzer is based on the determination of the signal areas of two automatic gas detectors for a standard substance and an analyte. In addition, to obtain information about the molecular weight, squaring the area ratio of the signals is carried out.

The disadvantages of this analyzer are the complexity of the device, the need to use two automatic gas detectors and the complexity of the measuring system.

The objective of the utility model is to improve the analyzers of the molecular mass of liquid media based on diffusion through a porous membrane.

The technical result is the creation of a simple and reliable diffusion-membrane analyzer of the molecular mass of liquid media.

The technical result is achieved by the fact that the analyzer containing the chamber of the analyte and the carrier gas with input and output channels separated from each other by a porous membrane, the line of the analyte and the carrier gas, a device for introducing a liquid sample, the output of which is connected to the line of the analyte , flow divider on laminar chokes, automatic gas detector with signal output, integrator, computing divider, quadrator, the output of which is connected to the input

according to the utility model, an automatic differential gas detector with measuring and comparative cameras is used as an automatic gas detector, and the analyzer additionally contains three columns, a tee, an electric switch and two computing storage devices, while the input of the flow divider is connected to the output of the analyte line , one of its outputs is connected through the first column and tee to the input of the measuring chamber of an automatic differential gas a detector, the output of which is connected to the atmosphere, another output of the flow divider is connected through the second column to the input channel of the analyte chamber, the output channel of which is connected to the atmosphere, the input of the comparative chamber of the automatic diffusion gas detector connected to the carrier gas line, the output to the input channel carrier gas chamber, and the output channel of this chamber through the third column is connected to the tee, the signal output of the automatic diffusion gas detector through the integrator is connected to input electric switch, the outputs of which are connected to the inputs of two storage computational device, one output of which is connected to the input of "dividend" and the other output - to the input of "divider" computing divider, the output of this unit is connected to the input of the quad.

Such a design makes it possible to simplify the process of determining molecular weight due to the fact that it provides its determination from the ratio of the areas of one detector, determined using an integrator. In addition, the proposed design makes it possible to use any detecting devices, which, in turn, makes it possible to determine the molecular weight of substances of any classes.

Compared with the prototype, the claimed design has a distinctive feature in the totality of the elements and their relative position.

The analyzer circuit is shown in figure 1.

The molecular mass analyzer of liquid media contains chambers of the analyte 1 and carrier gas 2 with input 3 and 4 and output channels 5 and 6, separated from each other by a porous membrane 7, lines of the analyte 8 and carrier gas 9, a device for introducing a liquid sample 10 with output 11, flow divider 12 on laminar chokes 13 and 14, automatic gas detector 15 with signal output 16, integrator 17, computing divider 18, quadrator 19, output 20 of which is connected to input 21 of recorder 22. Automatic differential gas detector 15 has a measuring 23 and comparative cameras 24. The analyzer further comprises columns 25, 26 and 27, a tee 28, an electric switch 29 and two computing storage devices 30 and 31. The input 32 of the flow divider 12 is connected to the line of the analyte 8, it the output 33 is connected through the column 25 and the tee 28 to the input 34 of the measuring chamber 23 of the automatic differential gas detector 15, the output 35 of which is connected to the atmosphere, the output 36 of the flow divider 12 is connected through the column 26 to the input channel 3 of the anal ziruemogo substance 1, output channel 5 is connected with the atmosphere. The input 37 of the comparative chamber 24 of the automatic diffusion gas detector 15 is connected to the carrier gas line 9, and its output 38 is connected to the input channel 4 of the carrier gas 2, and the output channel 6 of this chamber is connected through a column 27 to a tee 28. Signal output 16 automatic diffusion gas detector 15 through an integrator 17 is connected to the input 39 of the electric switch 29, the outputs 40 and 41 of which are connected to the inputs 42 and 43

two computing storage devices 30 and 31. The output 44 of the computing storage device 30 is connected to the input "dividend" 45, and the output 46 of the computing storage device 31 is connected to the input "divider" 47 of the computing sharing device 18, and the output 48 of this device is connected to input 49 quadrator 19. The analyzer also includes a gas supply unit 50.

The work of the analyzer of the molecular mass of liquid media is as follows.

Carrier gas is continuously supplied to the input 37 of the comparative chamber 24 of the automatic gas detector 15 from the gas supply unit 50 through the carrier gas line 9; from the outlet 38 of this chamber, the carrier gas is fed to the input 4 of the carrier gas 2. A sample of the analyzed liquid is injected into the syringe a device for introducing a liquid sample 10, in which the liquid sample is converted to steam, and the gas flow coming from the gas supply unit 50, from the output 11 of the device for introducing a liquid sample 10 through the line of the analyte 8, the analyte is fed into the stroke 32 of the flow divider 12, where through the laminar chokes 13 and 14 the gas stream is divided into two parts. One part enters through the column 25 and tee 28 to the input 34 of the measuring chamber 23 of the automatic gas detector 15, where the first measurement information signal occurs. Another part of the analyte from the output 36 of the flow divider 12 through the column 26 is fed to the input 3 of the chamber of the analyte 1. In the chamber 1, part of the analyte diffuses through the porous membrane 7 into the chamber of the carrier gas 2. From the exit 6 of the chamber of the carrier gas 2, the mixture diffused the analyte and carrier gas enters through the column 27 and the tee 28 to the input 34 of the measuring chamber 23 of the automatic gas detector 15, where the second signal of the measuring information occurs. From signal output 16

automatic gas detector 15 through the integrator 17, to obtain the signal area, the first measurement information signal is fed to the input 39 of the electric switch 29, which switches the signal to its output 40, connected to the input 42 of the computing storage device 30. Coming from the signal output 16 of the automatic gas detector 15 through the integrator 17, the second measurement information signal is supplied to an electric switch 29, which commutes it to its output 41, connected to the input 43 will calculate memory device 31. From the outputs 44 and 46 of the computing memory devices 30 and 31, the signals are supplied respectively to the inputs of the "dividend" 45 and the "divider" 46 of the computing division device 18. The signal from the output 48 of the computing division device 18 is fed to the input 49 of the square 19, then from the output 20 of the quadrator 19 - to the input 21 of the recorder 22. Columns 25, 26 and 27 are designed to obtain the time interval between the first and second signals of the measurement information.

Molecular mass is determined by the formula;

where: μ is the molecular weight of the analyte;

S ₁ , S ₂ - the area of the first and second signals, respectively;

K is the conversion coefficient determined by analysis of the reference substance.

The advantage of the proposed technical solution:

- use of one differential gas detector;

- expressity;

- high accuracy.

The proposed molecular weight analyzer can be implemented on standard blocks of chromatographic analyzers, such as thermostats, detectors, integrators.

It can be used to determine the molecular masses of liquid substances in factory research laboratories, in the oil refining, petrochemical and chemical industries.

Claims (1)

Molecular mass analyzer of liquid media, containing the analyte and carrier gas chambers with inlet and outlet channels separated by a porous membrane, the analyte and carrier gas lines, a device for introducing a liquid sample, the output of which is connected to the analyte line, divider flow on laminar chokes, automatic gas detector with signal output, integrator, computing divider, quadrator, the output of which is connected to the input of the recorder, different t We note that an automatic differential gas detector with measuring and comparative cameras is used as an automatic gas detector, and the analyzer additionally contains three columns, a tee, an electric switch, and two computing storage devices, while the input of the flow divider is connected to the output of the analyte line, one of its outputs are connected through the first column and tee to the input of the measuring chamber of an automatic differential gas detector, the output of which is connected is connected with the atmosphere, the other output of the flow divider is connected through the second column to the input channel of the analyte chamber, the output channel of which is connected to the atmosphere, the input of the comparative chamber of the automatic diffusion gas detector connected to the carrier gas line, the output to the input channel of the carrier gas and the output channel of this chamber through the third column is connected to the tee, the signal output of the automatic diffusion gas detector through the integrator is connected to the input of the electric switch of Tell, the outputs of which are connected to the inputs of two storage computational device, one output of which is connected to the input of "dividend" and the other output - to the input of "divider" computing divider, the output of this unit is connected to the input of the quad.