RU2660392C1 - Planar microdoser with changing fixed amount of analyzed gas in dose - Google Patents

Abstract

FIELD: test and measurement equipment.

SUBSTANCE: invention relates to devices for introducing gaseous samples into a gas chromatograph. Planar microdoser contains channels for a fixed volume of the dose and connecting gas flows, switching of which is carried out by two 3-way pneumatic distributors with electric control. Channels for gas flows are made by micro milling on a flat plate of the Peltier element, serving both for heating and cooling the microdoser, and the temperature controller maintains the fixed temperatures of the microdoser to change the amount of gas in the sample dosed to the chromatograph for analysis.

EFFECT: invention can be used for the quantitative analysis of multicomponent complex mixtures in various industries: chemical, oil, gas, food, medicine, ecology, etc.

1 cl, 4 dwg, 1 tbl

Description

The invention relates to analytical instrumentation, namely, devices for introducing gaseous samples into a gas chromatograph, and can be used for the quantitative analysis of multicomponent complex mixtures in various industries: chemical, petroleum, gas, food, medicine, ecology, etc.

Known metering valves with interchangeable doses of various designs for introducing gaseous samples into the chromatograph (see: Instruments for chromatography. / Sakodynsky K.I., Brazhnikov V.V., Burov A.N., Volkov S.A., Zelvensky V. Yu. M.: “Mechanical Engineering”, 1973. P. 24-42).

A disadvantage of the known metering valves is their use only for direct input of gaseous samples into columns filled with sorbent.

Gas and vapor dispensers for gas chromatography are also known, used both with sorbent-filled columns and with capillary columns (see: Gas chromatography with examples and illustrations: Textbook / B. Kolb; trans. From German S. Yu. Kudryashov; Edited by L.A. Onuchak; 2nd ed., revised and revised - Samara: Samara University Publishing House, 2007. P. 123-129).

The metering valve of the HT-4 chromatograph for analysis of flue gases is also known, in which all gas channels are made on fluoroplastic sheet pressed from both sides to seal with metal plates. Switching of gas flows is carried out by pneumatic control valves with electric control (see: Arutyunov Yu.I. Chromatographic measurement of the composition of oil gases. M: Nedra, 1987. S. 196-198).

However, the known metering valves at the time of switching from the operation “set” to operation “analysis” briefly turn off the flow of carrier gas through the chromatographic column, which violates the dynamic equilibrium and causes instability in the measurement of the output signal. In addition, well-known metering valves are not suitable for direct injection of gaseous samples into capillary and micronodule columns without prior dividing the flow.

The closest to the invention in terms of essential features is the metering valve (injector) of the EnCal 3000 Elster Instromet gas chromatograph (see: EnCal 3000. Instruction manual. Ver. 1.3. User manual http://new.bacs.ru/sales/ Encal3000manualRus.pdf).

The well-known injector is made by MEMS technology (Micro-Electro-Mechanical Systems) on a thermostatically controlled silicon wafer, on which channels of the dosing volume and gas connections are exposed. The injector is equipped with two 2-way diaphragm valves and one 3-way valve. All valves are pneumatically operated. The injector uses a method of introducing a gas sample into a chromatographic column by the pressure drop at the additional pneumatic resistance (limiter) in the carrier gas line in front of the chromatographic column without shutting it off.

A disadvantage of the known injector is the inability to change a fixed amount of the analyzed gas sample in a dose of a constant volume.

The objective of the invention is to expand the functionality of the microdoser by changing the amount of the analyzed gas in a dose of a fixed volume when the temperature changes.

When solving this problem creates a technical result, which consists in the following:

1. Simplification of the design of a planar microdoser associated with the use of two 3-way pneumatic valves with electric control instead of two diaphragm and one 3-way pneumatically controlled in the prototype.

2. Expanding the functionality of the microdoser due to a fixed change in the amount of the analyzed gas in the dosing channel when the temperature of the microdoser changes.

The technical result is achieved due to the fact that in a planar microdoser containing a thermostatically controlled flat plate with a metering channel of a fixed volume and channels connecting gas flows, which are installed with the possibility of switching using pneumatic valves, and the input of the channel leading to the chromatographic column is connected to the line channel carrier gas through pneumatic resistance, also includes two 3-way electrically operated pneumatic directional valves, channels for gas flows and metering The first channel of a fixed volume is made by micromilling on a flat plate of a Peltier element mounted with the possibility of heating and cooling the microdoser, and the microdoser also contains a temperature regulator that is installed with the ability to maintain a fixed temperature of the microdoser.

The invention is illustrated by the following drawings.

In FIG. 1 (planar microdoser, front view), a planar microdoser with a change in a fixed amount of the analyzed gas in a dose is schematically shown. In FIG. 2 shows a planar microdoser, bottom view. In FIG. 3 (section of a thermostated plate) shows the switching of channels during the operation "set". In FIG. 4 (section of a thermostated plate) shows the switching of channels during the operation "analysis".

The microdoser contains a flat thermostatically controlled plate of the Peltier element 1 with channels for gas flows 2, including a pneumatic resistance 3 and a metering channel of a fixed volume 4 for the analyzed gas sample, which are sealed with a glass plate 5. Two electrically controlled pneumatic valves 3/6 are installed on the plate. In addition, the planar microdoser contains a temperature controller 7 with a fixed temperature setter 8.

The geometry of the channels for gas flows of 0.5 × 0.5 mm, a dose of a fixed volume of 1.0 × 2.0 × 25 mm, which corresponds to a dose volume of 50 μl. Pneumatic resistance 3 has dimensions: 0.2 × 0.2 × 50 mm.

A planar microdoser with a change in a fixed amount of the analyzed gas in a dose works as follows.

Operation "set". The electrical control is turned off and the air valves 6 are in the position indicated in FIG. 3. The analyzed gas fills the metering channel 4 through the open gas channels of the pneumatic distributors 6. At this time, the carrier gas enters through the pneumatic resistance channel 3 into the chromatographic column.

Operation "analysis". The electrical control is turned on, and the pneumatic valves 6 are switched to the position when the analyzed gas ceases to circulate through the metering channel 4 (see Fig. 4). The analyzed gas sample from the metering channel 4 under the influence of the carrier gas pressure and the pressure drop on the pneumatic resistance channel 3 enters the chromatographic column for analysis without shutting off the carrier gas stream. When the entire sample of the analyzed gas passes into the column (no more than 1.5-2 seconds), the pneumatic valves 6 de-energize and the operation “recruitment” is performed again.

The temperature controller 8 of the temperature controller 7 provides five fixed values of the temperature of the microdoser: 40, 60, 80, 100 and 120 ° C. This number of fixed temperatures is taken from the condition for constructing the calibration characteristic for n≥5 points. With increasing temperature, the amount of the analyzed gas in the dosing channel decreases in accordance with the equation of gas state.

An experimental assessment of precision under the conditions of repeatability of the known and proposed planar microdoser with a change in a fixed amount of the analyzed gas in the dosing channel was carried out using an example of an analysis of a propane gas mixture (ASG) in air with a concentration of 0.2% volume. The experiment was carried out on a Kristall-5000.1 gas chromatograph, ZAO SKB Khromatek, using a microchromatographic column on a plane with nanosized silica (Aerosil A-175), length 2 m, cross section 0.2 × 0.2 mm at 40 ° FROM. Carrier gas helium with a flow rate of F _c = 2 cm ³ / min, thermal conductivity detector (DTP). Based on the results of 10 CBC analyzes, the relative mean square deviation (CES) of the arithmetic mean of the measurement of the area Sr (A) and the height Sr (h) of the chromatographic peak of propane in percent was calculated:

where x is the area or height of the chromatographic peak of propane in the sample; x _cf - the arithmetic average of the area or peak height of propane from n = 10 measurements.

The experimental results are presented in table 1.

As can be seen from the data in table 1, the precision of measuring the area and height of the chromatographic peak of propane at 40 ° C, associated with random component errors in the magnitude of the volume of the introduced sample, changes in flow rate, pressure, and most important temperature for the proposed planar microdoser is about 1.5 times less than for a known dispenser. This is apparently due to the fact that the proposed microdoser uses a Peltier element for heating and cooling, which maintains the temperature of the microdoser with minimal disturbances.

The precision of measuring the area and height of the chromatographic peak of propane at 60, 80, 100 and 120 ° C varies by no more than 1.2 times for the proposed microdoser.

The use of the proposed planar microdoser with a change in a fixed amount of the analyzed gas in the dose will contribute to the creation of metrologically sound methods for performing chromatographic measurements for various specific (target) analytical tasks, including express methods of analysis with short capillary and micropacking columns of various technological objects and field analysis with portable instrument configuration.

Claims (1)

A planar microdoser containing a thermostatically controlled flat plate with a metering channel of a fixed volume and channels connecting gas streams that are installed with the possibility of switching using pneumatic valves, while the input of the channel leading to the chromatographic column is connected to the channel of the carrier gas line through a pneumatic resistance, characterized in that consists of two 3-way directional valves with electric control, channels for gas flows and a metering channel of a fixed volume in Full mikrofrezerovaniya method on a flat plate of the Peltier element mounted for heating and cooling the pipettor, the pipettor also comprises thermostat which is set to maintain a fixed temperature pipettor.

Images