SU1073702A1 - Gas chromatograph - Google Patents

Abstract

A GAS CHROMATOGRAPH, containing a shunt measuring unit, equipped with a programmer, and an analytical sensor, includes a condenser, a pressure regulator and a noirmtel installed in the speaker of the product undergoing analysis, connected to a meter located in the sensor thermostat, connected to the analyzer programmer and calibrated with the transmitter. which is in:; the suitcase of the channel of the channels, the low-pressure zone is connected to the source of the carrier gas to the separation column, while in another the channels of the metering device are connected with the atmosphere, characterized in that When it comes to analyzing condensable pelvic mixtures, it is equipped with safety valves that are connected to the prog ramator n (installed in the remote evaporator lines and the condenser, which is located in the thermostat of the datacom, at the half of the dosing channel of the spacing unit and the adapter. With a pressure switch, and with a fug of the channels of the dispenser, the condenser is connected with a calibrated volume, with a test analysis programmer connected to the control input of the pressure regulator associated with the evaporator.

Description

This invention relates to chromatographs that can be used in the petrochemical, oil refining and other industries to analyze gas mixtures containing their condensable components. At a temperature close to the temperature of the analysis.

A known chromatograph contains a thermostat with a detector column, a column, and a dispenser connected to the line of the analyzed product, in which an evaporator is installed. In such chromatographs, with the aid of an evaporator, the analyzed product is maintained in a single-phase (vapor) state, which allows the toodo and reliable dosage of the analyzed product at high temperatures inside the thermostat (1. However, when, according to the conditions of the analysis, the temperature of the thermostat is below the condensation temperature some of the components, the mixture being analyzed, pr 5 is the development of a decrease in accuracy, and in some cases the performance of the described chromatograph is lost due to the accumulation of condensate in the cells of the dispenser and in the inlet The closest to the invention is a chromatograph containing a measuring unit equipped with a programmer, and an analytical sensor including a condenser installed in the product line, a pressure regulator and an evaporator connected to a metering device located in the sensor thermostat associated with the analyzer programmer and the calibrated volume, which in one position of the channels of the dispenser is connected to the source of gas-carrier and the separation column, and in the other position of the channels of the dispenser is connected to the atmosphere 2. In it works in the condenser (refrigerators nickname) of said chromatograph liquid phase formed by the condensation of the impurities e.g. Cg and C, of a mixture of lighter hydrocarbons to Cn is separated or gas phase which is fed to the dispenser. However, due to the low performance of non-stationary refrigerators, which include the condenser of a known chromatograph, the continuous flow of the analyzed product, coming from the condenser to the dispenser, carries with it condensation of heavy components accumulating with time in the channels of the dispenser and especially in the narrow channels of the fittings; partially or completely terminates sample access to the dispenser. This reduces the accuracy and superficial operation of the described chromatograph. The purpose of the invention is to increase the accuracy and reliability of the analysis of condensing gas mixtures.

The goal is achieved by a gas chromatograph containing a measuring unit equipped with a programmer and an analytical sensor including a capacitor installed in the analyzer line, a pressure regulator and an evaporator connected to a dispenser placed in the sensor thermostat, connected to the analysis programmer and calibrated volume, which in one position of the dispenser channels is connected to the source of carrier gas And the separation column, and in another position, the research institute of the dispenser channels is connected to the atmosphere (|) of the air, equipped with valves connected to the programmer and installed in the drainage lines of the evaporator and condenser, which is placed in the sensor thermostat and connected at one position of the metering channels to the evaporator and pressure regulator, and: in a different position of the channels of the proportioner, the condenser is connected to a calibrated volume, at In this case, the analysis programmer is connected to the control input of the pressure regulator connected to the evaporator. The drawing shows a diagram of the previous chromatograph. The device contains a measuring unit 1, equipped with an analysis programmer 2, an analytical sensor 3, which includes a pressure controller 4 installed in the line of the product being analyzed with a control input Rc and an evaporator 5. connected through a heated explosion-proof brush 6 with a dispenser 7, equipped with a calibrated volume (vine) 8, which is located in the thermostat 9 of the sensor 3. In the thermostat 9 there is also a separator column 10 connected to the detector P to the condenser 12, made in the form of a cannon-water suppressor with a drain check valve 13. Dispenser fittings 7 plug; respectively: fitting 14 and 15 - to the vine 8, fitting 16 to HCTOuiHK) 17 carrier gas, fitting 18 - to the separation column 10, fitting 19 - to the exhaust to the candle (made in the tube, the end of which is displayed on the end; enn - According to the safety conditions, the height of the valve is 20) and 20) and 21 to the input and output of the capacitor 12, schtuyer 22 to the heated explosion-proof connector 6, fitting 23 to the outlet of the pressure regulator 4, and MSW 24 and 25, a jumper is installed; channels 27--31, which are switched by means of the control The actuator 32. The control actuator 32, the inlet Rc and the control inputs of the shut-off valves 13 and 33, the last of which is installed in the drainage line of the evaporator 5, are connected to the corresponding ways of the analysis programmer 2. The chromatograph proceeds as follows.

In the initial (first) position of the spool 26, the calibrated volume 8 through the channels 28 and 29 is connected respectively to the carrier gas separator 17 and the separation column 10, the input of the capacitor 12 through the channel 30 connecting the fittings 20 and 22, through the heated fitting 6 of the thermostat 9 is connected to the evaporator 5, and the outlet of the condenser 12 through the channel 31 is connected to the pressure regulator 4. The pressure regulator 4, which is powered from the compressed air source, maintains a constant pressure in the condenser 12 set by the internal spring and controlling the pressure m Py analysis programmer 2. When you turn on the programmer analysis 2

single control signals P 2 are generated which block the shut-off valves 13 and 33, and the analog pressure signal Rc, which is greater than the pressure in the drain lines at the outlets of the evaporator 5 and the condenser 12. As a result, the pressure regulator 4 forms the purge pressure Pj, allowing Blow through all the cavities of the half-blood system and sample dosing (channels 30 and 31 of the dispenser 7, internal cavities of the condenser 12 and evaporate l 5). When the P and P (P, P: 0) signals are disconnected, the Pb signal is formed, which reduces the purge pressure P ,. , the analyzed product enters the evaporator 5, where the evaporation of the liquid phase (hydrocarbons Cd, C,), which may be present in the main product (hydrocarbons Sc), takes place. The mixture is then analyzed in a single-phase state (steam) through a heated gas generator 6, which protects from condensation of heavy components, enters the condenser 12, where the liquid phase separates from the vapor as a result of the thermostat temperature (Tu) determined by methods ana; 1iza (plus 40 C) is less than the condensation temperature Cg and with about 2 kg / cm of the analyzed product.

From the outlet of the condenser 12, the product to be analyzed is channeled through the channel 31 and the pressure regulator 4 to the candle. Then, the programmer of analysis 2 rewinds the spool 26 to a second position at which one end of the dose is 8. through channel 29 and fittings 15 and 19. dispenser 7

soesgngigts with the atmosphere, and the other valleys 8 through the channel 28 and the connectors 14 and 20 are connected to the input of the capacitor 12, the output of which is at the same time muted. The separation column 10 is connected through channel 27 to a carrier gas source 7. At the same time, the output of the evaporator 5 through channels 30 and 31 is connected to pressure regulator 4, which discharges the analyzed product, diluted with air, to the candle (with a small consumption of the analyzed product - 2 l / h, this is permissible). In the second position, the dose 8 is also filled with the gas phase coming from the condenser 12, until the excess pressure in it is equalized with the atmospheric one. From the second position, the spool 26 returns to. The first position, in which the product being analyzed is transferred from a dose of 8 by a carrier gas stream to separation column 10. Then the signals P, K RL again take on single values (P:; r P, 2 1), and the control signal Rc again becomes equal to P whereby the sample preparation and pre-test system is blown with compressed air. The analysis program is designed so that the period between the purge slides is minimal (no more than 1.5 minutes). This time is enough for the set of the analyzed product in the condenser 12 in the first position, equalizing the overpressure in it to atmospheric (second position) and introducing the sample into the separating cap 10 (first position).

Compared to the prototype, the accuracy and reliability of operation in analyzing condensable gas mixtures is increased in the breech device, because in each analysis cycle the dozagory channels, the condenser and the evaporator are blown off with air, therefore the bottom of the condensate components are 3 of these; channels does not occur. Besides; The analyzed product is evaporated into the thermostat fitting to evaporate to a single phase state, as a result of which there is no condensate inside the tube;

Compared with the base object, the NefgehimSKEGG chromatograph is accepted as a coherent device, the proposed device provides improved accuracy and reliability.

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Claims (1)

A GAS CHROMATOGRAPH containing: a measuring unit equipped with a programmer and an analytical sensor including a condenser installed in the line of the analyzed product, a pressure regulator and an evaporator connected to a dispenser located in the sensor thermostat, connected to the analysis programmer and calibrated volume, which in one the position of the dispenser channels is connected to the carrier gas source and the separation column, and in the other position of the dispenser channels it is connected with the atmosphere, characterized in that, in order to increase the accuracy and the operation time when analyzing condensing gas mixtures, it is equipped with shut-off valves connected to the programmer and installed in the drain lines of the evaporator and condenser, which is located in the sensor thermostat and is connected at one half-dosing of the dispenser channels with the evaporator and pressure regulator, and with a different channel position the condenser is connected to the calibrated volume, while the analysis program is connected to the control input d of the pressure regulator connected to the evaporator. ⁼ 1,073,702 A