SU828073A1 - Pyrolizer for chromatograph - Google Patents

Description

The invention relates to chromatographic devices and can be used to analyze impurities of oil and grease in the refrigerants of closed cryogenic systems.

A device for detecting volatile organic substances, comprising a housing equipped with channels for supplying and removing gas, a heater, current leads and a detector with electron capture [1].

The disadvantage of this device is poor adsorption of low-temperature oils and lubrication of cryogenic systems and a significant error in the analysis, since small amounts of absorbed impurities fall on the heater.

Closest to the technical nature of the invention is a pyrolyzer for a chromatograph containing a housing having channels for supplying and removing gas, a heater and current leads [2].

For the analysis of microimpurities, a strictly defined amount of a concentrated impurity solution is applied to the heater, after drying, the heater is turned on and the resulting products are analyzed in a chromatograph system. The analysis of impurities of oil and grease On the known device leads to large errors, since it requires disassembly and assembly of the device for applying the sample, and there is an unrecoverable error when measuring small amounts of applied sample. In addition, during the drying process, the loss of 5 volatile sample components is possible.

The complexity of the analysis process is due to the need for separate sample preparation and work with solvents requiring high purity of reagents and 10 special equipment. In this case, an additional error arises due to the inaccuracy of the preparation of the solution. ·

Sample preparation requires 15 gas release from the system, and closed cryogenic systems have a limited amount of circulating gas, which does not allow re-analysis.

The aim of the invention is to increase the accuracy of analysis of impurities in refrigerants and reduce the complexity of the analysis process.

This goal is achieved by the fact that in the known pyrolyzer containing a housing equipped with channels for supplying and discharging gas 25, a heater and current leads, cold conductors made of a material having high thermal conductivity, such as copper, are connected to the heater spiral. The refrigerant pipes are designed for 30 cooling the heater with cryogenic liquid, for example, liquid nitrogen. In order to reduce the harmful surface of condensation, cold circuits are combined with current leads and are electrically and thermally insulated inside the housing.

To improve heat transfer with the cryogenic liquid, the cold pipes outside the housing are fins, which causes a decrease in the temperature of the heater and a more complete condensation of impurities.

The spiral of the heater is made in the shape of a cone, which avoids the screening of one turn of the heater by the other, increases the frontal surface of the heater directly washed by the gas stream and impurities, and ensures uniform distribution of impurities on the heater.

The drawing shows a device, General view.

The device consists of a housing 1, supply channels 2 and gas outlet 3, heater 4, cold and current leads 5 having electrical and heat insulators 6.

The proposed device operates as follows.

The device is included in the gas line of the system under study, then the heater 4 is cooled through the refrigerant pipes 5, while impurities fall out of the circulating refrigerant of the system on the heater. After a certain time, which depends on the flow rate of the refrigerant in the system, the heating of the heater is stopped, the device is switched to the chromatograph system, the heater is supplied with power, and the resulting products are analyzed.

Based on experimental data, the proposed device allows to increase the accuracy of the analysis by 30-50%, reduce the complexity of the process by eliminating 3 assembly and disassembly of the device, as well as the operation of preparation and application of the sample.

Claims (3)

Claim 1. A chromatograph pyrolyzer containing a housing equipped with gas supply and exhaust channels, a heater and current leads, characterized in that, in order to increase the accuracy of the analysis of impurities in the refrigerants to the heater spiral О connected cold pipes made of ¹ material with high thermal conductivity, such as copper. 2. Pyrolyzer pop. 1, characterized in that the heater spiral is made in 5 view of the cone ^