SU516947A1 - Device for determining the gas permeability of materials - Google Patents

Description

ka for the material under study, incision. The device contains an isolated thermostat chamber 1 connected to a vacuum circuit (not shown); a cell 2 located inside the thermostat chamber 1, a filter system comprising a fabric filter 3 for trapping the aerosol phase and a porous multi-stage liquid filter 4 for trapping the gaseous phase; an inert gas (highly pure nitrogen) cylinder 5 for transport from cell 2 to the filter system; electric heaters 6 and 7, occasional to prevent condensation of volatile substances on the walls of filters 3 and 4 and thus eliminate their loss due to condensation; a device for temperature control in the thermostat chamber 1, containing an electronic automatic recording recorder potentiometer (KSP-4) 8 and an electronic automatic regulating indicating potentiometer (EPV2-11A) 9. The cell consists of two metal / steel covers 10 and 11. The cover 10 is made with channels 12 and 13. At the same time, channel 12 is connected to the cylinder 5 for inert gas through pipeline 14, and channel 13 to filter 3 through pipeline 15. Before the filter 3 can be installed & Flap valve (not shown). The lid 11 can also be provided with ducts 16 and 17. Moreover, duct 16 is connected via pipeline 18 to fan 19 for supplying smoke or gas to be examined, and duct 17 is connected to atmosphere by means of conduit 20. A pressure gauge 21 is installed on line 20. Pipelines 18 and 20 of the fan 19 form a system for supplying smoke or gas. It can be closed through a source of smoke (not shown). The device may also have a system for circulating waste inert gas, for example nitrogen, containing a valve 22, a fan 23, a pipeline 24 connected to the pipeline 15 and a collection for the spent inert gas (not shown). The device works as follows. After opening the lid of the chamber-teat 1 (not shown), remove the upper lid 1O of cell 2, then apply a certain amount of canderogenic substance to cell lid 11, spreading it out numbered along the length of cell 2. Above the substance between the fluoroplastic gaskets 25 put the tested sausage casing. 26. liter 3 is filled with a Petr nova cloth and filter 4 with the necessary solvent (benzene, cyclohexane, n-octane, heptane or other ammonia or the corresponding solvents). Further include the heating system 27 of the thermostat chamber 1, the vacuum pump (not shown), the heaters 6, 7, and the regulating system (potentiometers 8 and E). During the whole study, the temperature and vacuum are kept constant (respectively, within 30-130 ° C and 0.1 atm). This temperature increases the penetration of particles through the blue film, and the vacuum heat chamber prevents the carcinogenic substances from entering the environment in case of leakage. After reaching the specified temperature, the cylinder 5 is opened and a constant gas flow is maintained with a rheometer (not shown). passes through the pipeline 14, enters the chade 2 through the channel 12, passes over the shell under study through the channel 13 and carries the substances that have penetrated through it into the system of fluors. The heaters 6 and 7 prevent the vapors from condensing on the walls of the filters 3 and 4, thereby eliminating the loss of volatile substances. The amount of diffusion & substances was determined by analyzing the contents of filters 3 and 4 using the Shpolsky effect. The essence of this effect lies in the fact that the ladineocene spectrum of many polycyclic aromatic hydrocarbons, including n 3, 4 benzopyrene, becomes quasi-linear if their solutions in normal parafvgah (n-heptane, n-hexane, n-octane, etc.) freeze at low temperature. In the study of sausage casings on the permeability of known carcinogenic substances, the smoke or gas supply system is turned off. In the case of studying the permeability of polycyclic aromatic hydrocarbons of flue gases under production conditions, after laying the film in cell 2, the fan 19 is connected to the smoke source and, if necessary, pipeline 2O and then all operations are carried out as described above. The process is carried out under conditions adopted for production conditions (under vacuum or without vacuum). In both cases, for various reasons, it may be necessary to repeatedly pass the waste invert gas through the filter system. For this, the spent inert gas (after passing through the filter system) is collected into another cylinder (not shown), which is connected to the system by means of a valve 28, and after filling this cylinder, the fan 23 is turned on, and the cylinder 5 is turned off.

Claims (3)

1. A device for determining the gas permeability of materials, containing a thermostat chamber connected to the vacuum system, a cell for the material under study, connected to a gas source and a remote sensor of the sample temperature, with which In order to determine the permeability of sausage casings by polyclyclic aromatic hydrocarbons, which are both in the gas-forming and aerosol state, and to improve the determination accuracy, it is equipped with tissue and porous liquid connected to the cell. filters, while the latter are multi-sectional and have heaters to prevent the formation of condensate in the losses of hydrocarbons trapped by the filters. 2. The device according to claim 1, characterized in that the chamber is equipped with a system for supplying flue gases. 3. The device according to claim 1, wherein it is provided with a system for circulating the exhaust gas. 1 / FIG. 2