SU691735A1 - Apparatus for the determination of disperse composition and count concentration of mist drops - Google Patents

Claims (1)

The invention relates to devices for determining the size and counting concentration of the dispersed phase of fogs of various substances, including sub-particles; micrometre size. A device for the deposition of fog droplets is known, followed by an electron microscopic analysis of the dispersity and counting concentration. This device is a filter holder-zasset, in which the fibrous filter material is fixed. After the mist droplets are deposited, the filtering material with osshed particles is removed from the cassette and splits into individual fibers that are examined in an electron microscope, and a high vacuum is maintained in the microscope column (up to 1 Ohm Hg is possible. For these reasons, the liquid particles evaporate, which leads to the true size and concentration t. A device for determining the dispersed composition and the calculated concentration of fog droplets, consisting of a vacuum chamber, is known. The chip is placed on a substrate with mist drops preliminarily deposited on it, a vessel with liquid nitrogen serving to soak the precipitated droplets and a device for augmenting the frozen drops with metal vapors 12. The device works as follows. The substrate with precipitated drops from the precipitator is placed in a vacuum chamber, then a coolant (liquid nitrogen) is supplied. When the drops on the substrate are cooled to approximately the temperature of the agent, the air is evacuated from the vacuum chamber, then the frozen / droplets are drained metal vapors. In the electron microscope, it is no longer the drops themselves that are considered, but their replicas, dog and metal pairs. 3 However, this known device is characterized by insufficient measurement accuracy due to the following reasons: - evaporation of fog droplets when the substrate is transferred with them from the precipitator to the vacuum chamber; - evaporation of drops in the process of freezing; - condensation of water vapor present in the air. Water droplets are deposited on the substrate, frozen on it, and darkened, thereby distorting the dispersed composition and the countable concentration of the fog under study. The aim of the invention is to improve the accuracy of the analysis. For this, the device is equipped with a low temperature thermoprecipitate, installed in a vacuum chamber parallel to the trimming device, the thermoprecipitator lid having a mechanism for moving with an external manipulator. The design of the low temperature thermoprecipitate is known. The main elements are a cooling case, a lid with a heating element and a settling substrate. A device for determining the dispersion composition and the calculated concentration of fog droplets contains a vacuum chamber 1 inside which the main components are mounted on the metal plate 2. The low-temperature thermoprecipitator contains a case 3 (see. 2) and a removable cover 4. In case 3 of the thermoprecipitate there is a holder 5 with a precipitation substrate 6, a unit intended for cooling, made in the form of a pipeline 7 (see Fig. 1). Thermoprecipitate lid 4 has a heating element 8 and it is equipped with a mechanism for movement, made in the form of a system of levers 9 and 10 connected to an external manipulator 11. The cover 4 is vacuum tightly pressed to the housing 3 by means of levers 9, 1О and a manipulator 11 in such a way that a channel with a section of 0.1 x 5 mm is formed between it and the substrate. In the plane of the connection of the housing 3 and the roof clamps 4, the pipelines 12 are connected to the channel with a section of 0.1 x 5 mm for the aerosol under investigation. A device for sub-shading frozen droplets includes a sputtering element, which is a fuse 5.4, fuse wire 13c applied by a sprayed metal. The wire is parallel to the substrate and secured in the holders 14. The trimmer also contains a system of levers 15 and 16 connected to the drive 17 mounted outside the vacuum chamber 1. The lugs 18 are provided for fixing the position of the thermoprecipitator cap 4 in the open state, during subteni The device works as follows. The cover 4 is a system of levers 9 and 1O and the manipulator 11 of the vacuum is tightly pressed against its body. The test aerosol is fed through pipeline 12 to the sedimentation channel with a cross section of 0.1 X 5 mm, and water at 18 ° C is supplied through pipeline 7, while the heating element 8 of the cover 4 provides heating to 50 C. The aerosol passing through the precipitation channel The thermophoresis is deposited on the substrate 6. After the deposition operation is completed, the pipeline 12 is blocked by vacuum and tightly, and a coolant, such as liquid nitrogen, is supplied through the pipeline 7, as a result the thermoprecipator housing 3 is cooled, and the droplets deposited on the substrate are frozen. Now the lid 4 with the holder 5 and the substrate b is moved to the stops 18 by means of the external manipulator 11 and the mechanism in the form of levers 9 and 10 (see Fig. 2 by dashed lines). Then, using the actuator 17 and the system of levers 15 and 16, the wire 13 is brought to the substrate at the required angle d. The coarse wire 13 is heated, the metal deposited on it is evaporated, and frozen droplets are fused. Then a film with the replicas of the droplets under investigation is removed from the substrate 6 and analyzed under an electron microscope. In this case, if the drops are large, the analysis can be performed under an optical microscope, do not remove the film. The use of the proposed device with a low-temperature thermocontracter to determine the dispersed composition and counting concentration of fog droplets greatly improves the accuracy of the analysis, since all the necessary operations (sedimentation of droplets, their freezing and refining) are carried out in a vacuum chamber under optimal conditions that exclude evaporation from podlokii and koidenspi.i1 gyudyh vapors at its porhly. Apparatus of the invention A device for determining the dispersed composition and the counting concentration of the MOPOLE fogs, comprising a vacuum chamber in which a precipitation substrate is placed, a device for suspending precipitated droplets, and a unit for freezing them, characterized in that a low-temperature thermoprecipitate, installed in a vacuum chamber parallel to the trimming device, the thermoprecipitator lid having a membrane; a sanism for moving with the outer manipulator; rum. Sources of information taken into account during the examination 1. Spurny K. et al. Aerosols. - M.J; Tomizdat, 1964, p. 210. 2..11Г. SthOrtauet, ECect-roh and Lightopt caC da-tenm-inatipnof the fact-opondi Site of 016 drKspSets taue-H.e nhof €t z.ufi, vo & ten