SU1257445A1 - Device for preparing liquids for spectrum analysis - Google Patents

Abstract

The invention relates to the field of spectral analysis and can be used to determine the quinic composition of microimpurities in liquids. The invention improves the sensitivity of the spectral analysis of liquids by increasing the concentration of the test substance in the aerosol. The investigated liquid is fed through the channel 1 to the former of the 2 jets under pressure. The jets interact with the moving surface of the heating chamber 3. Under the influence of the resulting vapors, the aerosol in the form of a mixture of vapors and solid microparticles is entrained through channel 8 in the refrigerator 9, which is dried using cooled carrier gas through channel 10, with the separation of condensed liquid through siphon 11. The dried aerosol is carried by the carrier gas to the place of spectral analysis. 1 il. (Л m:.. К «..,: Л:. / / Ч. 1.-..- .-: - v - i .--. -W -:.". .-- l 7 6 / g J. JV AT "J

Description

The invention relates to the field of spectral analysis and can be used to determine the chemical composition of trace impurities in various liquids.

The purpose of the invention is to increase the sensitivity of the spectral analysis of liquids by increasing the concentration of the analyte in the aerosol.

The drawing schematically shows the proposed device.

The device comprises a supply channel 1 for the test liquid, a shaper 2 jets, rotatably installed heating chamber 3, heater 4, engine 5, rotation bearings 6, glands 7, connecting channel 8, refrigerating chamber 9, supply channel 1 for carrier gas connected to the refrigerating chamber 9, siphon 11, channel 12 for draining the condensed liquid and channel 13 for discharging the prepared sample aerosol.

The jets are formed by capillary holes with a diameter of not more than 0.3 mm located at an equal distance from each other on the conical surface of the jet former 2 with an angle at the apex of 30 °.

The device works as follows.

The test seat is fed through channel 1 to the former of 2 jets under an overpressure of 1-3 atm (aqueous acid solutions are fed under a pressure of 1 atm, oils — under a pressure of 2 to 3 atm). As a result of the interaction of the jets with the moving surface, heating chamber 3 heated to 300 ° C (for aqueous acid solutions) or to 500 ° C (for oils), they are broken up into separate droplets with partial vaporization. Later, each drop that comes in contact with a hot surface under exposure to vapor, and editor A. Ogar

Compiled by I.Landsberg

Tehred I., Popovich Proofreader A.Obruchar

Order 4907/38 Circulation 778 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d 4/5

Production and printing company, Uzhgorod, st. Project, 4

floating from a drop in the contact zone, flattened out into a torus, breaking into smaller drops. The continuity of the movement of the hot surface of the chamber 3 and the spatial arrangement of the capillaries on the conical former 2 ensure the stability of the spraying and evaporation of the liquid without using a sputtering gas, which reduces the heating efficiency of the aerosol. Under the influence of vapors, an aerosol in the form of a mixture of vapors and solid microparticles is carried along channel 8 to a refrigeration chamber 9, in which

the aerosol is dried by supplying a cooled carrier gas through channel 10 with the separation of condensed liquid through a siphon 11, eliminating the loss of an aerosol consisting of

solid particles of impurity components of the studied liquid.

The tightness of the rotating chamber 3 is ensured by the seals 7.

Claims (1)

Invention Formula An apparatus for preparing liquids for spectral analysis, comprising a heating chamber, a refrigeration chamber connected between a feed duct for a fluid connected to a heating chamber, jet former connected to an outlet of the feed duct and located inside the heating chamber, the inlet channel for the carrier gas, the channel for draining the condensed liquid, the channel for the output of the resulting aerosol, connected to a cooling chamber, characterized in that, in order to increase the sensitivity of the spectral analysis of the liquid by increasing. concentration of the test substance in aerosol, the heating chamber is rotatably mounted, and the inlet channel for the carrier gas is connected to the refrigerating chamber.