SU900123A1 - Device for obtaining metal atomic vapors - Google Patents

Description

(54) DEVICE FOR RECEIVING METAL NUCLEAR VAPORS

The invention relates to spectrometry and spectral analysis and can be used in analytical spectrometry, mainly in atomic absorption, for the analysis of the elemental composition of substances of special frequency. A device for obtaining atomic metal vapors containing a flameless absorber to a burner with a perforated nozzle is known. However, the residence time of atomic lapoB in the flame area illuminated by the radiation source has little effect, which significantly reduces the sensitivity of the atom-absorption analysis of the elemental composition of substances. The closest to the proposed source is a device for producing atomic metal vapors containing a flameless atomizer and a burner with a nozzle having an unperforated central zone. The cylindrical non-perforated central zone of the nozzle above which a flameless atomizer is installed is surrounded by a system of circular orifices - nozzles for forming a cavity inside the flame. The burner attachment made in this way partially prevents the jet removal of atomic vapors along the vertical axis of the flame. C J The disadvantage of this device is that it does not provide a high level of analysis of the elemental composition of substances due to the flame transmitted by the source. radiation. The purpose of the invention is to increase the sensitivity of the analysis of the elemental composition of substances. This goal is achieved by the fact that in a device for producing atomic metal vapors containing a flameless atomizer to a burner with a nozzle having an unperforated central 3900 zone, the central zone of the nozzle is made in the form of a cone bounded by an annular shaped slit nozzle, and the inner part of the annular slit-shaped nozzle is formed in the form of a spherical segment.

When flowing around the central zone of the nozzle, made in the form of a cone, a laminar flow of gases is formed, which, at the outlet of the slit nozzle, forms a uniform flame flow free from turbulent mixing. In addition, the proposed nozzle design provides a dynamically stable zone inside the flame by eliminating the influx of ambient air. Making the inside of the profile of a ring-shaped slit-like nozzle in the form of a spherical segment makes it possible to create in the internal area of the flames a stable zone of circulation of atomic vapors. This is due to the fact that the separation of the boundary layer of the inner part of the annular flame flow occurs on the spherical surface of the spherical segment, which ensures the conditions of stability of the formation of quasipotential vortices. This achieves an increase in the time of atomic vapor vaporization and the internal region of the flame illuminated by the radiation source, which coincides with the zone of the indicated vortices. Thus, the proposed design of the device for obtaining atomic metal vapors provides an increase in the sensitivity of the analysis of the elemental composition of substances by increasing the lifetime of atomic vapors in the translucent dynamically stable flame region and eliminating the access of ambient air to the specified flame region. The drawing shows a device for producing atomic metal vapors a general sectional view. The device consists of a flameless atomizer 1, a burner 2 with a nozzle 3, having a non-perforated central zone in the form of a cone 4, an annular nozzle 5 with an internal part of the profile in the form of an Edar segment 6, 7 with an internal flame-forming region 8.

Claims (2)

develop the laminar flow. At the exit of the slit nozzle 5, a uniform, turbulent-free mixing flame 7 is formed with an internal 23.4 one paioTaeT device as follows. Combustible gas and oxidant gas coming from burner 2 to nozzle 3, 5 when flowing around central zone 4 in the emerging region 8. Atomic metal vapor of the analyte generated by flameless atomizer 1 is retained in the internal radiated source of radiation source coinciding with the zone of dynamically stable vortices due to the profile of the nozzle 5 in the form of a spherical segment 6. The advantage of the invention compared to the known one is that the use of the device for obtaining atomic metal vapors allows an increase in the sensitivity of the atomic absorption analysis of the elemental composition of substances by an average of 2-8 times. Claims An apparatus for producing atomic metal vapors containing a flameless atomizer, a burner with a nozzle having an unperforated central zone, characterized in that, in order to increase the sensitivity of the analysis of the elemental composition of the Substance, the non-perforated central zone of the nozzle is made in the form of a cone bounded by a circular shaped shaped slit shaped , with the inner part of the profile of the annular slit-like nozzle made in the form of a spherical segment. Sources of information taken into account in the examination 1. B. B. Lvov and others. Recent advances in the field of atomic absorption analytics. LDITP, 1969, Part 1, p. 35 2. L. A. Polieva, et al. Analyzer analysis of a furnace in a flame at a Saturn atomic absorption spectrometer. - ZhPS, 1974, v. 20, no. 5, s. 771. 7 A a