SU1038815A1 - Nuclear absorption of spectral analysis device - Google Patents

Abstract

A DEVICE FOR TOTAL AND ABSORPTION SPECTRAL ANALYSIS using liquid fuel, including a spraying chamber, a spray gun and a burner, characterized in that, in order to increase the sensitivity of the analysis, the spray chamber is located directly in the body of the burner, and its bottom is provided with holes 0.05 in diameter -0.5 mm and with a step of 0.53 mm.

Description

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The invention relates to analytical chemistry, in particular, to us; an array for atomic absorption spectral analysis, and Mch ..:;. find application for the determination of small impurities in various substances.

A device is known for mixing the sample under investigation. A sample with a combustible gas and producing atomic vapor in a flame, consisting of two main parts: the atomizer and the burner. The pneumatic nebulizer is located at the end of the Cylindrical spray chamber, which, by its opposite End, is connected to the burner by means of a short pipe. The spray booth is equipped with tubes for injecting flammable gas and air, and there is a drainage tube 8 nii. The burner has an elongated body, which is connected to the spray chamber by means of a short pipe. In the upper part of the burner has a slot for the exit of the combustible mixture.

The disadvantage of this device is the need to use acetylene as a combustible gas, which is difficult to supply in a number of areas of the country. In addition, acetylene is explosive.

Devices are known for use as a combustible vapor of liquids, such as gasoline or acetone. The device also consists of a spray chamber with sprays and a burner, but additionally includes a vessel, partially filled with combustible liquid, installed between the compressor and the spray chamber and equipped with a tube for supplying air lowered almost to the bottom, and a discharge tube. The air passing through the layer of flammable liquid evaporates it and, together with the vapor, enters the spray booth.

The flame temperature of the mixture of air with gasoline and acetone vapor is close to the temperature of the air-propane flame, therefore, the use of such a flame also achieves low sensitivity.

The closest in technical essence to the present invention is a device for using as a fuel directly liquid liquids (hydrocarbons), which is a system of spray and burner. At the end of the spray booth, two spray guns are placed parallel to each other in a horizontal plane and directed in one direction. There is a drainage tube at the bottom of the spray booth. The opposite end of the spray chamber is connected by means of a short pipe with a burner. The burner has an elongated body, in the lower part there is a short sleeve for connecting to the spray booth. In the upper part, the burner has a slit for the exit of the Il2l combustible mixture.

The specified device due to the low evaporation efficiency of the fuel droplets has a low sensitivity analysis.

The purpose of the invention is to increase the sensitivity of the analysis.

This goal is achieved by the fact that in a device for atomic absorption spectral analysis using a liquid fuel, including a spraying chamber, a sprue, a pg1 Spray gun and a burner, the spray chamber is placed directly in the burner housing, its bottom is provided with holes 0.05-0.5 mm in diameter and with a step of 0,5-3 mm.

The presence of holes in the bottom of the spray chamber allows for an increase in the sensitivity of the assay, as it makes it possible to use directly combustible liquid as a fuel, which at the same time ensures that the entire amount of the analyzed solution enters the flame.

In known methods, a flame is formed from a combustible gas or liquid, which is introduced separately from the sample. The number of atoms of fuel and oxidant in the flame is much greater than the number of atoms of the sample. Thus, atomic absorption spectrophotometers consume 2–5 L / min of acetylene and 1025 L / min of air; the sample flow is 3 ml / min. Moreover, no more than 10% of the intake sample gets into the flame, more than 90% of the substance flows into the drainage tank; Thus, the flame reaches only 0.3-0.6 ivui / min of the sample, i.e. the sample is additionally diluted with fuel and oxidant tenfold. Of course, this significantly limits the sensitivity of the Hoctb analysis.

The proposed device, unlike the known ones, allows the use of a sample solvent as a fuel and ensures that the entire amount of the analyte is released into the flame. This greatly increases the sensitivity of the analysis, although the flame temperature is also relatively low.

FIG. 1 shows the proposed device, frontal projection; in fig. 2 - the same horizontal

Claims (1)

DEVICE FOR ATOMIC-ABSORPTION SPECTRAL ANALYSIS using liquid fuel, including a spray, a chamber, a spray and a burner, characterized in that, in order to increase the sensitivity of analysis, the spray chamber is located directly in the burner body, and its bottom is equipped with holes with a diameter of 0.05 0.5 mm and in increments of 0.53 mm. > 103881'5